"Science, Faculty of"@en . "Resources, Environment and Sustainability (IRES), Institute for"@en . "DSpace"@en . "UBCV"@en . "Ganapathiraju, Pramod"@en . "2012-03-23T22:06:22Z"@en . "2012"@en . "Doctor of Philosophy - PhD"@en . "University of British Columbia"@en . "Illegal, unreported and unregulated (IUU) fishing has been identified as one of the\nimportant drivers affecting sustainable management of fish stocks worldwide. Although,\nGovernments have initiated regulations and institutions to address these concerns, over\nthe years little progress has been achieved in controlling drivers of illegal fishing. In the\npost UNCLOS era, countries adopting progressive laws like the United Nations Fish\nStocks Agreement, FAO Compliance Agreement and FAO International Plan of Action\non IUU fishing have not backed them up with adequate monitoring and surveillance\nassets, leading to low compliance. Most countries within the new legal framework lack\nadequate institutional and enforcement infrastructure to improve fisheries compliance.\nThe thesis employs three approaches to identify and evaluate the drivers of illegal and\nunreported fishing worldwide. First, a case study approach using a questionnaire was\nused to determine adequacy of monitoring control and surveillance in fisheries of 41\ncountries. Results demonstrate that monitoring control and surveillance is poor, with both\ndeveloping and developed countries having problems in this area. The second approach\nused 1211 illegal fishing penalty cases in 109 countries to show that low penalties\nprovide economic incentives for IUU fishing to persist in many EEZs. Finally, a detailed\ncase study of the Indian EEZ exemplifies the problems of developing countries by\nevaluating various stages where illegal and unreported catches occur in commercial and\nsmall-scale fisheries. The study found evidence of serious decline in mesh size in several\nnet fisheries. Significant evidence of the abuse of joint venture tuna fisheries also reveals\nthat only 20% of the actual catch is reported; with unreported by-catch as large as the\nactual tuna catch. Results from each of the maritime states in India (including the remote\nAndaman and Nicobar Islands) reveal that 45000 to 60000 tonnes is taken annually by\nillegal foreign fishing vessels, while 1.2 million tonnes of discards and 293,000 tonnes\nremain unreported in the small-scale and commercial trawl fisheries."@en . "https://circle.library.ubc.ca/rest/handle/2429/41730?expand=metadata"@en . "ILLEGAL AND UNREPORTED FISHING: GLOBAL ANALYSIS OF INCENTIVES AND A CASE STUDY ESTIMATING ILLEGAL AND UNREPORTED CATCHES FROM INDIA by Pramod Ganapathiraju B.Sc., Andhra University, 1994 M.Sc., Annamalai University, 1997 MMM., Dalhousie University, 2005 A THESIS SUBMITTED IN PARTIAL FULFILLMENT OF THE REQUIREMENTS FOR THE DEGREE OF DOCTOR OF PHILOSOPHY in THE FACULTY OF GRADUATE STUDIES (Resource Management and Environmental Studies) THE UNIVERSITY OF BRITISH COLUMBIA (Vancouver) March 2012 ? Pramod Ganapathiraju, 2012 iiAbstract Illegal, unreported and unregulated (IUU) fishing has been identified as one of the important drivers affecting sustainable management of fish stocks worldwide. Although, Governments have initiated regulations and institutions to address these concerns, over the years little progress has been achieved in controlling drivers of illegal fishing. In the post UNCLOS era, countries adopting progressive laws like the United Nations Fish Stocks Agreement, FAO Compliance Agreement and FAO International Plan of Action on IUU fishing have not backed them up with adequate monitoring and surveillance assets, leading to low compliance. Most countries within the new legal framework lack adequate institutional and enforcement infrastructure to improve fisheries compliance. The thesis employs three approaches to identify and evaluate the drivers of illegal and unreported fishing worldwide. First, a case study approach using a questionnaire was used to determine adequacy of monitoring control and surveillance in fisheries of 41 countries. Results demonstrate that monitoring control and surveillance is poor, with both developing and developed countries having problems in this area. The second approach used 1211 illegal fishing penalty cases in 109 countries to show that low penalties provide economic incentives for IUU fishing to persist in many EEZs. Finally, a detailed case study of the Indian EEZ exemplifies the problems of developing countries by evaluating various stages where illegal and unreported catches occur in commercial and small-scale fisheries. The study found evidence of serious decline in mesh size in several net fisheries. Significant evidence of the abuse of joint venture tuna fisheries also reveals that only 20% of the actual catch is reported; with unreported by-catch as large as the actual tuna catch. Results from each of the maritime states in India (including the remote iiiAndaman and Nicobar Islands) reveal that 45000 to 60000 tonnes is taken annually by illegal foreign fishing vessels, while 1.2 million tonnes of discards and 293,000 tonnes remain unreported in the small-scale and commercial trawl fisheries. ivPreface I am the sole author on chapters 1, 3, and 7. I am the senior author on all chapters and I assume primary responsibility for the design, implementation, analysis, and writing. The contributions of co-authors for chapters 2, 4, 5, and 6 are summarized below. Tony Pitcher contributed editorial oversight and guidance on all the chapters. Chapter 4, 5, and 6 received approval from UBC Ethics Research Board in 2008. Approval for the IUU Study questionnaire was done under the UBC ORS ethics certificate (H08-00618), UBC Behavioural Research Ethics Board, prior to undertaking the study in India. Chapter 2 is based on conceptual model developed in Sumaila et al., (2006) paper (Sumaila, U. R., Alder, J., & Keith, H. (2006). Global scope and economics of illegal fishing. Marine Policy, 30(6), 696-703). The original paper used 16 incidents, whereas in the current work all the information for 1211 incidents in 109 countries was retrieved from GIUFI (2010) database, which was developed and owned by senior author (Pramod Ganapathiraju). I collected all the information, and wrote the manuscript. Rashid Sumaila provided edits, and guidance during all stages of the work. Tony Pitcher contributed editorial oversight. A version of case studies for marine fisheries in 41 fishing countries has been published as Pramod, G. (2011). Evaluations of Monitoring, Control and Surveillance in marine vfisheries of 41 countries, MCS Case Studies Report, Fisheries Centre, University of British Columbia, Canada, May 2011, 222 p. A version of chapters 4 and 5 has been published as field report (Pramod, G. (2010). Illegal, Unreported and Unregulated Marine Fish Catches in the Indian Exclusive Economic Zone, Field Report, Policy and Ecosystem Restoration in Fisheries, Fisheries Centre, University of British Columbia, BC, Vancouver, Canada, 30 pages). I conducted all the interviews and wrote the entire manuscript. Tony Pitcher contributed editorial oversight and guidance on all stages of the work. Daniel Pauly gave overall comments for chapters one to seven. viTable of Contents Abstract???????????????????????????????. ii\tPreface???????????????????????????????... iv\tTable of Contents???????????????????????????. vi\tList of Tables????????????????????????????.. xiii\tList of Figures????????????????????????????.. xv\tList of Symbols and Abbreviations???????????????????. xvii\tAcknowledgements??????????????????????????. xx\tDedication?????????????????????????????. xxiii\tChapter 1: Incentives to illegal and unreported (IUU) fishing????????? 1\t1.1\t Introduction ......................................................................................................... 1\t1.2\t Discussion of the definition of IUU fishing ........................................................ 4\t1.3\t Incentives to illegal and unreported fishing ........................................................ 8\t1.4\t Thesis structure ................................................................................................. 12\t1.5\t Chapter 1 summary ........................................................................................... 13\tChapter 2: The global illegal fishing penalty regime: why efforts to control illegal fishing are not working?................................................................................................. 15\t2.1\t Introduction ....................................................................................................... 15\t2.2\t Methods ............................................................................................................. 18\t2.3\t Benefits from illegal fishing activity ................................................................ 18\t2.4\t Expected penalty drivers ................................................................................... 20\t2.4.1\t Detection likelihood driver ........................................................................... 20\t2.4.2\t Avoidance driver ........................................................................................... 20\t vii2.4.3\t Penalty driver ................................................................................................ 20\t2.4.4\t Moral and social drivers ................................................................................ 21\t2.5\t Formal penalty model ....................................................................................... 22\t2.6\t Risks in illegal activity (costs and benefits) ..................................................... 23\t2.7\t Components of penalty table ............................................................................ 23\t2.7.1\t Arresting country .......................................................................................... 24\t2.7.2\t Vessel/ gear ................................................................................................... 24\t2.7.3\t Illegal catch / fishery ..................................................................................... 24\t2.7.4\t Number of vessels ......................................................................................... 24\t2.7.5\t Catch ............................................................................................................. 25\t2.7.6\t Catch value .................................................................................................... 25\t2.7.7\t Expected revenue .......................................................................................... 27\t2.7.8\t Variable cost ................................................................................................. 28\t2.7.9\t Theta (?) value .............................................................................................. 28\t2.7.9.1\t Calculation of ??? value in the current work ........................................ 28\t2.7.10\t Fine ............................................................................................................... 31\t2.7.11\t Expected penalty ........................................................................................... 32\t2.7.12\t Total cost ....................................................................................................... 32\t2.7.13\t Total cost / Expected revenue ....................................................................... 32\t2.7.14\t New fine ........................................................................................................ 32\t2.8\t Results ............................................................................................................... 32\t2.9\t Discussion ......................................................................................................... 39\t2.10\t Chapter 2 summary ........................................................................................... 40\t viiiChapter 3: Plugging the leaks: an assessment of monitoring control and surveillance (MCS) in the marine fisheries of 41 countries?????????? 42\t3.1\t Introduction ....................................................................................................... 42\t3.2\t International laws relevant to monitoring control and surveillance in fisheries 44\t3.3\t Definition of monitoring control and surveillance in fisheries ......................... 45\t3.4\t Tools for monitoring control and surveillance in fisheries ............................... 47\t3.4.1\t Importance of surveillance infrastructure in fisheries .................................. 48\t3.4.2\t Importance of vessel monitoring system in the fisheries sector ................... 49\t3.4.3\t Why is an observer scheme needed in fisheries? .......................................... 52\t3.4.4\t Importance of sea based patrols in fisheries ................................................. 53\t3.4.5\t Importance of aerial patrols in fisheries ........................................................ 53\t3.4.6\t Importance of dockside monitoring in fisheries ........................................... 55\t3.4.7\t Importance of coastal patrols ........................................................................ 55\t3.4.8\t Importance of monitoring transhipments at sea ............................................ 56\t3.4.9\t Importance of fishing gear inspections ......................................................... 57\t3.5\t Methods ............................................................................................................. 57\t3.6\t Results ............................................................................................................... 59\t3.6.1\t Scoring compliance with surveillance infrastructure .................................... 59\t3.6.2\t Scoring compliance with MCS human resources ......................................... 60\t3.6.3\t Scoring compliance with monitoring of high seas fleet ................................ 62\t3.6.4\t Scoring compliance with vessel monitoring scheme .................................... 63\t3.6.5\t Scoring compliance with observer scheme ................................................... 64\t3.6.6\t Scoring compliance with inspections at sea .................................................. 65\t ix3.6.7\t Scoring compliance with adequacy of aerial patrols .................................... 67\t3.6.8\t Scoring compliance with dockside monitoring ............................................. 68\t3.6.9\t Scoring compliance with coastal patrols ....................................................... 69\t3.6.10\t Scoring compliance with monitoring transshipments at sea ......................... 70\t3.6.11\t Scoring compliance with fishing gear inspections ........................................ 71\t3.7\t Discussion ......................................................................................................... 72\t3.8\t Comparisons among questions ......................................................................... 75\t3.9\t Chapter 3 summary ........................................................................................... 78\tChapter 4: Illegal marine fish catches in the Indian Exclusive Economic Zone?.. 81\t4.1\t Introduction ....................................................................................................... 81\t4.2\t Categories of illegal and unreported catches assessed in the 2008 field trip .... 82\t4.2.1\t Illegal fish catches categories in the Indian EEZ .......................................... 82\t4.2.2\t Unreported fish catches categories ............................................................... 82\t4.3\t Interview methodology ..................................................................................... 87\t4.4\t Brief reports of the study areas for assessment of illegal catches ..................... 90\t4.4.1\t Gujarat ........................................................................................................... 91\t4.4.2\t Maharashtra ................................................................................................... 94\t4.4.3\t Karnataka ...................................................................................................... 95\t4.4.4\t Kerala ............................................................................................................ 96\t4.4.5\t Tamil Nadu ................................................................................................. 102\t4.4.6\t Andhra Pradesh ........................................................................................... 103\t4.4.7\t Orissa .......................................................................................................... 104\t4.4.8\t West Bengal ................................................................................................ 106\t x4.5\t Illegal fishing by Indian trawlers in inshore waters allocated to artisanal fishers in coastal states of mainland India .............................................................................. 107\t4.6\t Illegal fishing in offshore waters off India?s EEZ .......................................... 113\t4.7\t Discrepancies of foreign joint venture chartered tuna longliners ................... 117\t4.8\t Fishing in disguise: LoP tuna longliners in Indian waters .............................. 119\t4.9\t Troubled waters: Indo-Sri Lankan illegal fishing problem ............................. 122\t4.10\t Incursions of Sri Lankan vessels into the Indian EEZ .................................... 125\t4.11\t Conclusion ...................................................................................................... 127\t4.12\t Chapter 4 summary ......................................................................................... 131\t4.12.1\t Internal displacement .................................................................................. 132\t4.12.2\t Displacement to foreign waters .................................................................. 132\tChapter 5: Unreported marine fish catches of mechanised and small-scale fishers in the Indian exclusive economic zone??????????????????? 136\t5.1\t Introduction ..................................................................................................... 136\t5.2\t Discards ........................................................................................................... 137\t5.2.1\t Discards by Indian fishing vessels .............................................................. 137\t5.2.2\t Discards estimates from the current study .................................................. 145\t5.2.3\t Discards estimates from chartered LOP tuna longliners and Indian deep-sea trawlers .................................................................................................................... 147\t5.3\t Bait fish used in small-scale and mechanised sectors in Indian fisheries ....... 150\t5.4\t Post-harvest losses .......................................................................................... 152\t5.5\t Subsistence fisheries catches .......................................................................... 153\t5.6\t Dryfish landings .............................................................................................. 160\t xi5.7\t Glut catches ..................................................................................................... 161\t5.8\t Unreported molluscan catches ........................................................................ 162\t5.9\t Take home catch of artisanal fishers ............................................................... 166\t5.10\t Why traditional management measures are not working? .............................. 169\t5.11\t Conclusion ...................................................................................................... 169\t5.12\t Chapter 5 summary ......................................................................................... 173\tChapter 6: Illegal and unreported fish catches in the Andaman and Nicobar Islands??????????????????????????????... 176\t6.1\t Introduction ..................................................................................................... 176\t6.2\t Interview methodology ................................................................................... 178\t6.3\t Monitoring control and surveillance in Andaman and Nicobar Islands ......... 179\t6.4\t Fisheries regulations in the Andaman and Nicobar Islands ............................ 181\t6.5\t Nature of poaching activities in Andaman and Nicobar waters ..................... 182\t6.5.1\t Extent of poaching by foreign fishing vessels ............................................ 184\t6.5.2\t Incentives for domestic Indian poachers in the islands .............................. 186\t6.6\t Estimation of illegal fish catches in the Andaman and Nicobar islands ......... 187\t6.7\t Unreported domestic catches in Andaman & Nicobar Islands ....................... 188\t6.7.1.1\t Sea shell fisheries in Andaman and Nicobar waters ........................... 188\t6.7.1.2\t Fish consumption among indigenous tribes ........................................ 189\t6.7.1.3\t Consumption of fish in tourist resorts and local hotels ....................... 190\t6.7.1.4\t Take home catch of island fishers ....................................................... 191\t6.7.1.5\t Baitfish used by domestic vessels in the islands ................................. 195\t6.8\t Conclusion ...................................................................................................... 195\t xii6.9\t Chapter 6 summary ......................................................................................... 203\tChapter 7: Conclusion????????????????????????. 206\t7.1\t Main findings .................................................................................................. 206\t7.1.1\t Incentives that allow illegal fishing to persist in the world?s EEZs ........... 206\t7.1.2\t Is monitoring control and surveillance adequate in world?s fisheries? ....... 207\t7.1.3\t Are illegal fishing penalties a significant deterrent to poachers? ............... 208\t7.1.4\t Factors driving illegal and unreported catch in the Indian EEZ ................. 208\t7.1.4.1\t Weak governance ................................................................................ 209\t7.1.4.2\t Controlling illegal catches from chartered foreign tuna longliners .... 210\t7.1.4.3\t Overcapacity in trawl and artisanal fisheries ...................................... 211\t7.1.4.4\t Influence of peer behavior .................................................................. 213\t7.2\t Future directions ............................................................................................. 215\tBibliography????????????????????????????.. 217\tAppendix A: Cost benefit analysis for 1211 illegal and unreported fishing penalty incidents in 109 countries. .......................................................................................... 257\tAppendix B: Questionnaire for the study evaluating monitoring control and surveillance in 41 fishing countries. ........................................................................... 309\tAppendix C: List of countries scored for MCS analysis: Catches and rank order ..... 312\tAppendix D: Ease of access to data for monitoring, control and surveillance in 41 fishing countries .......................................................................................................... 314\tAppendix E: Indian trawlers arrested for illegal fishing in Orissa?s territorial waters and marine sanctuaries. ............................................................................................... 316\tAppendix F: Median values of Total cost / Expected revenue for 109 countries. ..... 318\t xiiiList of Tables Table 4.1: Interviews conducted and places visited for estimation of IUU catches in the Indian EEZ. ....................................................................................................................... 85\tTable 4.2: Violation of Marine Fisheries Regulation Acts by Indian trawlers in the artisanal zone. ................................................................................................................. 108\tTable 4.3: Estimates of illegal catches by Indian trawlers in the artisanal zone ............ 109\tTable 4.4: State-wise allocation for small-scale fishing craft in India. .......................... 112\tTable 5.1: Discard estimates in the Indian maritime states from the present study. ....... 143\tTable 5.2: Estimated discards by foreign-chartered trawlers and tuna longliners in the Indian EEZ. ..................................................................................................................... 149\tTable 5.3: Bait fish used in commercial hook and line fisheries along the Indian coast. 151\tTable 5.4: Bait fish used in pelagic small-scale fisheries using motorized boats. .......... 152\tTable 5.5: Subsistence fish landings from major estuaries, backwaters and mangroves.157\tTable 5.6: Annual reef based subsistence fish catches along the mainland Indian coast. ......................................................................................................................................... 160\tTable 5.7: Unreported molluscan catches from estuaries, backwaters and creeks in the Indian EEZ. ..................................................................................................................... 165\tTable 5.8: Artisanal take home catches along the Indian coast. ..................................... 167\tTable 5.9: Unreported catches from mechanised trawlers and gillnetters. ..................... 168\tTable 5.10: Unreported catches quantified from 2008 Indian field trip in the mainland EEZ. ................................................................................................................................ 170\tTable 6.1: Estimates of fish consumption by indigenous tribes in Andaman and Nicobar Islands. ............................................................................................................................ 190\t xivTable 6.2: Household consumption of fish among fishermen communities of Indian origin in the Andaman and Nicobar Islands. .................................................................. 193\tTable 6.3: Total estimate of illegal and unreported catches in the EEZ of Andaman and Nicobar islands. ............................................................................................................... 196\tTable 6.4: Sea cucumbers, gastropods and corals seized by Andaman and Nicobar Police. ......................................................................................................................................... 199\t xvList of Figures Figure 1.1: Illegal and unreported (IUU) fishing patterns. ................................................. 6\tFigure 2.1: IUU penalties in 109 countries. ...................................................................... 34\tFigure 2.2: Median values of the reciprocal of Total cost / Expected revenue in 109 countries. (Contd.., on page 38). ....................................................................................... 37\tFigure 2.3: Median values of the reciprocal of Total cost / Expected revenue in 109 countries. ........................................................................................................................... 38\tFigure 3.1: Number of fishing vessels equipped with Vessel Monitoring System (VMS) in 53 maritime nations. ..................................................................................................... 51\tFigure 3.2: MCS compliance scores for surveillance infrastructure. ................................ 60\tFigure 3.3: MCS compliance scores for human resources. .............................................. 61\tFigure 3.4: MCS compliance scores for high seas fleet monitoring. ................................ 63\tFigure 3.5: MCS compliance scores for vessel monitoring system. ................................. 64\tFigure 3.6: MCS compliance scores for observer scheme. ............................................... 65\tFigure 3.7: MCS compliance scores for inspections at sea. ............................................. 66\tFigure 3.8: MCS compliance scores for aerial patrols. ..................................................... 68\tFigure 3.9: MCS compliance scores for dockside monitoring. ........................................ 69\tFigure 3.10: MCS compliance scores for coastal patrols. ................................................ 70\tFigure 3.11: MCS compliance scores for monitoring transshipments at sea. ................... 71\tFigure 3.12: MCS compliance scores for fishing gear inspections. ................................. 72\tFigure 3.13: Bar chart showing number of ?good? and ?fail? compliance ratings. ........... 75\tFigure 3.14: MCS grid showing number of ?good? and ?fail? scores for each question by country. ............................................................................................................................. 77\t xviFigure 4.1: Map of India. .................................................................................................. 86\tFigure 4.2: Number of Pakistani fishing boats arrested in Gujarat (India). ...................... 94\tFigure 4.3: Estimated total illegal catch taken by foreign fishing vessels in the Indian EEZ. ................................................................................................................................ 114\tFigure 4.4: Sri Lankan fishing vessels arrested in the Indian EEZ (1981-2010). ........... 126\tFigure 4.5: Map showing migration of fishing crew to Middle East countries. ............. 134\tFigure 5.1: Information from IUU interviews in 2008 showing displacement of Indian fishers due to overfishing. ............................................................................................... 175\tFigure 6.1: Map showing mainland India and its island territories. ............................... 178\tFigure 6.2: Number of tourists visiting Andaman & Nicobar Islands. ........................... 191\tFigure 6.3: Estimates of sea cucumbers catch taken by illegal foreign fishing vessels in the Andaman & Nicobar Islands. .................................................................................... 197\tFigure 6.4: Estimates of illegal trochus catch taken by foreign fishing vessels in the Andaman and Nicobar Islands. ....................................................................................... 200\tFigure 6.5: Estimates of illegal finfish catch taken by foreign fishing vessels in the Andaman and Nicobar Islands. ....................................................................................... 201\t xviiList of Symbols and Abbreviations AFJ Japan Fisheries Agency ALC Automatic Location Communicator ANI Andaman and Nicobar Islands BOBP Bay of Bengal Programme BPL Below Poverty Level CCTV Closed Circuit Television CCRF Code of Conduct for Responsible Fisheries CMFRI Central Marine Fisheries Research Institute CPUE Catch Per Unit Effort DAHD Department of Animal Husbandry, Dairying and Fisheries, India EC European Commission EEZ Exclusive Economic Zone EU European Union FAO Food and Agriculture Organization of the United Nations FFV Foreign Fishing Vessel FMC Fisheries Monitoring Centre FRP Fibre Reinforced Plastic Boat GIS Geographic Information System GPS Global Positioning System GIUFI Global Illegal and Unreported Fishing Incidents Database GT Gross Tonnage HP Horse Power xviiiHSTF High Seas Task Force ICCAT International Commission for the Conservation of Atlantic Tunas ICG Indian Coast Guard ICGS Indian Coast Guard Ship ICTSD International Centre for Trade and Sustainable Development IEZ Inshore Exclusion Zone IGO International Governmental Organization IMO International Maritime organization INS Indian Naval Ship IOTC Indian Ocean Tuna Commission IPOA International Plan of Action to Prevent, Deter and Eliminate IUU Fishing IRBn Indian Reserve Battalion IUCN International Union for Conservation of Nature IUU Illegal, Unreported and Unregulated Fishing JCG Japanese Coast Guard LoP Letter of Permission MCS Monitoring, Control and Surveillance MFRA Marine Fisheries Regulation Act MPA Marine Protected Area MPEDA Marine Products Export Development Authority MST Mid-Sea Transshipment MZI Maritime Zones of India Act NAFO North Atlantic Fisheries Organization xixNEAFC North East Atlantic Fisheries Commission NEERI National Environmental Engineering Research Institute NGO Non-Governmental Organisation OAL Overall Length OECD Organisation for Economic Co-operation and Development PIN Penalty Infringement Notice PMF Andaman Police Marine Force RFMO Regional Fishery Management Organization SAR Synthetic Aperture Radar SPC Secretariat of the Pacific Community SRFC Sub-Regional Fisheries Commission UN United Nations UNCLOS United Nations Convention on the Law of the Sea UNESCO United Nations Educational, Scientific and Cultural Organization UNFSA United Nations Fish Stock Agreement UNGA United Nations General Assembly UNPSMA United Nations Port State Measures Agreement USD United States Dollar VDS Vessel Detection System VMS Vessel Monitoring System xxAcknowledgements I thank my supervisor Tony, J. Pitcher without whom this work would not have been possible. I wish to thank him for the support, encouragement and wise advice. I express my sincere gratitude for his mentorship, editorial oversight, and his spirit to dig on new ideas and explore the possibility of converting them into worthwhile research. Special thanks are owed to my parents, who have supported me throughout my years of education, both morally and financially. I would like to especially thank my mother for substantial funding during work on Chapter 2, Chapter 6 and logistic support during the Indian IUU trip. Chapters 4, 5 and 6 were made possible through funding from MRAG, U.K. (through DEFRA); Cecil and Kathleen Morrow Scholarship for the year 2007. Partial funding for Chapter 2 on illegal fishing penalties was provided by Rashid Sumaila through Research Assistantship for 3 months, with main support from student loan in India. I sincerely thank the authorities in State Bank of India for providing the student loan. I would like to thank Daniel Pauly for providing funding (Research Assistantship for one year) through the Sea Around Us Project for the work on FAO Code of Conduct for Responsible Fisheries for 18 countries during the year 2006. My special thanks to all the academics and scientists from Europe, Africa and Pacific islands who provided information on illegal fishing and MCS aspects in Chapters 2 and 3. xxiIn India, I thank gracious assistance provided by Prof. Ramachandran Nair, Panangad Fisheries College; J. Santhana Kumar, National Institute of Ocean Technology (NIOT), Chennai; Dr. S. K. Chakraborty, and MSc students G.B. Srikanth, Himanshu, Debabrata Panda (CIFE), Mumbai; Paramita Banerjee Sawant, CMFRI, Mumbai; Prof. S.M. Shivaprakash, Karnataka Veterinary, Animal and Fisheries Sciences University; Jitin Ghosh, Subiksha Trading Services, Cochin; Dr. J.K. Patterson Edward, Director, Suganthi Devadason Marine Research Institute, Tuticorn; Dr. S. Bragadeeswaran and Dr. S.M. Rafi (Asst. Professors, CAS in Marine Biology, Annamalai University, Parangipettai); Research Assistants: Srinivas, Kakinada; Mantha Gopikrishna, Chennai ; Ramu, Santosh, Harish (College students, Visakhapatnam) ; Dinakar Varma, Srinivas Rao (Andhra University), Dinesh, Sushank Deb, Kolkata ; Dinesh Patel, Ashish Sawant, Gujarat. I would also like to acknowledge my colleagues and mentors on various papers included here: Kaija Metuzals, David Agnew, John Pearce, Jennifer Jacquet, Reg Watson and Katherine Short. I thank Carie Hoover, Roseti Imo, Divya Alice Varkey, Rajeev Kumar, Brett van Poorten, Mike Hawkshaw, Megan Bailey, Jennifer Jacquet, Shawn Booth, Chiara Piroddi, Colette Wabnitz, Dawit Tesfamichael, and Ahmed Khan for their intellectual insights at UBC. I would also like to thank David Agnew, Duncan Copeland and Kaija Metuzals whose penetrating questions taught me to probe more deeply the issues related to illegal fishing. xxiiI also offer my enduring gratitude to the faculty and staff at the UBC, who have inspired me to continue my work in this field. I owe special thanks in particular to Carol Pollock and Kathy Nomme at the Department of Zoology for providing me an opportunity to work as Lab Instructor in the Biology 140 programme. I would also like to thank Kyle Sullivan, Janice Doyle, Ann Tautz, Grace Ong and Marina Campbell for bearing with my incessant requests and helping me with the administrative requirements. Finally, I would like to acknowledge my wife Deepti for proofreading my thesis, patience for bearing with my odd work schedules, and for ensuring sanity during the writing of the thesis. xxiiiDedication To my parents Ganapathiraju Perumalla Raju, Rama Devi & my wife Deepti 1Chapter 1: Incentives to illegal and unreported (IUU) fishing 1.1 Introduction Coastal states are bestowed with an intrinsic responsibility to ensure sustainable management of marine resources from both domestic and foreign fishing vessels operating in their 200 nautical miles Exclusive Economic Zone (EEZ). This responsibility is clearly stated in Article 61 of the 1982 United Nations Convention on the Law of the Sea (UNCLOS)1 ?The coastal State, taking into account the best scientific evidence available to it, shall ensure through proper conservation and management measures that the maintenance of the living resources in the exclusive economic zone is not endangered by over-exploitation?. In this context, enforcement of national and international fisheries laws assumes immense importance and countries require adequate regulatory, financial and human resources to control access to their fisheries resources. However, in the post-UNCLOS era, many countries lack the means to effectively control and regulate fishing effort in this vast new expanse. Problems in tackling Illegal, Unreported and Unregulated (IUU) fish landings are particularly acute in developing countries that possess meager patrolling and surveillance assets (SOFIA 2008, page 73; MRAG 2005; Mwikya 2006). The intent of this thesis is to look at global incentives such as illegal fishing penalties and monitoring control and surveillance (MCS) in chapters 1 to 3; while the goal of chapters 4 to 6 using a regional approach, is to get an accurate estimate of illegal and unreported fish catches in Indian exclusive economic zone (EEZ). 1 United Nations Convention on the Law of the Sea of 10 December 1982, UN Division for Ocean Affairs and the Law of the Sea, (http://www.un.org/Depts/los/convention_agreements/texts/unclos/UNCLOS-TOC.htm). 2Although the United Nations Convention on the Law of the Sea remains the overarching legal document governing optimum utilisation of global fish resources, subsequent fisheries laws like the UN Fish Stocks Agreement (FAO 1995a), UN Fisheries Compliance Agreement (FAO 1993), International Plan of Action (IPOA) to prevent, deter and eliminate IUU Fishing (FAO 2001) and the UN Agreement on Port State Measures (FAO 2009a) have all tried to plug the gaps in management of coastal, straddling and high seas fish stocks. Several of these instruments have important provisions to address IUU fishing through coastal states within their EEZ and through Regional Fishery Management Organizations (RFMOs) in the high seas. The declining state of global fish stocks2 (SOFIA 2009, 2010) and growing demand for fish (Pinstrup et al., 1997; Delgado et al., 2003, see also FAO 2004) necessitate measures to tackle this problem on a war footing more than ever. The fifty-ninth session of United Nation General Assembly (UNGA) attributes declining state of global fish stocks to four factors namely ?failure of States fully to implement and enforce the range of international fisheries instruments and related instruments; illegal, unregulated and unreported (IUU) fishing in 2 According to SOFIA (2008) three quarters of world?s fish stocks are fully exploited, overexploited or depleted and that calls for better management of fish stocks. 3violation of internationally agreed rules; overcapacity in international fishing fleets; and gaps in data and scientific knowledge to inform fisheries management decisions?3. In 2007, the impacts of excess fishing capacity and its implications through IUU fishing were also highlighted in the United Nations General Assembly Resolution 62/1774. The Twenty-seventh FAO-COFI session highlights the need for controlling IUU fishing through better port state control and improvement of Monitoring Control and Surveillance (MCS) measures through constant vigilance, cooperation and commitment to combat illegal fishing (FAO 2007a). In 2001, the Food and Agriculture Organisation of the United Nations had coined a new terminology of illegal, unreported and unregulated (IUU) fishing5 to define issues associated to the conditions of these problems. 3 United Nations General Assembly (UNGA) Resolution A/59/298, Fifty-ninth session, Report of the Secretary-General, Para 7, Review of main developments in areas covered by General Assembly resolution 58/14 from September 2003 to July 2004. 4 United Nations General Assembly, Sixty-second session, Resolution 62/177, Sustainable fisheries, including through the 1995 Agreement for the Implementation of the Provisions of the United Nations Convention on the Law of the Sea of 10 December 1982 relating to the Conservation and Management of Straddling Fish Stocks and Highly Migratory Fish Stocks, and related instruments, A/RES/62/177. 5 IPOA-IUU, International Plan of Action to prevent, deter and eliminate Illegal, Unreported and Unregulated Fishing, Food and Agriculture Organization (FAO), 24th Session of COFI, March 2, 2001. 41.2 Discussion of the definition of IUU fishing Throughout this thesis, when referring to a global definition of illegal fishing: Illegal fishing5 is defined as fishing (Paragraph 3.1 of IPOA-IUU Fishing): ?3.1.1 conducted by national or foreign vessels in waters under the jurisdiction of a State, without the permission of that State, or in contravention of its laws and regulations; 3.1.2 conducted by vessels flying the flag of States that are parties to a relevant regional fisheries management organization but operate in contravention of the conservation and management measures adopted by that organization and by which the States are bound, or relevant provisions of the applicable international law; or 3.1.3 in violation of national laws or international obligations, including those undertaken by cooperating States to a relevant regional fisheries management organization.? Unreported fishing is defined as fishing activities (Paragraph 3.2 of the IPOA-IUU Fishing): ?3.2.1 which have not been reported, or have been misreported, to the relevant national authority, in contravention of national laws and regulations; or 3.2.2 undertaken in the area of competence of a relevant regional fisheries management organization which have not been reported or have been misreported, in contravention of the reporting procedures of that organization. Unregulated fishing is defined as fishing (Paragraph 3.3 of the IPOA-IUU Fishing): ?3.3.1 in the area of application of a relevant regional fisheries management organization that are conducted by vessels without nationality, or by those flying the flag of a State not 5party to that organization, or by a fishing entity, in a manner that is not consistent with or contravenes the conservation and management measures of that organization; or 3.3.2 in areas or for fish stocks in relation to which there are no applicable conservation or management measures and where such fishing activities are conducted in a manner inconsistent with State responsibilities for the conservation of living marine resources under international law.? Although the FAO?s IPOA features some aspects of IUU fishing it does not go far and deep enough to cover many issues relevant to illegal, unreported and unregulated fish landings. The legalese of the UN ignores many nuances of these and related terms such as discards, which are legal, but not reported and unreported fishing is actually a category of illegal fishing, leading to considerable confusion. A brief description of these terms under the three categories of illegal, unreported and unregulated fish catches is given below in Figure 1.1. 6 Figure 1.1: Illegal and unreported (IUU) fishing patterns. The figure shows different components of IUU Fishing not covered under the conventional UN definition. Boxes in Yellow show different stages of fish landings from the fisheries grounds where fish are caught to the consumer. The fish landings data is mostly collected through electronic log reports at sea or catch reports submitted at ports, which in turn is processed by national governments and submitted to FAO each year. Boxes numbered 1 to 3 show various stages where the formal catch inspection scheme fails to assess illegal catches. The boxes numbered 4 to 10 show various categories of unreported catches, which are not assessed under the formal, catch inspection schemes in many countries. These categories are assessed in the fieldwork in India reported in Chapter 4, 5 and 6. 7A) Illegal catches6 also include transshipping catches contravening national and international regulations by landing them in foreign ports without the consent of national authorities; illegal transshipments from licensed vessels to foreign vessels at sea (Fegan 2003; Gillett and McCoy 2006; McCoy 2007; Gianni and Simpson 2005); fish caught through joint venture which should be landed in national ports but is landed elsewhere (Willoughby et al., 1997; Butcher 2004; Fegan 2003, 2005; Pramod 2010); misreporting or underreporting catches from licensed vessels to disguise quota violations (Fegan 2003; Pitcher et al., 2002; Nadeau 2007; Bremner et al., 2009; ICES 2010; Ohlen 2011; European Commission 2011a); illegal sale of recreational fish catches; illegal sale of food fishery catch to individuals / restaurants / food outlets (Gezelius 2004; e.g. New Zealand, Australia); catches from destructive fishing techniques (dynamite and cyanide fishing) which are sold along with catches from other commercial landings (e.g. Indonesia, Philippines); compressor diving for illegal fishing in Indonesian waters (Soeda and Djohani 1998; Erdmann 2001). B) Unreported catches include take home catch of small-scale fishers and crew of commercial fishing vessels (Pramod 2010); discards (Kelleher 2005); landings sold by fishermen directly to tourist resorts and restaurants (Pramod 2010); errors in weighing fish at landing centers (Willoughby et al., 1997; Pramod 2010); non-recording of fish sold through non-government markets (Willoughby et al., 1997); beach gleaning (Pramod 2010; Willoughby et al., 1997); trans-national landings where fish caught in one country?s EEZ and 6 Two categories of illegal and unreported catches discussed here (Chapter 1) from a global perspective. In chapters 4 to 6, which use a regional approach more detailed explanation of illegal and unreported catch categories is discussed in section 4.2, in the context of tropical fisheries in India. 8landed in another country as catch caught in the high seas (Pramod 2010; Willoughby et al., 1997; Butcher 2004); landings during glut periods (Pramod 2010; Willoughby et al., 1997). Declining landings of commercial fish species has also resulted in increased level of seafood mis-labeling where less expensive fish are sold as expensive species (Buck 2007; Garcia-Varquez et al., 2011; Wong and Hammer 2008). There is a good argument for using ?unreported? to cover ALL these categories. See Pitcher et al., (2002) for more discussion on these aspects. In this thesis a substantive discussion to justify many of these definitions is given in chapters 1, 4, 5 and 6. 1.3 Incentives to illegal and unreported fishing The UNGA Resolution A/RES/60/31 (Para 33, 2006) highlights the rising threats from IUU Fishing as ?one of the greatest threats to marine ecosystems [that] continues to have serious and major implications for the conservation and management of ocean resources.? Overfishing and declining state of world?s fish stocks (SOFIA 2008, 2010) coupled with range of incentives like low operational costs of IUU vessels (Hatcher 2004); corruption (Standing 2008; Tsamenyi and Hanich 2008); territorial disputes (Anwar 2006); higher revenues from IUU operations (Sumaila et al., 2006), subsidies (Beddington et al., 2007; Sumaila et al., 2008; Knigge and Thurston 2011), flags of convenience (Gianni and Simpson 2005), uncertain catch estimates (ICCAT 2010); weak governance (Mora et al., 2009; Agnew et al., 2009; Pitcher et al., (2008, 2009), inadequate port state control (Flothmann et al., 2010) and Monitoring Control and Surveillance (Schmidt 2005) have aggravated the suite of problems associated with IUU fishing. IUU fishing is widespread and also prevalent in the 9high seas (Anon 2008a) and regional fishery management organization (RFMO) jurisdictions where IUU catches appear to be on the rise (HSTF 2006; Agnew et al., 2009; ICIJ 2010). Even among many developed countries in the European Union that have access to good MCS resources, poor compliance and a low level of sanctions (European Commission 2008) have compromised the benefits expected from this investment in MCS. Commercialization of small-scale fisheries and the subsequent breakdown of social structure have contributed to an increase in use of illegal fish gear and boats in Indian waters (Pramod 2010). Globally, fisheries management efforts have largely been inadequate in spite of the declining catches (Mora et al., 2009; Pitcher et al., 2009). Progressive legislative instruments like the US Magnuson-Stevens Fishery Conservation and Management Reauthorization Act of 2006 and the more recent European Commission Council Regulation [(EC) No. 1005/2008] to prevent, deter and eliminate IUU fishing are steps in the right direction, but their implementation has been plagued by non-compliance in many domestic commercial fisheries in both continents (King and Sutinen 2009; European Commission 2008; Anon 2008b). Clearly, the prevalence of IUU fishing is not restricted to some countries. A recent study by Pitcher et al., (2008, 2009) has shown that 30 of the 53 top fishing countries perform poorly in controlling illegal fishing. Enforcement assumes importance here, as the sovereign rights to sustainably exploit a resource also require the means to effectively patrol it. In this regard Article 73 of the UNCLOS explicitly gives each coastal state ?sovereign rights to explore, exploit, conserve and manage the living resources in the exclusive economic zone, take such measures, 10including boarding, inspection, arrest and judicial proceedings, as may be necessary to ensure compliance with the laws and regulations adopted by it in conformity with this Convention?. However, the growing fleet capacity (Anon 2005a; Pauly et al., 2002) and technological sophistication of global fleets to operate beyond the EEZ, means that coastal states should be prepared to ensure compliance from domestic fleets while confronting incursions of illegal foreign fishing vessels violating the 200 nm EEZ. In circumstances, where the coastal state wishes to license foreign fishing vessels to fish surplus stocks in its EEZ, such agreements should require adequate MCS assets to get long term economic benefits and optimum long term harvest of the resource. Such measures have been stated in Paragraph 4 of Article 62 in UNCLOS which requires coastal states authorizing fishing by foreign fleets to ?determining the species which may be caught, and fixing quotas of catch, whether in relation to particular stocks or groups of stocks or catch per vessel over a period of time or to the catch by nationals of any State during a specified period; regulating seasons and areas of fishing, the types, sizes and amount of gear, and the types, sizes and number of fishing vessels that may be used?. Growing demand for fish in emerging economies such as China has also caused a spike in the use of destructive fishing techniques. For example growing demand for live reef fish in Hong Kong, China and Taiwan has caused an increase in use of destructive fishing in Philippines and Indonesia (Cesar et al., 2000; OECD 2004). The mobile nature of the distant water fleets also warrants attention as both licensed and illegal vessels can deplete a resource and move at a much faster pace to new fishing locations (Berkes et al., 2006; Bentley 1999; Johannes and Riepen 1995). In Indonesia, early intervention to protect marine habitats from destructive 11fishing has been shown to be more cost-effective than trying to rehabilitate damaged habitats after blast fishing (Haisfield et al., 2010). The scale of illegal catches from larger IUU vessels (>50 GT) operating in the EEZ [41,000 tonnes of fish are trafficked in Yemen every year (Anon 2009a)] and high seas [10,000 tonnes of groundfish were illegally caught in the North Atlantic Fisheries Organisation (NAFO) convention area in 2001 (OECD 2003)] are difficult to control due to the large jurisdictions covered by these fleets and the changing nature of fishing operations (Chapter 3 of this Thesis). In the Philippines, Chinese poachers are often apprehended and released later due to diplomatic pressure or pardon from government authorities (Anon 2010b). In a nine year period (1998-2007) close to 600 Chinese poachers were apprehended and released in Philippines with only one conviction in 2005 (Anon 2006, 2007a; Anon 2008c). As aptly stated by one government official in Philippines ?Demand is only once side of the coin, illegal fishing by locals was triggered by government inaction. Until the mid-nineties most of reef fish caught in our waters was only marketed in local markets. In my regency, we started encountering more Chinese boats stealing reef fish from our waters. In the initial period (1990-2001) the government stated lack of patrolling resources and from 2002 onwards they caught and often released the Chinese poachers, citing diplomatic pressure. Nowadays, I would say that more illegal boats frequent our waters and land it as their own in Hong Kong markets. Government inaction has emboldened Chinese poachers and we are the one to suffer? (Anon, pers. comm. 2007; Anon 2007b). As the above case in Philippines illustrates, weak government stewardship triggers a cyclic process of localized illegal fishing as disgruntled fishers unhappy with local governance and government, drive faster depletion of 12the resource, leading to long term economic losses for both fishers and the government. The economic incentives to fish illegally are discussed in Chapter 2 of this thesis. A more rigorous account of economic incentives is provided in (Charles et al., 1999; Sumaila et al., 2006). 1.4 Thesis structure Chapter One highlights some of the existing problems with control on illegal fishing. The chapter looks at major incentives to illegal and unreported fishing in coastal waters, high seas and RFMO jurisdictions. A brief background of the IUU fishing is provided, followed by a review of legislative instruments to deal with the problem. Among the incentives identified for IUU fishing two major aspects a) IUU Penalties and b) Monitoring Control and Surveillance in Fisheries were selected for detailed analysis in the Thesis. Chapter Two reviews the economic incentives for illegal fishers, through risks and costs associated with engaging in IUU fishing. Data on IUU Fishing Penalties for 109 countries during 1980-2009 were analyzed using 1211 IUU prosecution cases. Chapter Three reviews the status of Monitoring Control and Surveillance using a questionnaire approach. 41 countries landing 87% of world?s fish catches were evaluated for the study using the technique of Pitcher (1999). A detailed analysis of eleven questions namely 1) Surveillance infrastructure, 2) MCS Human Resources, 3) High seas fleet management, 4) Vessel Monitoring System coverage, 5) Observer coverage, 6) Inspections at Sea, 7) Aerial patrols, 8) Dockside monitoring, 9) Coastal patrols, 10) Monitoring of 13Transhipments and 11) Fishing gear inspections was conducted to explore MCS capabilities in world`s fisheries. This is perhaps the first attempt to quantify management effectiveness of MCS resources in the fisheries sector. Chapter Four provides a detailed estimation of illegal catches in India`s Exclusive Economic Zone using 203 confidential interviews from a visit to India in 2008, while Chapter Five provides a detailed estimation of unreported fish catches from small-scale fisheries, subsistence catches, discards and take home catches. Chapter Six looks at illegal and unreported catches from remote offshore island territories of India in Andaman and Nicobar islands. Chapter Seven synthesises the results of the thesis and looks into the adequacy of measures to control IUU fishing globally and identifies gaps in existing management framework. The chapter recommends adoption and strict implementation of national and international laws to prevent, deter and eliminate illegal fishing. 1.5 Chapter 1 summary Chapter 1 of the dissertation reviews the incentives and disincentives to illegal and unreported fishing worldwide. In addition, the chapter provides a preview of aspects such as illegal laundering of catches at sea, which are not covered under the current definition of IUU fishing (FAO 2001). The context for the thesis was set by; (1) showing different stages at which IUU landings can occur in marine fisheries, from the point when the fish is first caught at sea to the point until it reaches the end customer; (2) exploring different categories of 14unreported catches in tropical and temperate fisheries which need attention for better reporting of fish catches to United Nations Food and Agriculture Organization. Several incentives (such as subsidies, corruption, overcapacity etc.) and disincentives (better laws and adequate MCS infrastructure) to curtail illegal and unreported fishing are also discussed. Chapter 1 also introduces the other chapters in the thesis. 15Chapter 2: The global illegal fishing penalty regime: why efforts to control illegal fishing are not working? 2.1 Introduction Illegal fishing, for long, has been recognized as a major problem afflicting sustainable utilization and management of global fish stocks (Agnew et al., 2009). Illegal fishing is conducted by domestic and foreign vessels that contravene national and international obligations of the state while fishing within their EEZ and the high seas (FAO 2001). This chapter explores the economic incentives for illegal fishers, through risks, costs associated with poaching, avoidance and apprehension. It also explores whether illegal fishers take monetary costs and benefits into account while engaging in illegal fishing (Sumaila et al., 2006). Data from GIUFI (2010) database with information from more than 1000 illegal fishing incidents (from time of occurrence to final prosecution in the courts) was used for assessment of the adequacy of IUU penalties in 109 countries. Illegal, fishing occurs both within the exclusive economic zone (EEZ) and on the high seas when activities are not adequately monitored and regulated under State laws. Illegal catches also undermine management and conservation of fish stocks by depleting the resource and decreasing the catch allocated to licensed fishers (Agnew et al., 2009; Pitcher et al., 2002). Illegal catches can come from a wide array of areas like unreported transshipments at sea, under or misreported catches, fish from closed areas, etc. (Pitcher et al., 2002), with their extractions varying from year to year, by fishery and jurisdiction (Agnew et al., 2009; GIUFI 2010). Illegal catches also affect stock assessments as reported catch and effort data often 16used in absence of such data result in distortions of available catches (Pauly et al., 2002; Patterson 1998; Bremner et al., 2009). The illegal fishing problem has been receiving more attention in recent decades since the coming into effect of UNCLOS7, and several international instruments like FAO?s International Plan of Action (IPOA)8, FAO Compliance Agreement9, UN Fish Stocks Agreement10 and the more recent FAO Agreement on Port State Measures to Prevent, Deter and Eliminate Illegal, Unreported and Unregulated Fishing11 emphasizing the need to regulate activities of fishing vessels both within and outside the EEZ. The problem needs 7 United Nations Convention on the Law of the Sea, Montego Bay, 10 December, 1982. 8 FAO International Plan of Action to prevent, deter and eliminate illegal, unreported and unregulated fishing, Rome, FAO. 2001. 24p. 9 Agreement for the Implementation of the Provisions of the United Nations Convention on the Law of the Sea relating to the Conservation and Management of Straddling Fish Stocks and Highly Migratory Fish Stocks. New York, 4 December, 1995. 10 The United Nations Agreement for the Implementation of the Provisions of the United Nations Convention on the Law of the Sea of 10 December 1982 relating to the Conservation and Management of Straddling Fish Stocks and Highly Migratory Fish Stocks (in force as from 11 December 2001). 11 Agreement on Port State Measures to Prevent, Deter and Eliminate Illegal, Unreported and Unregulated Fishing, FAO, November 22, 2009. 17due attention as new forms of corporate (AAD 2003; Griggs and Lugten 2007) and organized crime (Gastrow 2001; Putt and Anderson 2007; Le Gallic and Cox 2006) have made their way into illegal fishing activities. Penalties for illegal fishing differ by country, region, value of the resource targeted, national and international regulations signed by the country and more importantly by the penalty levied on illegal fishing activity (GIUFI 2010). Even within political entities / countries having a common fisheries policy like the European Union, wide variations in penalty have been observed. The average penalty for breach of fishing laws in Finland in 2001 was only EUR 84, while a similar offence attracted a penalty of EUR 12,700 in Ireland. Further, Ireland imposed an average fine of EUR 7470 for 32 cases in 2001, while France imposed average fines of EUR 2483 for 35 cases, and with Spain imposing even lower penalties at an average of EUR 928 for 2803 cases during the same period (Siggins 2003). These discrepancies in penalties are sufficiently large to suggest a case for harmonization of monetary penalties at least within the European Union (Sloley 2008). Variations in the legal penalties for similar crimes are known to be culture dependent, and derive from events and trends in the history of different peoples (Nunn 2009), but differing penalties for illegal fishing are unhelpful in an increasingly globalized seafood market (Berkes et al., 2006). Wide variations in penalty by fishery, country, jurisdiction (See Appendix A for variations in penalty by fisheries in each country) and management areas provide financial incentives for illegal fishers and distant water fleets to target operations in such regions. Hence, results from the present study will throw light on the effectiveness of penalties to deter illegal fishing. 182.2 Methods Becker (1968) developed the first economic model to predict incentives for people to engage in a criminal activity. Subsequent works by other scientists assert that criminals engage in an illegal activity if the expected profits from that activity exceed profits that can be made from a legal activity (Stiegler 1971; Sutinen and Anderson 1985; Milliman 1986; Vincent and Ali 1997; Kirkwood and Agnew 2004). This argument that financial incentives are the main drivers of illegal fishing activity propelled the emergence of deterrence models (Kuperan et al, 1998; Charles et al., 1999). Recent work in this field has also looked at moral, institutional and social drivers that compel individuals to engage in illegal activity (Sutinen et al., 1999; Tyler 1990; Stiegler 1971). The model developed by Sumaila et al., (2006) considers five drivers of IUU fishing a) benefits from engaging in illegal activity; b) likelihood of detection; c) penalty faced by fisher when caught; d) cost to the fisher while engaged in such an activity; and e) the degree of moral and social standing of a fisher in the society. The conceptual model developed in the current Chapter follows the assumptions of Sumaila et al., (2006) as it appears to be holistic taking into consideration all the economic, social and moral drivers that explicitly motivate an individual to engage in IUU activity. (See Sumaila et al., (2006) for more information on the formal model). 2.3 Benefits from illegal fishing activity According to Le Gallic (2008) two major drivers of illegal fishing activity are overcapacity of the world?s fishing fleets, which provide incentives for vessel operators to move their operations to distant waters to reduce operational and labour costs. The second driver is the weakness of international legal frameworks, which allows the continuance of flags of 19convenience fishing practices (Le Gallic 2008). Globalization of the fishing industry and increasing range of the distant water fleets also aggravate problems associated with illegal fishing (Berkes et al., 2006). Institutional drivers such as weak monitoring, control and surveillance (MCS) and low penalties can also drive these activities (See Chapters 2 and 3). Poor MCS coupled with low penalties can reduce the risks faced by IUU operators (Le Gallic 2008), while subsidies (Thurston 2010) can transfer excess capacity to foreign country EEZs, where monitoring is poor. The current model (in this chapter) assumes that the ability to make profit from an illegal fishing is one of the main incentives for an individual to engage in illegal activity. According to Sumaila et al., (2006), there are three possible scenarios under which an individual would want to engage in illegal fishing activity. First, if a fisher is making profit from legal activity, then the probability of him engaging in cheating is low, however, if the fisher?s income is declining from legal activity and if he/she can generate profit from illegal activity the probability of cheating will increase. Second, if the fisher is making profit from a licensed activity the incentives to engage in illegal activity are low. The third category of fishers would include fishers who make profit from legal activity but still engage in illegal activity to increase their profits. Other factors that might influence an individual?s decision to engage in illegal activity include catches, CPUE, price and cost of fishing (Kirkwood and Agnew 2004; Sumaila et al., 2006). 202.4 Expected penalty drivers 2.4.1 Detection likelihood driver When the probability of getting apprehended is higher, there are fewer incentives for a fisher to cheat. Among others, this driver is influenced by three factors namely (a) capabilities of MCS agencies; (b) social acceptance of violations in fishers community; (c) awareness of regulations; (d) level of funding and involvement of non- governmental organizations in detecting infringements (Sumaila et al., 2006; Nielsen and Mathiesen 2001). In Quebec, fisheries violations were found to be most sensitive to changes in likelihood of detection, with increase in fines producing greater deterrence (Furlong 1991). Compliant fishers can also engage in opportunistic illegal fishing if the probability of detection is low (Nielsen and Mathiesen 2001). 2.4.2 Avoidance driver A fisher engaged in illegal activity will take certain measures to avoid being noticed by enforcement agencies (such as engaging in activity at night or at times of the day when patrolling is less (Anderson (1989); Crawford et al., (2004); Anon, pers. comm. (2007), illegal transshipment of catch (Anon 2005c; Heazle and Butcher 2007), choosing locations less frequented by enforcement officers (Salmon poachers in British Columbia, Canada (Anon, pers. comm. 2008), which are all referred to as avoidance activity (GIUFI 2010). 2.4.3 Penalty driver Severity of penalty is also one of the important drivers, which motivates or discourages an individual to cheat. The more the penalty, the less would be the likelihood of cheating. This driver is linked to the detection driver, as absence of enforcement negates the severity of a strong penalty. For example, in Philippines and Tanzania, minimal penalties in the coastal 21reef fishery meant that there are more repeat offenders as fishers get away with a nominal fine in most cases (GIUFI 2010; Anon 2009c). Penalties can range from (i) amount of the fine; (ii) confiscation of catch; (iii) confiscation of gear and other fishing equipment; (iv) cancellation of license for a temporary period; (v) exclusion from the fishery for the rest of the fishing season; (vi) exclusion of repeat offenders from fishery with restrictions on access to fishing grounds; (vii) putting vessel captain and owners into jail. In the Australian state of Victoria, first time offenders are given a Penalty Infringement Notice (PIN), with repeat offenders penalized through seizure of catch, imprisonment and more serious offences processed through courts. In Western Australia, fisheries regulations allow mandatory penalties of 10 times the value of catch for protected species like abalone and rock lobsters, with serious cases warranting cancellation of fishing licenses (Western Australia Department of Fisheries 2008). In the US Northeast groundfish fishery, deterrence effect of enforcement was weak as benefits from violating fishing regulations were nearly 5 times the economic value of penalties (King and Sutinen 2010). South Africa has brought in new racketeering laws (leader of an abalone smuggling syndicate was sentenced to 10 years), which allow long jail terms to deter new individuals from participating in such activities (Anon 2004a). 2.4.4 Moral and social drivers Some recent studies on small-scale and artisanal fisheries have also shown that an individual?s behavior is strongly influenced by community (Hatcher et al., 2000). These kinds of drivers need special attention in developing countries where small-scale fisher?s land the bulk of catches and where examination of compliance issues needs examination of both 22fisher and the community. Breach of fisheries regulations would depend on three levels of violators (i) chronic violators; (ii) moderate violators; and (iii) non-violators (Kuperan and Sutinen 1998). Among these three categories of fishers, chronic violators engage in illegal activities under any set of circumstances while moderate violators will only contravene regulations if the potential for profit exceeds penalty and probability of being caught (Sumaila et al., 2006). Secondary triggers that affect the decision of a fisher to engage in illegal fishing include the perceived legitimacy of regulations, and the general moral code of fishers and their communities (Kuperan and Sutinen 1998; Tyler 1990; Sutinen et al., 1990; Keane et al., 2008). 2.5 Formal penalty model Using the conceptual framework discussed in Sumaila et al., (2006), a global penalty model with far more detailed estimates of penalty by country, fishery, fleets and location was developed using incidents from GIUFI (2010) database. Some of the assumptions made in the model developed by Sumaila et al., (2006) are reflected below. The model assumes that a fisher will try to maximize economic gains from the illegal activity, with his actions moderated by moral and social pressure. In cases when a fisher is engaged in an illegal activity with no regulation, he exhibits less avoidance as the probability of being caught and expected penalty are close to zero. An IUU fisher will choose the illegal activity such that marginal revenue from the activity equates sum of marginal cost of fishing together with the marginal cost of moral and social factors associated with that activity. In scenarios where a fisher partakes in an illegal activity in the presence of enforcement, the fisher will choose the 23level of activity such that marginal revenue is equal to or greater than sum of marginal cost, and a potential marginal fine when he is caught while engaged in illegal fishing. 2.6 Risks in illegal activity (costs and benefits) Appendix A is a visual representation of the model in Sumaila et al., (2006), excluding moral and social components as these drivers are poorly reflected in the data given by enforcement authorities for prosecutions and penalties. Implicit assumptions were also made in the model that avoidance activity of vessel will be incorporated in the vessel?s variable cost (See Appendix A), and the benefit from such activity is to reduce MCS effectiveness (reduce ???) of the vessel. Appendix A lists vessels that have been arrested while fishing illegally in EEZs of 109 countries and their offshore island territories. First entry in the table (page 232) shows vessels arrested by Country (Canada), number of vessels detained (2), its illegal catch (1.7 tonnes), its estimated market value (691) in USD, and its fine in (14614) USD during that year. The ?fine? column uses information from the original data. In most cases information for both ?catch? and ?fine? was available in the source (GIUFI 2010) 2.7 Components of penalty table The various components of the penalty table (Appendix A) are given below and were modified from Sumaila et al., 2006.12 12 Calculations for all the variables (in italics) in Appendix A follow the method described in Sumaila et al., (2006). When more detailed changes or different method was followed this is described, since the IUU incidents in Sumaila et al., (2006) used 16 IUU cases where as the current study uses more than 1000 IUU fishing incidents from EEZs of 109 countries and overseas island territories in the GIUFI (2010) database. Incidents 242.7.1 Arresting country Country arresting the illegal vessel within its EEZ (e.g. Canadian Coast Guard vessel apprehending a fishing vessel 23 nautical miles within its exclusive economic zone (EEZ) for fishing illegally contravening its national laws. All the incidents mentioned in this chapter (Appendix A) are for fishing vessels arrested within the country?s EEZ. 2.7.2 Vessel/ gear The vessel implicated in the illegal activity (trawler, longliner, purse seiner, dragger, squid jigger, fishing boats, catamaran, gillnetter, crabber, sport fishing vessel, refrigerated cargo ship, fish carrier, etc.). In the case of certain fisheries such as abalone and shellfish, fishing gear (e.g. Dive Gear) was used in the column instead of fishing vessel. 2.7.3 Illegal catch / fishery This column represents the total illegal catch confiscated for the specific illegal / unreported fishing incident. A generic category of ?Finfishes nei? was used when a detailed breakdown of species is not available OR when the illegal catch comprised of several species of fish and invertebrates. In cases, where specific species comprised the illegal catch in its entirety, its details were given (e.g. Salmon, Atlantic Cod, Anchovies etc.). 2.7.4 Number of vessels This column contains the number of illegal fishing vessels implicated in the illegal activity. derived from GIUFI used multiple sources for each IUU incident tracking illegal fishing cases from time of arrest to the period or fine to jail time thereby increasing the reliability of the information. 252.7.5 Catch This column contains the illegal / unreported catch for one or more illegal vessels in each incident. Weights for all the species in the illegal catch were converted into ?tonnes? in this column (e.g. pounds, kilograms, etc. were converted into tonnes). 2.7.6 Catch value In the ?catch value? column, value of the illegal catch was calculated using information provided in the original source and other sources mentioned below. The catch value was converted from the respective country?s currency into United States Dollars (USD $) for that year using World Bank exchange rates. In cases where the value was mentioned (in USD) in the incident, it was used as a direct source of catch value instead of the exchange price for that year. It is pertinent to note that for most of the incidents in the GIUFI database catch value in U.S. dollars ($) was mentioned, as each incident in the GIUFI database has information from several sources (tracking information from time of arrest, value displayed in court cases, auction value of illegal catch, international market price for the illegal catch, species etc.). In specific cases, where the illegal catch (e.g. Ribbon fish sold within country (India) or regional markets (when it is exported to China), price of the IUU catch from regional markets was used. Fish prices in national or regional markets (e.g. North America, Asia, Europe, etc.) were only used when price of the species was not available in international markets). In cases, where the IUU catch has international market price, like for tuna, sharks, lobster, abalone etc. the international market price was always used for assessing the value of illegal catch. 26In cases where catch was comprised of mixed species, price of illegal catch was calculated using average fish price of all species that can be caught within the EEZ. This was necessary as it was not possible to predict with certainty whether illegal catch on the vessel came from one fishing area or a broader EEZ / High Seas area. In some cases, when illegal catch by different species or common name were available for the total illegal catch, value of each species was calculated separately and then added to the value of other illegally caught species to derive the value of total IUU catch. (e.g., 220 tonnes Bluefin tuna, 12 tonnes Skipjack tuna, 2 tonnes Swordfish (total IUU catch: 236 tonnes). In cases, where the value of the illegal catch was not available for that country?s EEZ, the value of similar species in neighboring EEZ?s or value of the catch during that year in an importing country was used (e.g., tropical lobsters in Brazil imported by USA). In cases, where illegal fishing vessels were arrested for minor violations such as use of illegal gear or illegal fishing for certain duration in a closed area, average catch of the vessel / day / fishery for that year was used to calculate a more accurate estimate of illegal catch onboard. (e.g., an Alaskan Pollack fishing vessel fishing for 2 days in a closed area, average catch of vessel / day / season for that fishery during that year was used to calculate illegal catch for the 2 day period, with information of flag, tonnage and average catch by vessel in that fishery derived from GIUFI database). In situations when illegal catch was mentioned in number (e.g., 21 lobsters), average weight of the specific species was used to calculate total weight of the illegal catch. In some cases, where illegal catch was mentioned in quantity of body parts (e.g., 100 tonnes shark fins), the average weight of shark fins was assumed to be 2% of total body weight (IUCN 2003). In cases, where illegal catch was mentioned as confiscation of 27catch from fishing gear (e.g., catch from 50 lobster traps), average catch of lobster traps during that period (by fishery and country) was used to calculate the total illegal catch. In the ?fine? column when the penalty was given as jail term to crew members, average income per month of all crew members was used to calculate equivalent monetary value for the fine (e.g., captain jailed for 2 years, 15 crew members jailed for 1 year, then monthly wage of skipper and crew members by their nationality were multiplied with the duration of the jail term to calculate total fine in USD). In cases where the value of the ?fine? column was given in national currency, it was converted into USD using computed data at (http://www.st.nmfs.gov/commercial/landings/gc_runc.html) for global fish prices. In most cases the value of catch was provided in prosecution reports and information dossiers of documents. In cases where only the quantity of illegal catch was available, the value of catch was calculated using prices in GIUFI (2010), and the Global Fish Prices Database (Sumaila et al., 2007). Information from Lery et al., (1999); GIUFI (2010) was used to calculate variable cost of fishing (as percentage of landed value). The formal model used in this analysis is described in Sumaila et al., (2006). 2.7.7 Expected revenue Expected revenue = ?*0 + (1- ?)*catch value. This captures the revenue to the country when apprehended catch from illegal fishing activity is usually confiscated. This value is given in USD ($). 282.7.8 Variable cost Variable costs are the cost of operating the illegal vessel as distinct from the fixed costs of acquiring it. Variable costs were derived from NOAA (1993); Lam et al., (2010) and information derived from GIUFI (2010) database in specific cases where more information was available. 2.7.9 Theta (?) value Data in ??? column denotes the probability of detection of an illegal fishing vessel in the relevant jurisdiction, and is used for calculating cost and benefits of the risk involved while engaged in IUU fishing13. Although there is scarcely any actual data to calculate value for ??? column, Sumaila et al., (2006) state that it would be reasonable to say that the probability of detection value would be below 0.2 with a 1 in 5 chances of being detected. Consultations were also conducted with 14 maritime experts familiar with fisheries and monitoring control and surveillance capabilities in respective countries to adjust the ??? values accordingly. Most experts consulted agreed that an average ??? value of 0.1 is likely to be applicable to most fisheries in world?s EEZs. This issue is further discussed below. 2.7.9.1 Calculation of ??? value in the current work In the current work, 0.1 was used as a conservative value for probability of detection, but in cases where data suggested higher chances of being apprehended, a higher value in the range of 0.2 to 0.3 was used (GIUFI 2010; See Chapter 3 for more information). For example, abalone poachers in Australia (? = 0.3) have higher chances of detection compared to fishers 13 It is pertinent to note here that for the current economic analysis of penalties information only from illegal and unreported fishing incidents in the GIUFI (2010) database were used. 29in other commercial fisheries, as enforcement and monitoring are far better in this sector. Other fisheries with higher probability of detection include squid fisheries in the Argentine EEZ, which would have a ??? value of 0.2 compared to hake fisheries which would have a lower ??? value within the same EEZ (GIUFI 2010). ??? value also signifies the probability of being detected, arrested and convicted for illegal fishing activity in each incident. In each country for the two time periods of 1980-1994, and 1995-2009, for each specific fisheries such as abalone, scallops, crabs, Finfishes nei, etc., the level of fisheries enforcement was checked to get ??? values. Drivers of low or high ??? values included patrolling effort in relation to EEZ area, MCS infrastructure (See chapter 3), number of illegal fishing prosecutions, fisheries patrols at sea, aerial patrols, dockside patrols, market inspections etc. Then accordingly values of 0.1 or less, or a higher value of 0.2, were given for specific fisheries in each EEZ. These ??? values were then adjusted after consultations with maritime experts familiar with fisheries management and enforcement in these countries. Most maritime experts suggested that the ??? value might not exceed 0.2 in global marine fisheries, with the exception of very few well patrolled jurisdictions, due to the fact that efficiency of patrolling relies on availability of good modern technology such as adequate government budgets, coastal radars, vessel monitoring systems, good surveillance infrastructure, level of resources allocated to fisheries management in domestic (provincial fisheries) and federally managed fisheries etc. Further, the experts stated that the time allocated for fisheries patrolling which is often perceived as a non-traditional threat, in relation to other threats such as maritime security, smuggling and drug peddling etc. also influence low ??? values in many fisheries. Likelihood of being caught also differs for both 30domestic and offshore fisheries within a same EEZ. For example, in the case of salmon fisheries in the west coast of Canada, patrolling might be relatively good in the Pacific Ocean, but the low likelihood of being caught and extent of poaching in coastal waters, recreational and subsistence fisheries in rivers etc. would drive the ??? value down. To elaborate on this discussion, I will now use Figure 4.3 in Chapter 4 as an example to explain how the ??? value might vary between different time periods from 1980-2009 (see page 112), in India?s marine fisheries. During 1980s, the Indian Coast Guard had only 1 patrol aircraft, 2 frigates stationed in Mumbai, 2 patrol boats in Chennai, and 3 patrol boats in Andaman Islands (Anon pers comm., 2008); This patrolling infrastructure, which was grossly inadequate in relation to the area of EEZ that needs to be patrolled for illegal fishing by foreign vessels. So, during the 1970-1980 time period, the ??? value would be 0.05. In the next decade, in relation to the relative increase in MCS infrastructure, fisheries inspections, number of patrols, etc. ??? value increased to 0.07 in 1990s, and 0.1 in the 2000-2009 time periods. Hence, for the current analysis, a theta value of 0.1 is used for Indian fisheries for the 1995-2009 time period (See Appendix A: Cost benefit analysis of illegal fishing penalties). The above ??? value was finally used after consultations with maritime experts, and using additional data such as the 2008 IUU interviews with enforcement personnel and fishers which served as leverage to adjust the ??? value to 0.1 in India?s fisheries. In the case of India, although the patrolling by Coast Guard has relatively improved in recent decades, poor compliance and fisheries enforcement in state managed fisheries within 0-12 nautical miles also drives the ??? value to 0.1 or less. 31The value of ??? would also be influenced by the number of fishing vessels, with countries like India and China that operate large fishing fleets having a lower ??? value as the probability of being searched by patrolling agencies becomes less for most fisheries in these countries. Using these variables, an analysis was done to explore the question of whether potential benefits of engaging in IUU fishing will be greater than potential costs when the ??? value is between 0.05 - 0.3, using value of fine, catches and variable costs of fishing. A second question explored in this analysis was what fines should have been imposed on each of the cases in Appendix A to make costs equivalent to benefits for risk aspects of an MCS activity when the probability of detection ??? value lies between 0.05 to 0.3. 2.7.10 Fine Fine is the financial penalty imposed by the country for the illegal fishing activity in USD ($). In cases where information of ?fine? was available but information for ?catch? was inconclusive or absent, ?illegal catch? from vessels of similar flag and tonnage caught for illegally fishing within same region (e.g. fishing ground, EEZ) and time period were used to estimate the illegal catch of the vessel (In such cases a conservative estimate of catch was drawn from other illegal fishing incidents). For example, if the illegal fishing vessel was from Spain caught for illegally fishing in Canadian EEZ, information on catch confiscated from 2-10 Spanish vessels arrested in this jurisdiction for illegal fishing in that respective year was taken and average catch for the 10 incidents was taken to arrive at an estimate of illegal catch for one Spanish IUU vessel. Similarly if the vessel was penalized for fishing in a closed area using aerial surveillance or VMS signals, the illegal catch of the vessel for the presumed period, i.e. couple of hours to 1-2 days was estimated to get conservative estimate of value of the illegal catch. 322.7.11 Expected penalty It is the product of the probability of detection (in this study, value ranged from 0.05 - 0.3) and the fine imposed. Its value is given in USD ($). 2.7.12 Total cost The sum of variable cost and expected penalty expressed in USD ($). 2.7.13 Total cost / Expected revenue It is the ratio of the potential total cost of illegal fishing to the potential value of engaging in illegal fishing. A value of 1 and above implies engaging in the illegal activity is not a profitable proposition. 2.7.14 New fine The number of times the reported fines need to be multiplied by in order to make the potential gain equal to potential cost of engaging in illegal fishing when ??? = 0.05, 0.1, 0.2 or 0.3. 2.8 Results Globally, calculations for 109 countries using 1211 Illegal and Unreported (IUU) penalty cases show that on average for the 1980-2009 period (Figure 2.1) the ratio of potential costs to expected revenue was less than 1, i.e. 70-100% profitability14 for IUU operators (shaded 14 See Total Cost / Expected Revenue column in Appendix A for more information. Figure 2.1 is a visual representation of the Total Cost/ Expected Revenue value, and it looked at number of times the value was less than 1 (in the Total Cost/ Expected Revenue column) for IUU Penalty cases. For example in 1980-2009 period for the country Canada, the value of Total cost / Expected revenue was less than 1 for 54 out of 90 cases, which shows that it was 60% profitable for IUU operations, alluding to moderately adequate penalties for commercial 33in red) in 34 countries (Russia, Brazil, China, South Korea, Philippines, Trinidad and Tobago, Vietnam, Myanmar, Sri Lanka, Egypt, Palau, Vanuatu, Fiji, Kiribati, Micronesia, Cook Islands, Tuvalu, New Caledonia, Solomon Islands, Mexico, Ireland, Spain, Bulgaria, Ukraine, Georgia, Morocco, Gambia, Ghana, Mozambique, Sierra Leone, Falkland Islands, South Georgia, Heard and McDonald Islands and Chagos Islands), while it was 40-70% profitable to engage in illegal fishing in the EEZs of 19 countries (Canada, USA, UK, France, Norway, New Zealand, India, Indonesia, Marianas Islands (US Overseas Island territory), Papua New Guinea, American Samoa, Peru, Nicaragua, Bahamas, Angola, Namibia, South Africa, Somalia and Kerguelen Islands). Six countries: Australia, Argentina, Japan, Malaysia, Seychelles, Guinea Bissau, and one British Crown dependency (Isle of Man) had consistently high penalties and are heading in the right direction with less than 40% profitability making it uneconomical for vessels to engage in illegal fishing. Figure 2.2 (reciprocal plot) shows that although the median values of Total cost / Expected revenue for more than half of the countries in the analysis lie below 1, the ranges suggest that poachers may still make a profit even in countries with a relatively low index score. Appendix F shows the actual median values of total cost / expected revenue used in this plot. fisheries in this country. The ratio of potential costs to the expected revenue is high when the value is below 1 (i.e it is profitable for the IUU operator), and it is uneconomical for an IUU vessel when the Total cost / Expected revenue value is greater than or equal to 1. 34 Figure 2.1: IUU penalties in 109 countries. IUU fishing penalties in 109 countries and offshore island territories between 1980-2009 (See values for Total Cost / Expected Revenue column in Appendix A ? Cost benefit analysis of illegal fishing penalties table for 1211 cases). Red colour shows that it was 70-100 % profitable for IUU operators. Orange colour shows that it was 40-70% profitable for IUU operators in these countries EEZs, while green shows that existing penalties are profitable for less than 40% of IUU operations. Grey colour denotes that more information is needed for penalties in these countries before arriving at any conclusion. White colour denotes the countries had no data or that were not covered in the current analysis. Please refer to Appendix A for more information, as many penalty cases in island countries in Atlantic, Indian and Pacific Ocean are not obvious in the map. The results from the analysis in Figure 2.1 clearly show that countries shaded in red are more profitable for IUU vessel operators, as potential benefits of illegal operations are more in these countries even if they are caught. No concrete conclusions can be arrived for IUU penalty deterrence in 49 countries (data is available for less than or equal to 3 IUU penalty 35incidents per country ? shaded in grey colour in Figure 2.1)15 and more information is needed for IUU prosecution cases in these countries (Sweden, Maldives, Malta, Croatia, Tunisia, Eritrea, Congo, Nigeria, Tanzania, Equatorial Guinea, Cameroon, Liberia, Mauritania, Sudan, Yemen, Qatar, Bahrain, Madagascar, Bangladesh, Cambodia, Latvia, Cuba, Jamaica, Ecuador, Guyana, Costa Rica, Guatemala, Panama, El Salvador, Belize, St. Vincent Islands, Comoros Islands, Greenland, Tonga, French Polynesia, Niue, Tromelin Island (France Overseas Territory), Howland and Baker Islands (United States Minor Outlying Islands), Guam (United States Island Territory), St. Paul Island (French Southern Antarctic Territories), British Virgin islands (Offshore British Island Territory), Channel Islands (British Crown Dependencies), Marshall Islands, Nauru, Crozet islands (French Southern Antarctic Territories), Shetland Islands (Offshore British Island Territory), Madeira islands (Portugal Offshore Island Territory), Azores (Portugal Offshore Island Territory), and Clipperton Island (France Overseas Territory)). Every effort was made to contact relevant ministries and national enforcement agencies to get best available information on IUU cases and the present attempt would achieve more success if more countries come forward to share such information. 15 In Appendix A, IUU penalty incidents have been split under two 15 year blocks from 1980-1994 and 1995-2009, due to the fact that significant improvements have been made in MCS during these two periods and ??? value has increased between the two periods, for many commercial fisheries. So, results from Figure 2.1 give a holistic view of the IUU penalty regime from 1980-2009, as data is scarce for many developing countries in the first time period during 1980-1994. More detailed analysis by decade is possible when more data sources become available in future. 36It is pertinent to mention that more information on penalties is needed, as IUU case dossiers on penalties are not easily accessible in many countries. Several hurdles to accessing such information remain due to out of court settlements, reasons of confidentiality or prolonged judicial process. For example, in the case of Japan, information on penalties was not publicly available as ?When Agency of Fisheries (AFJ) or Japanese Coast Guard (JCG) arrest illegal fishing vessels, they ask for deposit money to release these vessels. Then, AFJ or coastal guard releases the vessel and takes legal proceedings. For most cases, these vessel owners /fishers never come back to Japan to appear in courts. AFJ or the Coast Guard then confiscates their deposits as penalties. There is a rule to decide the amount of deposit money, but this is treated as confidential? (Anon, pers. comm. 2010). In stark contrast, most of the apprehended illegal foreign vessels are rarely prosecuted in India, with vessel and crew members regularly released due to intervention by the federal government on the pretext of improving bilateral relations with neighbouring countries (See Chapter 4). 370.1 1 10 100 1000 10000El?SalvadorIrelandGhanaTanzaniaMaldivesMarianas?IslandsMozambiqueEgyptRussiaVanuatuAmerican?SamoaMadeira?IslandsPhilippinesSri?LankaBritish?Virgin?IslandsCosta?RicaIndonesiaMauritaniaCroatiaSt.Paul?IslandFijiRepublic?of?KoreaCameroonMexicoCambodiaNiueMaltaCook?IslandsBangladeshShetland?IslandsEritreaTrinidad?&?TobagoBahrainMyanmarVietnamFederated?States?of?MicronesiaSpainChannel?IslandsGuyanaNauruEquatorial?GuineaBulgariaGuamNew?CaledoniaNigeriaGreenlandTuvaluSolomon?IslandsSwedenPalauFrench?PolynesiaAzores?IslandsClipperton?IslandsLatviaGuatemalaExpected?Revenue/Total?Cost Figure 2.2: Median values of the reciprocal of Total cost / Expected revenue in 109 countries. (Contd.., on page 38). Shaded bars show average values, while solid lines show the range of the values. Values above 1 indicate that profit can be made from illegal fishing. The Total cost / expected revenue is plotted on a logarithmic scale, values above 1 indicate that profit can be made from illegal fishing. The above figure shows that although the median value of more than half of the countries in the analysis lie below 1, the ranges (solid lines) suggest that poachers may still make a profit even in countries with a relatively low index score. Appendix F shows the actual median values of total cost / expected revenue used in this plot. 380.1 1 10 100 1000 10000ArgentinaJamaicaPeruSeychellesIsle?of?ManCrozet?IslandsGuinea?BissauTunisiaCongoComoros?IslandsQatarMadagascarBahamasLiberiaMalaysiaIndiaSt.VincentMarshall?IslandsCubaFranceNew?ZealandAustraliaJapanSomaliaMoroccoBelizeKerguelen?IslandsKiribatiHeard?&?McDonald?IslandsBrazilSouth?GeorgiaHowland?&?Baker?IslandsUkraineUSAAngolaFalkland?IslandsSudanSouth?AfricaCanadaEquadorNorwayGeorgiaNicaraguaPapua?New?GuineaChinaGambiaChagos?IslandsPanamaSierra?LeoneTongaYemenUnited?KingdomNamibiaTromelinExpected?Revenue/Total?Cost Figure 2.3: Median values of the reciprocal of Total cost / Expected revenue in 109 countries. Shaded bars show average values, while solid lines show the range of the values. Values above 1 indicate that profit can be made from illegal fishing. The Total cost / expected revenue is plotted on a logarithmic scale, values above 1 indicate that profit can be made from illegal fishing. The above figure shows that although the median value of more than half of the countries in the analysis lie below 1, the ranges (solid lines) suggest that poachers may still make a profit even in countries with a relatively low index score. Appendix F shows the actual median values of total cost / expected revenue used in this plot. 392.9 Discussion Le Gallic (2008) recommends use of higher tariffs to prevent imports of fish products from countries supporting IUU fishing as a measure to discourage illegal vessel operators. Other measures suggested include catch documentation and labeling schemes to aid in traceability of fish products; making IUU operations unviable by refusing port access which will increase fuel costs and streaming time for IUU vessels (Le Gallic 2008). Illegal fishing can also cause a negative impact on the socio-economic status of fishers employed on illegal fishing vessels through labour and human rights violations (ITF 2006). Illegal foreign fishing can have far reaching effects altering ecosystem integrity with potential economic impacts through decline of fish stocks targeted by domestic fishers (Pascoe et al., 2008). Often gains from illegal fishing outweigh the risks when fishers target high value fish like tuna and toothfish (Anon 2008a; Anon 2010d). A survey of fines imposed on IUU fishing in OECD countries showed that existing penalties have little impact on IUU catches, as penalties are not a sufficient deterrent compared to high value of the catches (Schmidt 2005). Few countries like New Zealand and Australia have taken serious action in this direction by legislating laws which allow confiscation of fishing vessel, gear and catch implicated in IUU fishing within their EEZs (Anon 2005b; Anon 2000a). Other attempts to control illegal fishing include long jail terms to keep repeat offenders and smuggling rings away from poaching activities (Anon 2004a). Economic incentives for IUU fishing include fleet overcapacity (European Commission 2011b), lack of port state control, low MCS effort, and shortcomings in enforcement of flag state responsibility (Sutinen and Anderson 1985; Warner-Kramer 2004; HSTF 2006; also see 40Chapter 4 of this thesis). Fishers can also engage in IUU practices by transferring illegal catches at sea, which are difficult to detect in the absence of regular surveillance (Anon 2005c). Non-compliance with quota can also occur through mis-reporting where vessels report catches of quota species while fishing for other valuable fish (Angel et al., 1994); and under-reporting of landed catches (Anon 2009b; Polacheck and Davies 2008). IUU catches in the high seas are difficult to detect in the absence of regular patrols and aerial surveillance, which provides gaps for vessels to operate with impunity (Bours et al., 2001; Agnew 2000; Kirkwood and Agnew 2004). Spiraling costs of fisheries enforcement have also led to the advent of new programs like North Pacific Ground Fishery Observer Program, where observers are required to report violations that they witness at sea (NOAA 2003). 2.10 Chapter 2 summary Chapter 2 of my thesis explored illegal fishing penalties in 109 countries using 1211 IUU prosecution cases using the conceptual model of Sumaila et al., (2006). In comparison to 16 cases used in Sumaila et al., (2006) paper, in the current analysis 1211 illegal and unreported fishing incidents for 109 countries were evaluated. The current analysis in Chapter 2 is perhaps the most comprehensive work done so far globally to evaluate effectiveness of illegal fishing penalties to deter illegal fishing. Appendix A shows a wide variety of fisheries and fishing fleets that were explored for the analysis in each country to provide a diverse perspective on illegal fishing penalties in each country. Results from the current analysis can be used to address low penalties in specific fisheries and increase enforcement to prevent occurrence of such incidences in future. Research in this direction needs attention as globally many fish stocks are witnessing a decline and with estimates of illegal fishing ranging 41between $10 bn and $23.5 bn annually (Agnew et al., 2009), this issue needs more focus than any time ever. Using the Total Cost / Expected Revenue values in Appendix A, a detailed overall comparison of adequacy of illegal fishing penalties in developed and developing countries is discussed in terms of profitability below (also see Figures. 2.1 and 2.2). Among European countries, it was moderately profitable (40-70%) for IUU operators in jurisdictions of France, UK and Norway, while it was highly profitable (>70%) in Spain, Ireland, Ukraine, Georgia and Bulgaria. Among other developed countries, Canada, USA and New Zealand showed moderate profitability (40-70%) for IUU operators, with Australia and Japan being the only two countries with low profitability (<40%). Among developing countries in Asia, Malaysia was the only country with low profitability (<40%), while China, Philippines, Vietnam and South Korea showed high profitability (>70%) for illegal fishing operators in these jurisdictions. Among Pacific island countries and territories Papua New Guinea, American Samoa and Marianas Islands (US Overseas Island territory) were moderately profitable (40-70%), while Fiji, Kiribati, Federated States of Micronesia, Cook Islands, Tuvalu, Palau, Vanuatu, Solomon Islands and New Caledonia jurisdictions were highly profitable (>70%) for IUU operators. In the Southern Antarctic territories, the British territories of Falkland Islands and South Georgia had high profitability (>70%); French Antarctic territories of Kerguelen Islands showed moderate profitability (40-70%); and the Australian territories of Heard and McDonald Islands showed high profitability (>70%) for illegal fishing operators. 42Chapter 3: Plugging the leaks: an assessment of monitoring control and surveillance (MCS) in the marine fisheries of 41 countries 3.1 Introduction The United Nations Convention for Law of the Sea16 (UNCLOS) was perhaps the biggest recent advance for coastal States in terms of increasing jurisdiction and economic opportunities for exploitation of living and non-living resources. The sovereign rights that it brought with it also increased responsibility for monitoring and control of this extended territory. Perhaps one of the most intriguing questions is how many countries at that point of time in 1982 possessed adequate monitoring, control and surveillance (MCS) capabilities to control resources over a 200 nautical mile maritime zone often with meagre maritime patrolling infrastructure. Thirty years down the line, progress has been achieved in many coastal nations in terms of increasing maritime preparedness for confronting and managing threats for longer distances from the shore. In parallel, one also needs to recognise the increase in number, size and technological sophistication of distant water vessels, necessitating better monitoring of fishing activities beyond the EEZ (Hatcher and Robinson 1998; Kwon 2000; Haward and Bergin 2000; Goldstein 2009). Increase in capacity of new high seas fishing vessels from countries such as China also deserves due attention (Xue 2006). 16 United Nations Convention on the Law of the Sea of 10 December 1982. 43Globally, lack of adequate enforcement has been identified as one of the major impediments to sustainable utilisation and management of fisheries resources (Sutinen and Anderson 1985; Sutinen 1988; Peterson and Teal 1986; Olson and Morgan 1985; Montgomery 2000; Kelleher 2002). Although some countries like Indonesia have enacted better fisheries laws, their enforcement remains weak (SCS 1981). In Indonesia, efficiency of enforcement operations was impacted by equipment, number of operations, poor coordination of law agencies and reduced capabilities of law enforcement agencies at sea (Sutinen 1988). It is interesting to note that a neighbouring country Malaysia performs better for compliance with international laws and fisheries management aspects (Pitcher et al., 2008). According to Sutinen (1988) the main purpose of surveillance and enforcement is to act as deterrent to violations of fisheries regulations and other maritime laws. Several studies have discussed impacts of illegal fishing on national and regional economies in the absence of adequate MCS (Sutinen et al., 1992; Coulter 1996; Gordon 1997; Flewwelling 2001; Ganesan 2001; Butcher 2004; Anwar 2005; Agnew et al., 2009). Studies in marine protected areas (MPAs) have shown that successful management requires effective enforcement to accrue benefits from such efforts (Guidetti and Claudet 2009). Fisheries is one the major activities within the Exclusive Economic Zone (EEZ) of any coastal nation and management of its operations needs a strategic policy to ensure compliance with national and international laws. The Coast Guard and the Navy are the principal agencies involved in monitoring control and surveillance of fish stocks within this extended jurisdiction in most maritime countries. However in this context, one also needs to draw attention to the fact that monitoring of fisheries resources is one among the multitude of 44duties that enforcement agencies undertake within a country?s EEZ. Very few jurisdictions have exclusive fisheries patrol vessels to monitor their fleets on a regular basis; notable few include South Africa, Namibia, China, UK, Iceland, Taiwan and Falkland islands. Shortage of patrolling assets and inadequate MCS can aggravate poaching problems due to lack of ability to monitor large numbers of distant water and domestic vessels operating within a country?s EEZ. With the exception of Flewwelling (2001) study in 11 South Asian Countries; Pitcher?s (2008, 2009); and Mora et al., (2009) studies in recent years, no major attempt has been made to quantify MCS related issues in the fisheries sector. 3.2 International laws relevant to monitoring control and surveillance in fisheries Since the advent of United Nations Convention on Law of the Sea many new international instruments like UNFSA17, the FAO Code of Conduct for Responsible Fisheries18, and the 17 Article 5(l) of UNFSA urges coastal fishing states to ?implement and enforce conservation and management measures through effective monitoring, control and surveillance?. 18 Article 7.1.7 of the FAO code of Conduct for responsible fisheries ?States should establish, within their respective competences and capacities, effective mechanisms for fisheries monitoring, surveillance, control and enforcement to ensure compliance with their conservation and management measures, as well as those adopted by subregional or regional organizations or arrangements?. 45international Plan of Action on IUU Fishing19, have dealt with the necessity to undertake effective monitoring, control and surveillance in global fisheries. International laws like UNCLOS, UN Fish Stocks Agreement, and FAO Compliance Agreement discuss issues on necessity of measures to ensure compliance of fishing vessels both within and outside the EEZ. Article 18(1) of the United Nations Fish Stock Agreement (UNFSA) requires signatory nations to ensure that vessels flying their flag do not undermine conservation measures. Article 18(2) of UNFSA requires nations to grant authorisation to fish on the high seas ?where it is able to exercise effectively its responsibilities in respect of such fishing vessels?. Article 18(3)(b)(iv) of UNFSA requires flag states to expand existing regulations ?to ensure that vessels flying its flag do not conduct unauthorised fishing within areas under the national jurisdiction of other states?. 3.3 Definition of monitoring control and surveillance in fisheries The definition for fisheries monitoring control and surveillance developed by a MCS Conference of Experts in 1981 was used for this study (FAO 1981). As per this definition Monitoring is defined as ?the continuous requirement for the measurement of fishing effort characteristics and resource yields? The monitoring component receives, integrates and verifies data submitted by licensed vessels; at sea inspections and sightings; observers, VMS, satellite images, radar; port 19 Paragraph 24 of the IPOA on IUU Fishing ?States should undertake comprehensive and effective monitoring, control and surveillance (MCS) of fishing from its commencement, through point of landing, to final destination.....? 46inspections logbooks, dockside monitoring, landing reports; and data from aerial surveillance (Flewwelling et al., 2002). Control is defined as ?the regulatory conditions under which the exploitation of the resource may be conducted? The control component addresses five key issues i) responsibilities of all fisheries personnel for effective coordination of MCS operations ii) ensure compliance with international agreements like UNCLOS, UN Fish Stocks Agreement, FAO Compliance Agreement etc. iii) control activities of domestic fishing vessels; stipulate terms and conditions for fishing vessels (vessel identification, catch reporting requirements, transhipping, flag state responsibility) iv) draw regulations to devise appropriate penalties for violators (Flewwelling et al., 2002). Surveillance is defined as ?the degree and types of observations required to maintain compliance with the regulatory controls imposed on fishing activities? Success of surveillance requires fisheries personnel to concentrate on both data collection and involve stakeholders in participatory conservation activities (Flewwelling et al., 2002). The basic infrastructure required for surveillance include: a) national headquarters for coordinating fisheries operations with links to regional field offices; b) central operations room to check current status of fishing operations; c) communications system to landing centres and mobile patrols in the field for coordinating operations; d) computerised data entry and control system; e) surveillance equipment including aircraft, vessels, sea and air surveillance, VMS, radar, satellite technology, GIS and land transportation (Flewwelling et al., 2002). 473.4 Tools for monitoring control and surveillance in fisheries MCS mechanisms are not a panacea for all fisheries related problems, but can act as a good management tool if used effectively. According to Flewwelling et al., (2002) fisheries MCS activities receive low priority among military agencies, and allowing a single agency such as a Fisheries Ministry / Coast Guard to play the lead role can enhance their effectiveness. Some of the key MCS tools needed for fisheries management include enforceable legislation, control through licenses; data collection through dockside monitoring, observers, sea and port inspections; communication structure through a Fisheries Monitoring Centre (FMC); patrol vessels with capability to stay for extended durations at sea; availability of aircraft for rapid deployment with the ability to search vast areas; use of new technology such as VMS, radar, video and infra-red tracking; bilateral, regional and sub-regional co-operation with other MCS components ; and professional staff (Flewwelling et al., 2002). Several studies have been conducted evaluating law enforcement effectiveness in the fisheries sector (Fidell 1976; Sutinen and Anderson 1985; Blewett et al., 1985; Sutinen 1985; Sutinen et al., 1990; Flewwelling 2001; Kelleher 2002). Flewwelling et al., (2002) state that effective MCS requires a two-pronged strategy of preventative approach which includes encouragement of voluntary compliance through enhancement of community / fisher awareness; participatory management; peer pressure towards voluntary compliance; system of accurate data collection; surveillance and verification of compliance. A secondary parallel deterrent / enforcement approach is also necessary to ensure compliance by flagrant violators whose activities might harm activities of legal fishers. The approach should include inspections, investigation and prosecutions 48through courts (Flewwelling et al., (2002). MCS needs effective co-ordination of land, sea and air components, with its effectiveness largely determined by inter-agency synchronization mechanisms in place for fisheries management in the respective country. The land component is the most important element of any MCS system and entails port inspections (to check accuracy of catches, transhipments), dockside monitoring and trade of seafood products. The sea component includes radar, sonar and vessels used in enforcement of regulations in EEZ and high seas. A major chunk of resources for the sea component is allocated to at-sea patrols, while other ?no force? techniques such as observers, vessel registers and Vessel Monitoring System (VMS) serve as deterrents to fisheries violations. The air component includes use of aircraft, satellites and VMS signals to track activities of vessels at sea. This is perhaps one of the best methods to track fishing activities over a large area within a short period and can help in optimising enforcement efforts to areas where vessels are fishing and where violations are detected during patrols. The air component can also serve as precursor of illegal activity to trigger MCS action and gather crucial evidence through photographs and video evidence of illegal activities (Flewwelling et al., 2002). 3.4.1 Importance of surveillance infrastructure in fisheries Continuous monitoring through surveillance infrastructure serves as an important management tool to ensure compliance with fisheries laws and to ensure that interests of the government and licensed fishers are not compromised by infractions from domestic and foreign vessels operating within a country?s EEZ. Such infrastructure in the fisheries sector could include a wide array of tools from sea based patrol vessels to smaller Fibre Reinforced Plastic (FRP) craft, speedboats for patrolling shallow waters, aerial patrolling aircraft and 49surveillance vessels chartered through regional fisheries agreements. Land based infrastructure would include 4 wheeler vehicles, land based Fisheries Monitoring Centres linked to satellites, and Radar stations for data collection and monitoring. Some countries like Senegal have used ?no force? mechanisms such as network of coastal radars to serve as early warning for intrusions of industrial vessels into their 6 nautical mile coastal inshore zone (Flewwelling et al., 2002). Maldives has used satellite images along with VMS to track activities of licensed vessels operating within their EEZ (Flewwelling et al., 2002). Coastal Radar system is more effective in developing countries where large number of vessels operating in inshore waters can be effectively tracked, while offshore industrial vessels can be tracked through VMS. Some of the constraints in electronic tracking using radar include difficulty in proving disputes regarding such violations in the courts, especially when such evidence is used to initiate a chase and seizure of an illegal fishing vessel (McKenna 2004). According to FAO (2007b) AIS transmitters placed on coastal fishing vessels can be used to detect fisheries violations for vessels operating within 50 nautical mile zones. Several studies have discussed use of space based synthetic aperture radar (SAR) to enhance fisheries surveillance (Freeberg 1995; Montgomery et al., 1998; Clemente-Colon et al., 1998). Space based SAR with their all-weather; day and night capability can also provide valuable intelligence during certain seasons when sea based patrols are affected (Montgomery 2000). 3.4.2 Importance of vessel monitoring system in the fisheries sector The advent of vessel monitoring system certainly transformed the way fisheries is managed globally with some nations in the Pacific and European Union solely relying on this technology to track their vessels activities inside and outside the EEZ. According to 50Flewwelling et al., (2002) VMS has the potential to provide cost effective MCS and a viable alternative to traditional enforcement at-sea. Many international instruments such as the FAO Code of Conduct (Article 7.7.3), UN Fish Stocks Agreement (Article 5(j), 18(3)(e) and g(iii)), IPOA on IUU Fishing (Paragraph 24.3) advocate the use of VMS. Article 9 of NEAFC Scheme of control and enforcement and IOTC resolution dated 06/03 adopted on May 26, 2006 require vessels of both contracting and non-contracting parties to use VMS on transhipment vessels (FAO 2007b). According to Flewwelling et al., (2002) use of VMS is ideal for industrial fishing vessels rather than artisanal fisheries where their sheer numbers make them difficult to control. Further the authors state that each state wishing to use satellite based MCS must require (i) installation of automatic location communicators (ALC) as part of the licensing system; (ii) vessels have to be clearly marked for identification to allow comparison of patrol sighting data to satellite VMS data; (iii) require vessels to report their position at regular intervals along with information on their activities and catches; (iv) require landings / transhipments to take place in designated ports or in presence of observers; (v) ensure confidentiality of information and use collected data for enforcement purposes only (Flewwelling et al., 2002). Several studies have stressed on the need to integrate VMS data with other MCS tools to enhance enforcement capabilities in the fisheries sector (FAO 2005; FAO 2007b). 5101000200030004000500060007000USARussiaTaiwanSpainIndonesiaCanadaIcelandMexicoPeruFranceUnited KingdomGreeceJapanAustralia ChileArgentinaNorwaySouth KoreaNamibiaPapua New?SwedenIrelandNew ZealandSeychellesMozambiqueChinaPanamaSenegalGhanaEstoniaCosta RicaMalaysiaFalkland?ItalyBrazilMaltaPhilippinesThailandBangladeshIndiaSri LankaCambodiaMyanmarGuatemalaVietnamKenyaSomaliaGambiaSierra LeoneEgyptIranNigeriaNumber of vessels with VMS Figure 3.1: Number of fishing vessels equipped with Vessel Monitoring System (VMS) in 53 maritime nations. Data for the number of vessels covered through VMS was collected through Question 4. (Vessel monitoring system) in the MCS case studies for 41 fishing nations (see Pramod 2011). Data for remaining 12 countries was collected from GIUFI (2010) database. The figure shows that although many developed countries have installed new technologies such as VMS to monitor their fishing vessels, most of the developing countries (with the exception of Indonesia) are yet to catch up with such modern technology and currently very few fishing vessels from these countries are equipped with VMS to monitor their fleets at sea. This problem assumes importance especially in countries such as China with huge distant water fleets, which currently have very low VMS coverage. In South Pacific countries, surveillance efforts through VMS assume immense importance as exploitation of tuna stocks by distant water fleets contributes to economic viability of these nations (Bergin 1988). In Iceland, several enforcement cases were successfully prosecuted based entirely on VMS data (FAO 2007b). In Madagascar, all industrial fishing vessels are 52required to be fitted with tracking devices to monitor zoning incursions in the inshore shrimp fishery (FAO 2007b). In Seychelles, all foreign fishing vessels that offload catches in its ports are to be fitted with VMS and transmit their position reports during their presence in Seychelles EEZ (FAO 2007b). Such initiatives can be replicated in African countries where the scale of such incursions by foreign fishing vessels into the Inshore Exclusion Zone remains very high (GIUFI 2010). Although the technology has its advantages, incidents of tampering with equipment through blocking of antenna and switching off power supply have been documented in several countries (FAO 2007b). In such countries, VMS reports can be verified with satellite imagery and radar through Vessel Detection System (FAO 2007b). 3.4.3 Why is an observer scheme needed in fisheries? Fisheries observers can serve as deterrent to fisheries violations by their mere presence onboard fishing vessels, while collecting scientific data for fisheries management at the same time. Observers can also serve as enforcement assets when they are required to report fisheries violations witnessed at sea (Porter 2010). While dockside inspections can detect some violations for port landings, at sea violations such as discards, high grading, retention of prohibited species and retention of non-quota species can be better detected through observers at sea (Anderson 1989; King et al., 2009). From 2000-2002, observers in the US North Pacific groundfish fisheries reported 590 violations alluding to their importance in fisheries enforcement system (Porter 2010). Placement of observers on fishing vessels can also serve as secondary source of data to countercheck bias in data submitted by fishing vessels (Furlong and Martin 2000; Allard and Chouinard 1997). However, fisheries violations reported by observers cannot promote compliance unless active investigation and 53prosecutions follow them by enforcement agencies (Porter 2010). Analysis of NMFS observer data showed that observer reported incidents were prosecuted less often in US Fisheries (Porter 2010). Porter (2010) states that prosecutors many not enforce fisheries violations reported by observers as these cases are less severe than traditional enforcement cases. 3.4.4 Importance of sea based patrols in fisheries Patrol vessels by their mere presence on fishing grounds act as deterrent to fisheries violations, and help to gather critical intelligence on fishing activities. Boarding?s through at-sea patrols provide information on accuracy of data and provide checks on use of legal gear, catch logs, radio reports and logbooks (Sutinen 1988). They are also the principal means of conducting inspections of fishing fleets at sea (Sutinen 1988). According to Sutinen (1988) enforcement effort by patrol vessels depends on number of previous sightings / encounters with fishing vessels, with their efficiency determined by path of patrol boat, time spent at sea and how widely fishing vessels are distributed at sea. 3.4.5 Importance of aerial patrols in fisheries Aerial patrols provide strategic picture of fishing activities and provide tactical data for patrol vessels with information on locations of fishing vessel activity, their movements and indirectly through data on fish migrations (Sutinen 1988). However, in the absence of legal or administrative sanctions, vessels sighted by patrol aircraft have limited or no impact on level of violations (Kelleher 2002). Armacost (1992) has discussed about level of aerial patrols required for fisheries law enforcement in relation to fishing activity in US waters. In 54the absence of national monitoring programme, countries like Sierra Leone, Cape Verde, Gambia, Guinea, Guinea-Bissau, Mauritania and Senegal rely on joint air and sea surveillance provided by Sub-regional fisheries commission (SRFC) for monitoring licensed and unlicensed fishing vessels operating within their EEZs (Flewwelling et al., 2002). South Korea has used combination of surveillance instruments such as Radar, Closed Circuit Television (CCTV) cameras and GPS receivers to monitor illegal fishing activities within their EEZ (Lee and Kim 2004). The Korean system is effective in targeting poaching activities as radar positions of vessels are compared to GPS position reports to counter check accuracy of reporting (Lee and Kim 2004). In countries like Denmark, Argentina, USA, and New Zealand, CCTV on fishing vessels have been used to monitor compliance with fishing rules and cut discards at sea (Anon 2009d; McElderry 2008; Bonney et al., 2009). Satellite images (Radarsat) can serve as vital sources of information for poaching activities of smaller vessels in the 15-20 metres range which can go unnoticed during routine air patrols (McKenna 2004). Using Radarsat satellite images a geographical location can be observed 2-3 times / week, and can capture 300 km wide by 3000 km long area (McKenna 2004). Other suggested technologies include tracking devices like ?shiploc? which use GPS to transmit vessel?s position to a satellite 15 times / day and have been used by IMB to track ships captured by pirates (McKenna 2004). Other emerging technologies such as Satellite imagery, lights emitted by fishing vessels have been used to determine fishing intensity of squid vessels off Argentine coast can be used in fisheries enforcement (Waluda et al., 2002). 553.4.6 Importance of dockside monitoring in fisheries Although several international instruments such as FAO Code of Conduct, FAO Compliance Agreement, UN Fish Stocks Agreement, IPOA on IUU Fishing and the more recent UN Post State Measures Agreement advocate implementation of port state control to prevent influx of illegal fish shipments, implementation of these measures remains lukewarm in several countries. To overcome the problem of illegal transhipments at sea, countries which do not have adequate infrastructure for at-sea monitoring and enforcement can bring forth laws which mandate presence of dockside observers and authorise transhipments only at ports. The need for proper dockside controls is further validated in light of recent evidence on large scale of ?black fish? landed in UK (Anon 2010e) and Ireland (Anon 2007c). Dockside monitoring is an important management tool to monitor catches offloaded from fishing vessels, tallying vessel catch rates against its quotas, and to check fisheries violations of non-quota species. 3.4.7 Importance of coastal patrols Coastal fisheries patrols assume immense importance in developing countries with large small-scale fleet landing catches in discrete locations along the coastline. Often, these patrols would look at compliance with use of legal fishing gear, illegal fishing in protected areas and destructive fishing practices. However, this problem is even prevalent in developed countries through under-reporting/overfishing in the recreational and subsistence sectors (Pramod et al., 2008). Coastal patrols also assist in providing deterrence and enforcement of laws against destructive fishing practices, execution of zone limits for trawlers and fishing boats etc. Coastal patrols also assume high importance in tropical countries where small-scale fisheries 56land bulk of nation?s fish catches, and adequate enforcement in these waters can ensure sustainable exploitation of coastal resources. 3.4.8 Importance of monitoring transhipments at sea Paragraph 34 of the UNGA Resolution 59/25, 17 January 2005, directly acknowledges the problems related to Illegal transhipments ?common means of conducting illegal, unreported and unregulated fishing involves the unreported or misreported transshipments of fish at sea?. Transshipments at sea are difficult to track unless there is a certain degree of regular enforcement through aerial patrols and VMS tracking of vessels. However, transhipment is used by plethora of nations to legitimately transfer catches at sea to avoid loss of valuable fuel and cruise time while undertaking fishing operations. However, transhipments also provide opportunity for illegal operators to transfer illegal catches in EEZs of foreign countries as well as to disguise quantity of fish taken by vessel in quota fisheries. Illegal transhipments also make it difficult to track fishing locations and transfer of catches from flags of convenience vessels (GIUFI 2010; Gianni and Simpson 2004). ICCAT regulations advocate monitoring of all transhipments by observers at sea and necessitate all transhipments to occur in ports unless special provisions under Section 2 of 06-11 apply (Hurry et al., 2008). However, the recent annual reporting of ICCAT member states on port state measures shows that inspections at ports are random and inconsistent, alluding to poor application of rules even in well-established RFMOs (Hurry et al., 2008). 573.4.9 Importance of fishing gear inspections Regular inspections of compliance with fishing gear help in enforcing mesh size regulations, preventing zoning conflicts, reducing by-catch, and to prevent capture of juvenile fish and other invertebrates. Inspections on a regular basis can also help to minimise damage through lost or discarded fishing gear (Macfadyen et al., 2009) and help in proper disposal of damaged ones through shore collection system. Inspections help to ensure proper tagging of fishing gear for help in identifying owners to minimise gear conflicts and illegal gear at sea. Moreover, they prevent misuse of multiple gears in a single license fishery in tropical small-scale fisheries in the developing world (Pramod 2010). 3.5 Methods In this study, an evaluation was conducted using a case study approach to evaluate the management effectiveness of patrolling agencies to monitor and control fisheries resources within the 200 nm exclusive economic zone. The Exclusive Economic Zones (EEZ) of 41 maritime countries landing 87% of the world?s fish catch were assessed using a rapid appraisal technique for 11 questions designed by the author using the ?Rapfish? method outlined in Pitcher and Preikshot (2001). The questionnaire (See Appendix B) lists the themes and international laws relevant to MCS in Fisheries. The 11 questions are grouped under two fields a) MCS Infrastructure and b) Vessel inspections. Each question was scored on a scale of 0 to 10, to indicate the scale of compliance with each attribute, where 10 indicates perfect compliance. Uncertainty in each score is clearly reflected in the score range for each question. The eleven questions were 58designed using aspects derived from international laws like UNCLOS, UNFSA, PSMA, FAO-CCRF and the IPOA on IUU Fishing (See Appendix B). Appendix C shows the percentage of world fish catch (in tonnes) landed by 41 countries in the evaluation (the 41 countries landed 87% of the world?s fish catches in 2005). The 41 country reports for MCS evaluation20, containing 538 references and 209 pages is published separately as Pramod (2011), which provides detailed text and scores for the 11 questions in the analysis. However, lack of information posed a persistent problem for many aspects such as inspections at sea, aerial patrols etc., despite every effort to contact national and regional enforcement agencies to gather information for the relevant aspects. Gaps in access to information for MCS study for each country were evaluated and are provided in Appendix. D. Information in Appendix D, shows the extent of information available through various sources such as government records, journals to academic literature and internet for the present study. In this chapter an attempt has been made to quantify compliance with international laws relevant to MCS aspects. ; The aim of this study was to explore MCS capabilities of coastal nations to enforce national and international fisheries laws within their maritime zone (EEZ) and the high seas [9 questions relevant to MCS compliance within the EEZ and 2 Questions (Q.3 & Q.4 Field 1) for the high seas]. The present study does not reflect a nation?s management effectiveness for facing other maritime threats such as terrorism, security, 20 Pramod (2011) Evaluations of Monitoring, Control and Surveillance in marine fisheries of 41 countries, MCS Case Studies Report, Fisheries Centre, University of British Columbia, Canada, May 2011, 222. ftp://ftp.fisheries.ubc.ca/CodeConduct/CountriesCodePDF/MCS%20Case%20Studies%20in%2041%20Fishing%20Nations.pdf 59human trafficking, drugs, etc. A clear distinction on this aspect is essential as fisheries is one among several activities monitored by enforcement agencies in a country?s EEZ, with priority being afforded to it depending on the country?s location, it?s EEZ area, defence priorities, number of agencies involved, coupled with financial, administrative and regulatory allocation of patrolling and manpower assets. It is important to mention that the present study does not attribute efficiency of MCS operations within a country?s EEZ to one single agency as often such operations often rely on co-ordination between large number of enforcement agencies21 and so usually no single agency can be held accountable for good or bad scores for questions in the survey. 3.6 Results Analysis of key questions relating to monitoring control and surveillance is given below. 3.6.1 Scoring compliance with surveillance infrastructure The first question in the analysis looks at the extent of patrolling and surveillance infrastructure available for monitoring fishing activities within a nation?s EEZ. The analysis (Figure 3.2) reveals that of the 41 countries, 13 (31%) received scores within the ?good? range of 7- 10 and have adequate infrastructure for regular patrolling of fisheries resources within their EEZ. All these countries have consistently invested substantial legal, financial and administrative resources to ensure optimum utilisation of patrolling assets through regular apprehensions of illegal fishing vessels and higher detection rate of violations within their EEZs (GIUFI 2010). Five countries (12%) have acceptable scores above 6/10 (Sweden, 21 Fisheries enforcement duties in many coastal states are shared between one or more of these agencies such as Coast Guard, Navy, Marine Police, Customs, Fisheries Ministry etc. 60China, South Africa, Taiwan and Mauritania). However, 14 countries (34%) received ?fail? grades of 4 and below (Peru, Myanmar, Madagascar, Sri Lanka Indonesia, Philippines, Vietnam, Bangladesh, Cambodia, Guinea, Nigeria, Cameroon, Ghana and Sierra Leone) making these countries highly vulnerable to illegal fishing. 0246810AustraliaIcelandCanadaNorwaySouth Korea USAJapanArgentinaNamibiaNew_Zealand UKMalaysiaFranceSwedenChinaSouth AfricaTaiwanMauritaniaIndiaChileRussiaMexicoEcuadorAngolaThailandMoroccoBrazilSri LankaMadagascarPeruMyanmarBangladeshIndonesiaCambodiaNigeriaPhilippinesGhanaGuineaCameroonSierra LeoneViet NamScore /10Surveillance Infrastructure Figure 3.2: MCS compliance scores for surveillance infrastructure. Bar chart showing compliance of 41 fishing countries for Question 1. Surveillance infrastructure. Shaded bars show the average compliance scores while error bars are derived from upper and lower score limits for each question and country (See Appendix B for details related to how questions were scored); Scores below 4/ 10 indicate a ?fail? rating; scores between 6 to 7 are considered a ?pass? rating; and scores above 7/10 denote ?good? rating. 3.6.2 Scoring compliance with MCS human resources The second question in the analysis evaluates the availability of trained officers available for monitoring the fisheries sector. The analysis reveals that 25 countries (61%) have low compliance scores, which fall within fail grades of less than 4 (Madagascar, Mexico, Peru, Argentina, Brazil, Chile, Ecuador, Russia, Morocco, Angola, Mauritania, Guinea, Ghana, 61Nigeria, Cameroon, Sierra Leone, India, Bangladesh, Philippines, Myanmar, Sri Lanka, Thailand, Cambodia, Indonesia and Vietnam). The worrisome trend is that even developed countries like Iceland have only passable scores of 6.5/10. Developed countries like Namibia, Sweden, France, Iceland, UK, USA, Canada, Malaysia and China (22%) have moderate scores of 5.5/10, with a range of 3-7, alluding to need for improvement in these countries (See Figure 3.3). Two countries (Argentina, and India) achieved compliance scores of 3.5/10, in spite of having good surveillance resources. A majority of developed countries in the analysis perform poorly due to shortage of manpower in monitoring both nearshore and recreational sectors while developing countries appear to have shortage in both small-scale and industrial sectors. Almost all the countries have shortage of manpower for monitoring shipments from their ports as well as for checking vessels transiting through their ports. 0246810NorwayNew_ZealandAustraliaIcelandTaiwanMalaysiaNamibiaSwedenFrance UK USACanadaChinaJapanSouth KoreaSouth AfricaBrazilPeruRussiaMoroccoMauritaniaArgentinaIndiaIndonesiaMadagascarAngolaChileEcuadorThailandMexicoCambodiaSri LankaCameroonSierra LeonePhilippinesMyanmarGuineaViet NamBangladeshNigeriaGhanaScore /10MCS Human Resources Figure 3.3: MCS compliance scores for human resources. Bar chart showing compliance of 41 fishing countries for Question 2. MCS Human Resources. Shaded bars, error bars and symbols are explained in Figure 3.2. 623.6.3 Scoring compliance with monitoring of high seas fleet The need for monitoring high seas fleets has been explicitly stated in many international laws like the FAO Compliance Agreement, UN Port State Measures Agreement (PSMA), UN Fish Stocks Agreement and the IPOA on IUU Fishing. Q.3 deals with this aspect looking at whether each country has taken appropriate measures to monitor its fishing vessels operating beyond its EEZ, and if such activities are licensed with proper reporting procedures to prevent illegal and unreported fishing in high seas and RFMO jurisdictions. Analysis of Figure 3.4 reveals that of the 41 countries only 4 (10%) received good grades above 7/10 (Iceland, USA, New Zealand and Australia). One country (Mexico) received passable score of 6/10, while 9 out of 41 countries (22%) received moderate scores in the range of 4 to 6 (Peru, Chile, Canada, Norway, Japan, Namibia, Sweden, France and UK). However, 27 countries had completely unsatisfactory grades of less than 4/10 (Malaysia, South Korea, Argentina, Angola, Ghana, Brazil, Madagascar, Morocco, Sri Lanka, China, Russia, South Africa, Philippines, Cameroon, Indonesia, Taiwan, Ecuador, Bangladesh, Thailand, India, Mauritania, Sierra Leone, Guinea, Nigeria, Myanmar, Cambodia and Vietnam). Lack of control for fleets from China, South Korea and Taiwan with a huge high seas presence has severe implications in controlling IUU fishing and conserving migratory stocks in the EEZs of foreign countries and the high seas. 630246810New_ZealandIcelandAustralia USAMexicoCanadaNorwayPeruJapanNamibia UKSwedenFranceChileSouth KoreaMalaysiaArgentinaAngolaMoroccoGhanaBrazilMadagascarIndonesiaChinaSri LankaRussiaSouth AfricaPhilippinesCameroonTaiwanEcuadorBangladeshThailandIndiaMauritaniaSierra LeoneGuineaNigeriaMyanmarCambodiaViet NamScore /10High Seas Fleet monitoring Figure 3.4: MCS compliance scores for high seas fleet monitoring. Bar chart showing compliance of 41 fishing countries for Question 3. High Seas Fleet Monitoring. Shaded bars, error bars and symbols are explained in Figure 3.2. Fifteen countries, South Africa to Vietnam got ?0? scores for this question and hence there are no bars in the above figure for these countries. 3.6.4 Scoring compliance with vessel monitoring scheme The analysis reveals that 7 countries (17%) have ?good? scores within the range of 7/10 (Iceland, Namibia, New Zealand, Norway, Madagascar, UK and USA) for monitoring major portion of their fishing fleet through vessel monitoring system (Figure 3.1 & Figure 3.5). All these countries have active VMS programmes backed by progressive legislations to monitoring their fleets on a continuous basis. A further, 4 countries (France, South Africa, Argentina and Chile) have passable score within a range of 6/10, and increasingly are making VMS an integral part of many new fisheries. However, no less than 22 countries have unacceptable low compliance scores (4 or less); these include Indonesia, Mauritania, Taiwan, Cameroon, Ghana, Brazil, Sweden, China, South Korea, Morocco, Malaysia, Philippines, 64Guinea, Myanmar, Thailand, Cambodia, Sri Lanka, Sierra Leone, Vietnam, Bangladesh, Nigeria, India. 0246810IcelandNamibiaNew_ZealandMadagascarNorway UK USASouth AfricaFranceArgentinaChileEcuadorPeruCanadaAustraliaRussiaAngolaMexicoJapanSwedenIndonesiaMauritaniaTaiwanCameroonGhanaBrazilChinaSouth KoreaMoroccoMalaysiaPhilippinesGuineaMyanmarThailandCambodiaSri LankaSierra LeoneViet NamBangladeshNigeriaIndiaScore /10VMS Coverage Figure 3.5: MCS compliance scores for vessel monitoring system. Bar chart showing compliance of 41 fishing countries for Question 4. Vessel Monitoring System (VMS). Shaded bars, error bars and symbols are explained in Figure 3.2. Seven countries namely Cambodia, Sri Lanka, Sierra Leone, Vietnam, Bangladesh, Nigeria and India got ?0? scores for this question and hence there are no scores and error bars in the above figure for these countries. 3.6.5 Scoring compliance with observer scheme Figure 3.6 shows that only one country (Namibia) has good score of 8.5, with three countries having passable scores in the range of 6/10, and upper confidence limits above 7 (Australia, Norway, and USA). Canada, Madagascar, Argentina and New Zealand have a wide range of scores above 4.5/10, so their estimates are uncertain. However, 32 of the 41 countries (78%) have ?fail? grades on the observer coverage issue, of which Angola, Sweden, UK and Peru have made some improvements on this aspect and are planning to include more fisheries 65under observer scheme. The remaining 28 countries (68%) have unequivocal ?fail? scores (Iceland, Japan, Mexico, Chile, Ecuador, Philippines, Myanmar, Russia, Taiwan, France, south Korea, Brazil, Sierra Leone, Morocco, Mauritania, Guinea, Cameroon, Indonesia, Ghana, China, Malaysia, Thailand, Cambodia, Sri Lanka, Vietnam, Bangladesh, Nigeria and India. 0246810NamibiaAustraliaNorwayUSACanadaMadagascarArgentinaNew_ZealandSouth AfricaAngolaSweden UK PeruIcelandJapanMexicoChileEcuadorPhilippinesMyanmarRussiaTaiwanFranceSouth KoreaBrazilSierra LeoneMoroccoMauritaniaGuineaCameroonIndonesiaGhanaChinaMalaysiaThailandCambodiaSri LankaViet NamBangladeshNigeriaIndiaScore /10Observer Coverage Figure 3.6: MCS compliance scores for observer scheme. Bar chart showing compliance of 41 fishing countries for Question 5. Observer Scheme (VMS). Shaded bars, error bars and symbols are explained in Figure 3.2. Eleven countries namely Indonesia to India received ?0? on score for this question and hence there are no scores and error bars in the above figure for these countries. 3.6.6 Scoring compliance with inspections at sea Figure 3.7 shows that of the 41 countries only two countries (USA and Norway) had good scores on this question, while three other countries (7%) had scores within passable range of 6/10 (Namibia, Malaysia and Canada). However, 24 countries had unacceptable low scores of 4 or less; these are Madagascar, Peru, Sierra Leone, Mexico, Thailand, Russia, Indonesia, 66Sri Lanka, Myanmar, Cameroon, Morocco, Ecuador, Brazil, India, Angola, Cambodia, Vietnam, Bangladesh, Guinea, China, Philippines, Ghana, South Korea, Nigeria and Chile. 15 countries (37%) received scores in the intermediate score range between 4 to 6, with their upper confidence limits reaching passable scores of 6, so their estimates are uncertain (Malaysia, Taiwan, South Africa, Namibia, Canada, South Korea, Mauritania, Sweden, UK, Australia, Iceland, Russia, France, New Zealand, Argentina and Japan). The reliability of the scores for this question can only increase when more information on inspections at sea is readily available, as most of the countries except Canada, USA, Namibia, Norway and Malaysia do not provide any reliable estimates on number of fisheries inspections by their patrol vessels at sea. 0246810NorwayUSANamibiaAustraliaCanadaMalaysiaIceland UKFranceSouth AfricaTaiwanSouth KoreaMauritaniaSwedenNew_ZealandRussiaArgentinaJapanPeruMexicoThailandIndonesiaSri LankaBrazilMyanmarCameroonMoroccoEcuadorIndiaMadagascarSierra LeoneAngolaCambodiaViet NamBangladeshGuineaChinaPhilippinesChileGhanaNigeriaScore /10Inspections at Sea Figure 3.7: MCS compliance scores for inspections at sea. Bar chart showing compliance of 41 fishing countries for Question 6. Inspections at Sea. Shaded bars, error bars and symbols are explained in Figure 3.2. 673.6.7 Scoring compliance with adequacy of aerial patrols Figure 3.8 illustrates that only one country (Australia) has good score of 7.5, while UK and New Zealand receive passable scores within the range of 6/10. Countries like India, Iceland, Japan, USA and Namibia (12%) having scores of 5.5 and upper confidence limits in the passable range of 6/10. Countries like Peru, Norway, France, Malaysia, have scores in the intermediate 4.5 to 5 range, although their upper confidence limits are in the passable score of 6, so their estimates are uncertain. These discrepancies can be attributed to lack of information on aerial patrols in these countries or due to degree of information that is publicly available for such content in these countries. Many countries in the analysis had shortage of information for aerial patrols so more information is needed before drawing any concrete conclusions. However, 26 countries (South Korea, Mauritania, Angola, Chile, Thailand, Sweden, China, Madagascar, Ecuador, Brazil, Russia, Indonesia, Morocco, Taiwan, Nigeria, Sri Lanka, Myanmar, Sierra Leone, Ghana, Mexico, Bangladesh, Philippines, Cambodia, Vietnam, Ghana and Cameroon) had completely unacceptable scores below 4/10, which must be considered a poor performance on an important prerequisite for monitoring offshore fishing incursions and transhipments. 680246810Australia UKNew_ZealandNamibia USAJapanCanadaIndiaIcelandFranceNorwayPeruMalaysiaSouth AfricaArgentinaSouth KoreaChinaMauritaniaAngolaChileSwedenThailandMadagascarEcuadorBrazilRussiaTaiwanIndonesiaMoroccoNigeriaSri LankaMyanmarGuineaMexicoBangladeshSierra LeonePhilippinesCambodiaViet NamGhanaCameroonScore /10Aerial Patrols Figure 3.8: MCS compliance scores for aerial patrols. Bar chart showing compliance of 41 fishing countries for Question 7. Aerial Patrols. Shaded bars, error bars and symbols are explained in Figure 3.2. Three countries namely Vietnam, Ghana and Cameroon received ?0? scores for this question and hence there are no scores and error bars (Ghana and Cameroon) in the above figure for these countries. 3.6.8 Scoring compliance with dockside monitoring Four countries receive ?good? scores above 7/10 (Iceland, New Zealand, Norway and Sweden), while two developed countries USA and Canada received passable scores above 6/10 (See Figure 3.9). Most countries (27, 66%) fall under the ?fail? grades for dockside controls (Argentina, Malaysia, South Korea, Peru, Chile, Morocco, Japan, Mexico, Angola, Myanmar, Brazil, Indonesia, Ecuador, Nigeria, China, Sri Lanka, Philippines, Bangladesh, Cameroon, Taiwan, Guinea, India, Vietnam, Russia, Sierra Leone, Ghana, Thailand and Cambodia). The recent global study by Flothmann et al., (2010) on lack of accountability and transparency in port state control appears to strengthen results from the present study, which show poor performance by most countries. 690246810IcelandNew_ZealandNorwaySwedenCanada USA UKAustraliaSouth KoreaMauritaniaFranceSouth AfricaNamibiaMadagascarTaiwanArgentinaMalaysia PeruChileBrazilJapanMoroccoMexicoRussiaAngolaMyanmarIndonesiaEcuadorNigeriaChinaSri LankaPhilippinesBangladeshCameroonGuineaIndiaViet NamSierra LeoneGhanaThailandCambodiaScore /10Dockside Monitoring Figure 3.9: MCS compliance scores for dockside monitoring. Bar chart showing compliance of 41 fishing countries for Question 8. Dockside Monitoring. Shaded bars, error bars and symbols are explained in Figure 3.2. Two countries namely Thailand and Cambodia received ?0? scores for this question and hence there are no scores and error bars (Cambodia) in the above figure for these countries. 3.6.9 Scoring compliance with coastal patrols The analysis reveals that of the 41 countries, 3 (7%) received good scores within the range of 7/10 (New Zealand, Norway and Namibia). Further, Sweden, Iceland and South Korea received passable score within the range of 6/10 (See Figure 3.10). However, 30 countries (73%) have low compliance scores of 4 or less (South Africa, Canada, Chile, Taiwan, France, Morocco, Angola, Madagascar, Brazil, Bangladesh, Mauritania, Peru, Thailand, Mexico, Indonesia, Ghana, Sri Lanka, Myanmar, Ecuador, China, Russia, Philippines, Argentina, Cameroon, Nigeria, Guinea, Sierra Leone, India, Cambodia and Vietnam). 700246810New_ZealandNorwayNamibiaSwedenSouth KoreaIcelandAustraliaJapanCanadaMalaysia USA UKSouth AfricaChileTaiwanFranceMauritaniaBangladeshMoroccoAngolaMadagascarBrazilPeruThailandMexicoIndonesiaGhanaSri LankaMyanmarEcuadorChinaRussiaPhilippinesArgentinaCameroonNigeriaGuineaSierra LeoneIndiaCambodiaViet NamScore /10Coastal Patrols Figure 3.10: MCS compliance scores for coastal patrols. Bar chart showing compliance of 41 fishing countries for Question 9. Coastal Patrols. Shaded bars, error bars and symbols are explained in Figure 3.2. Five countries namely Guinea, Sierra Leone, India, Cambodia and Vietnam received ?0? scores for this question and hence there are no scores and error bars (Cambodia and Vietnam) in the above figure for these countries. 3.6.10 Scoring compliance with monitoring transshipments at sea Results from the current analysis (Figure 3.11) reveals that only one country (Namibia) achieved a score above 7/10. However, two countries (New Zealand and Norway) received passable scores of 6.5 with their upper confidence limits in the 7/10 ranges. Two countries (Canada and Sweden) received scores in the range of 5 to 6, with upper confidence limits in passable range of 7 leaving their estimates. 29 countries received low compliance scores of (less than 4); these are Mauritania, Japan, Madagascar, Guinea, Angola, Russia, Morocco, Peru, Ecuador, Argentina, Cameroon, Sri Lanka, Brazil, Mexico, Nigeria, Taiwan, Ghana, Sierra Leone, China, Philippines, India, Cambodia, Indonesia, Bangladesh, Myanmar, Vietnam and Thailand. 710246810NamibiaNew_ZealandNorwayCanadaSwedenChileFranceAustraliaIcelandMalaysiaSouth KoreaSouth Africa UK USAMauritaniaJapanRussiaMadagascarGuineaMoroccoPeruEcuadorArgentinaAngolaCameroonSri LankaBrazilMexicoNigeriaTaiwanGhanaSierra LeoneChinaPhilippinesIndiaCambodiaIndonesiaBangladeshMyanmarViet NamThailandScore /10Unreported Transshipments at Sea Figure 3.11: MCS compliance scores for monitoring transshipments at sea. Bar chart showing compliance of 41 fishing countries for Question 10. Unreported Transshipments at sea. Shaded bars, error bars and symbols are explained in Figure 3.2. Seven countries namely India, Cambodia, Indonesia, Bangladesh, Myanmar, Vietnam and Thailand received ?0? scores for this question and hence there are no scores and error bars (Myanmar, Vietnam and Thailand) in the above figure for these countries. 3.6.11 Scoring compliance with fishing gear inspections Namibia and Sweden are the only two countries to get good scores in the analysis for fishing gear inspections (Figure 3.12), with scores above 7/10. One country South Korea, received passable score of 6.5, showing that it is headed in the right direction. Eight countries (New Zealand, Canada, USA, France, Madagascar, Australia, Iceland, and Malaysia) had scores in the range of 4 to 6, with wide variation in their confidence limits between 4 and 7 making their estimates uncertain. More data would be needed to arrive at any concrete conclusions for these countries. However, 31 countries (75%) in the analysis received unacceptable low scores below 4/10 (Japan, UK, Argentina, Chile, South Africa, Peru, Mexico, Mauritania, Morocco, Ecuador, Bangladesh, Brazil, Cameroon, Norway, China, Angola, Thailand, India, 72Cambodia, Vietnam, Taiwan, Ghana, Sierra Leone, Nigeria, Philippines, Indonesia, Sri Lanka, Myanmar, Guinea and Russia). 0246810SwedenNamibiaSouth KoreaIcelandNew_ZealandAustraliaCanada USAFranceMalaysiaJapan UKBrazilArgentinaChileSouth AfricaMadagascarBangladeshRussiaPeruMexicoMauritaniaEcuadorPhilippinesCameroonMoroccoNorwayChinaAngolaThailandIndiaCambodiaViet NamTaiwanGhanaSierra LeoneNigeriaIndonesiaSri LankaMyanmarGuineaScore /10Fishing Gear inspections Figure 3.12: MCS compliance scores for fishing gear inspections. Bar chart showing compliance of 41 fishing countries for Question 11. Fishing gear inspections. Shaded bars, error bars and symbols are explained in Figure 3.2. Sixteen countries namely Morocco to Guinea received ?0? scores for this question and hence there are no scores and error bars (India, Cambodia, Vietnam, Taiwan, Ghana, Sierra Leone, Nigeria, Indonesia, Sri Lanka, Myanmar and Guinea) in the above figure for these countries. 3.7 Discussion The declining state of world fish stocks (FAO 2009a) necessitates the enhancement of capacity of nations to derive benefit from their fishery resources through better monitoring and enforcement of regulatory laws. In many developing countries international and national laws are not backed by sufficient regulatory and legal sanctions (Pramod 2010). The effectiveness of enforcement programs is influenced by: deployment strategies, capabilities 73and capacity of surveillance units, types of fisheries violations, distribution of fishing activity, time of the year, and surveillance priorities of monitoring agencies (Millar 1995). According to Sutinen (1988) enforcement effectiveness can be maximised and costs minimised through high penalties. MCS system is also likely to be more successful when countries can assert the same level of sovereignty on resources at sea as they do on land. Developing countries with scant patrolling resources can increase chances of apprehending illegal fishing vessels through intelligence provided by artisanal fishermen and optimising use of MCS assets through regional fisheries co-operation with other countries. Effectiveness of co-operative surveillance in combating illegal fishing has been effectively demonstrated by France and Australia in Sub-Antarctic Island territories and can be replicated elsewhere (Gullett and Schofield 2007). Increasingly, poachers are resorting to new strategies such as communicating position of enforcement vessels to other poaching vessels to avoid capture necessitating use of new technological tools for monitoring distant water fleets (Baird 2004). To avoid cloning of fishing permits, countries like Mexico have started using new technology for commercial fishing permits which have better security features such as visible and invisible optical fibers, high security micro-prints and modified images which can be read using special reading equipment (Anon 2010f). Technologies such as these can be used by enforcement agencies in other developing countries like Indonesia and Malaysia where foreign fishing vessels are repeatedly caught using cloned / forged fishing permits (GIUFI 2010). 74In developing countries it has often come to notice that absence of authority or political intervention in arrest cases of foreign fishing vessels affects the morale of enforcement personnel. As aptly stated by one enforcement officer in the Indian Ocean ?How do you expect me to take action on foreign poaching vessels when I spend my valuable manpower and patrolling assets to apprehend a foreign fishing vessel after chasing it for several miles with great effort to bring it to the nearest port, only to be informed later that the vessel was merely fined a couple of hundred dollars or that it was left on intervention from some politician in the federal government. The morale of me and my crew is utterly devastated and the next time I see poaching vessels I merely chase them away instead of apprehending them? (Anon pers comm., 2008). Absence of statutory authority also affects the ability of enforcement agencies to affect an arrest during resource protection duties (Letts 2000). Low enforcement assets in relation to extent of geographical area to be patrolled affect fisheries protection in countries like Philippines and Indonesia (Viswanathan et al., 1997). Deployment of MCS resources in UK, Canada and Indonesia also appears to be affected due to shortage of funds (Millar 1995; Sihaloho 2009). Figure 3.13 shows compliance of countries by counting the number of ?good? and ?fail? grades for all the 11 questions. Twelve countries (29%) (Myanmar, Cambodia, Cameroon, Guinea, Nigeria, Bangladesh, Vietnam, Sri Lanka, Sierra Leone, Indonesia, Philippines and Ghana) received fail grades in all parts of the analysis. Three countries (7%) Namibia, Norway and New Zealand received good scores on 6 out of 11 questions, with moderate scores in range of 4-7 for the remaining 5 questions. Malaysia was the only developing 75country to receive a good compliance score for 1 out of 11 questions, but failed to show good performance for nearly 40% of the overall questions. Figure 3.13: Bar chart showing number of ?good? and ?fail? compliance ratings. Ratings for the top 41 fishing countries against 11 questions expressing compliance with MCS attributes. Green bars indicate the number of ?good? compliance ratings across the 11 questions; for each country, shaded grey bars denote moderate scores in the range of 4 to 7, while red bars denote the number of ?fail? compliance ratings across the 11 questions. Hence, for each country the three colours in it?s bar show the number of scores in each category. Country bars are sorted by number of good and bad scores for the 11 MCS questions in the analysis. 3.8 Comparisons among questions Grades given for the 11 questions (Figure 3.14) reveals that only one question (Surveillance infrastructure) received ?good? compliance score for 13 countries. Of the 41 countries, 12 developing countries received fail grades on all the 11 questions. It is also disturbing to note that almost half of the countries had a bad performance on 9 out of 11 questions in the analysis. Overall comparison of results shows that both developing and developed countries 76have problems in compliance with MCS issues even after three decades of economic progress in the post UNCLOS period. The analysis also reveals poor compliance with drafted fisheries regulations for most of the developing countries, although developed countries with better resources and infrastructure should have shown better performance. The results from the current study are in agreement with Mora et al., (2009) study which revealed that only 17% of the world?s EEZs have proper enforcement in fisheries. 77Infrastructure Vessel inspections AllNew_Zealand 7 7 9 8 5 5 6 9 9 7 6 7Namibia 7 6 5 9 9 7 6 5 8 8 7 7Iceland 8 7 9 9 3 6 6 9 6 5 6 6Australia 8 7 8 5 7 7 8 6 6 5 6 6Norway 8 7 6 8 7 7 5 8 8 7 0 6USA 8 6 7 7 7 7 6 7 5 4 6 6Canada 8 6 6 6 6 6 6 7 6 6 6 6Sweden 7 6 5 4 4 5 4 8 7 5 8 5UK 7 6 5 7 4 6 7 6 5 4 4 5France 7 6 5 7 2 6 5 5 4 5 5 5South Korea 8 5 4 3 2 5 4 6 7 5 6 5Japan 8 5 5 5 3 4 6 3 6 4 4 4South Africa 7 5 0 7 4 6 5 5 4 5 3 4Malaysia 7 6 4 2 0 6 5 4 6 5 5 4Argentina 8 4 4 7 5 5 5 4 2 3 3 4Chile 6 3 4 6 3 2 4 4 4 5 3 4Peru 4 4 6 6 4 4 5 4 3 3 2 4Madagascar 4 3 3 8 5 3 3 5 3 4 2 4Mauritania 6 4 0 4 2 5 4 5 4 4 2 3Mexico 5 3 6 5 3 4 1 3 3 3 2 3Brazil 5 4 3 3 2 4 3 4 4 3 4 3Taiwan 7 6 0 4 2 5 3 4 4 1 0 3Russia 6 4 1 5 2 5 3 3 2 4 2 3Angola 5 3 4 5 4 3 4 3 3 3 0 3Ecuador 5 3 0 6 3 3 3 2 2 3 1 2Morocco 5 4 3 2 2 3 2 3 3 3 1 2China 7 6 2 3 0 2 4 2 2 1 0 2Indonesia 3 4 3 4 0 4 2 2 3 0 0 2Sri Lanka 4 3 2 0 0 4 2 2 2 3 0 2India 6 4 0 0 0 3 6 1 0 0 0 2Myanmar 4 2 0 1 2 4 2 3 2 0 0 2Cameroon 2 2 0 4 0 4 0 2 2 3 1 2Thailand 5 3 0 1 0 4 3 0 3 0 0 1Philippines 2 2 0 2 3 2 1 2 2 1 1 1Ghana 2 1 3 3 0 1 0 1 3 1 0 1Bangladesh 3 2 0 0 0 2 1 2 3 0 2 1Guinea 2 2 0 2 2 2 1 1 0 4 0 1Nigeria 2 1 0 0 0 1 2 2 1 2 0 1Sierra Leone 2 2 0 0 2 2 1 1 0 1 0 1Cambodia 3 3 0 0 0 2 1 0 0 0 0 1Viet Nam 2 2 0 0 0 2 0 1 0 0 0 11 2 3 4 5 6 7 8 9 10 11 Figure 3.14: MCS grid showing number of ?good? and ?fail? scores for each question by country. 41 fishing countries were rated against 11 questions in two fields for expressing compliance with MCS issues. Green indicates ?good? compliance rating, orange denotes moderate scores, while red denotes ?fail? compliance ratings. The numbers 1 to 11 at the bottom of the figure show the 11 questions that were scored for compliance with MCS issues. Rightmost column shows overall MCS rating. 783.9 Chapter 3 summary In chapter 3, I used a rapid analysis approach to identify compliance with monitoring control and surveillance in marine fisheries of 41 nations. I designed a questionnaire with 11 questions for this purpose. Attributes for the design were derived from a wide range of international laws such as UNCLOS, FAO Code of conduct for responsible fisheries, UN fish stocks agreement, UN Fish compliance agreement and the IPOA on IUU fishing. 41 countries landing 87% of the world?s fish catches were evaluated in this chapter. Of the 41 countries landing 87% of the world?s fish catches, none received ?good? scores of 70% and over, with only three countries (Namibia, New Zealand and Norway) achieving ?good? scores for more than 50% of the MCS questions. Three developed countries (Iceland, Australia and USA), received good scores for 37% of the MCS questions, and have taken bold initiatives in recent decade to improve MCS compliance in the fisheries sector. Twelve countries (Cambodia, Bangladesh, Guinea, Nigeria, Sierra Leone, Ghana, Sri Lanka, Indonesia, Myanmar, Philippines and Vietnam) received ?fail? grades on all the questions. Most of the developing countries showed poor performance (?fail? grades), with Malaysia being the only exception to show good performance for some questions. Further, the current study shows that even among the developed countries, issues such as high seas fleet monitoring, dock-side monitoring, fishing gear violations and unreported transshipments have been poorly addressed. Limitations in the current work were overcome by contacting regulatory and monitoring agencies to get information for areas that had no publicly available information. However, 79some countries had shortage of information for attributes like number of dockside inspections per year, number of aerial and sea based patrols per year. Accuracy of scores and reliability would increase once such information is provided for research similar to mine. Confidentiality has been cited as one the reasons but many developed countries like USA, Australia and New Zealand stand as good examples, which provide information, related to MCS in fisheries and other countries can replicate such measures. Access to data and reliability of scores due to access are given in Appendix C. In an ideal setting, monitoring control and surveillance act as deterrence to illegal activities such as smuggling, drug trade and illegal fishing. However, it would be impossible to achieve this level of MCS effort as these operations rely on military assets, which have different priorities in different jurisdictions during different periods of the year. Rarely, can a country?s navy or coast guard use 100 per cent of its assets for one particular sector or marine resource crimes like illegal fishing. MCS is an expensive endeavor (Arnason et al., 2000) and many developing countries with low affordability and meager patrolling assets can rarely patrol beyond a few miles from the shore (Pramod 2011). According to one MCS expert (Respondent 199), costs of enforcement vary with government budgets, which vary by year, by sector and by how much money they make from sectors like fisheries. To minimize costs, such as rising fuel and manpower costs, patrols at sea are prioritized depending on previous sightings of illegal fishing vessels in different jurisdictions or use at-sea patrols in such jurisdictions when aerial patrols detect any violations (Anon pers comm., 2010). Research on fishers behaviour can also be of immense help as their decision 80to comply with rules can be influenced by plethora of factors such as regulations, sophistication of their boats, market prices and abundance of fish stocks (Ludwig et al., 1993; Wilen et al., 2002). Cases of accidental incursions by small artisanal craft from neighbouring countries need to be treated with utmost sensitivity and the recent agreement between Indonesia and Malaysia (accidental breach of maritime borders by traditional boats of 5-10 gross tons will not be prosecuted) is a step in the right direction (Satriastanti 2011). 81Chapter 4: Illegal marine fish catches in the Indian Exclusive Economic Zone 4.1 Introduction This chapter sets out the interview methods used to assess illegal and unreported fish catches in the field trip to India. Then illegal catch issues in each state from Gujarat in the Arabian Sea to West Bengal in the Bay of Bengal are reviewed in detail. Subsequent sections describe estimates of a number of categories of illegal fishing, namely - Illegal fishing by Indian trawlers in inshore waters allocated to artisanal fishers; Illegal fishing in offshore waters off India?s EEZ; and illegal catches by foreign joint venture chartered tuna longliners. Taking advantage of previous local contacts, language and knowledge of the coastal areas of India, in a 7?month field visit22 from May - November 2008, information that may be used to make a complete estimate of fishery extractions, including illegal and unreported landings was undertaken. Nine of the ten coastal states of India were visited, including the Andaman Islands. Methods used were over 200 confidential interviews, gathering of grey literature reports and direct observations. The purpose of the field trip was to get estimates of illegal and unreported catches from India?s long and often inaccessible 22 The trip was sponsored by the UBC Cecil and Kathleen Morrow Scholarship for 2007, by the Department for Environment, Food and Rural Affairs (DEFRA), UK Government, as part of global analysis of illegal fishing, with partial funding by MRAG (UK, as relating to a core area of interest) and partly by NSERC (through Prof. Tony Pitcher). 82coastline to improve current estimates of total catch statistics from both mechanised and subsistence fishery sectors. 4.2 Categories of illegal and unreported catches assessed in the 2008 field trip Overall definitions of the various categories of illegal and unreported catches are provided in Chapter 1, pages 4 to 8. These are expanded here for the particular case of Indian marine fisheries. 4.2.1 Illegal fish catches categories in the Indian EEZ Illegal fish catches in the Indian EEZ, come from three categories of fleets and these estimates are discussed in detail in chapters 4, 5 and 6. Illegal catch categories discussed in chapters 4 (Indian mainland) and 6 (Andaman and Nicobar Islands) include: (a) Indian trawlers fishing illegally in the 0-8 km coastal zone allocated to artisanal fishers in the eight coastal states; (b) Illegal fishing by foreign fishing vessels in the Indian EEZ; (c) Illegal fishing by Chartered foreign fishing vessels operating under License of permission (joint venture agreement with Indian companies); (d) Illegal fish catches through use of illegal fishing gear in the mechanised sector (Use of illegal mesh size in trawl fishing gear and fishing in closed areas), and small-scale fisheries (use of illegal fishing gear in various small-scale sector such as gillnets, fishing within marine protected areas, fishing during closed seasons etc.). 4.2.2 Unreported fish catches categories Unreported fish catches in the Indian EEZ, come from both mechanised and non-mechanised categories of fleets and these estimates are discussed in detail in chapters 5 (Indian mainland EEZ) and 6 (Andaman and Nicobar Islands). A brief discussion of 83various categories of unreported catch is provided here with more detailed explanation is given in chapter 5. Unreported catches discussed in chapters 5 and 6 include: (a) Discards23 from commercial trawlers and chartered foreign joint venture tuna longliners (part of the fish catch from each haul that are not retained onboard trawlers, and discarded at sea due to small size or low market prices); (b) Post harvest losses (catches that are dumped due to spoilage after landing, due to heat, pest infestation, during processing or transportation of fish to the markets); (c) Subsistence fisheries catches from coastal habitats (catches by fishermen in inshore habitats such as beaches, estuaries and creeks for consumption at home each day, without intention to make a profit through sales); (d) Glut catches (Catches during certain seasons or part of year, when landings are plenty and catch is thrown at landing centres due to low market demand); (e) Molluscan catches (Shellfish catches for meat consumption, ornamental trade and for use in lime industry for cement production); (f) Take home catches of trawler crew (Catch that is divided among crew after each trip at fishing ports as an incentive and taken for consumption at home); (g) Fish consumed by trawler crew at sea (Portion of the fish caught at sea that is consumed by crew at sea during 1-12 day fishing trips); (i) Take home catches of artisanal fishers 23 Although Regulation 5, of the Maritime Zones of India Rules 1982, states that the ?crews may not discard surplus catch,? this regulation is never enforced in Indian fisheries. In the current study of illegal and unreported fish catches in Indian EEZ, discards are unambiguously treated as a category of unreported catches, as government officials in both Federal and State Government of India, stated during interviews in 2008, that discards are not considered ?illegal?, but rather as a category of unreported catches. 84(portion of the landed catch that is taken home after each fishing trip for consumption at home); (j) Reef based subsistence fish catches (Catches caught in coral reefs and reef based habitats for consumption at home and survival on a daily basis); (k) Bait fish catches (Fish that are brought for use as bait for catching tuna and sharks in the longline; hooks and line gear sectors); (l) Fish gleaned at landing centres (Fish that is dumped at landing centres due to depredation by sharks and other predatory fish); (m) Dryfish landings (Dryfish that is dried on top of fishing trawlers and landed after each fishing trip in fishing ports); and (n) Fish directly sold to tourist resorts and restaurants (Fish that is sold by fishers to restaurants and tourist resorts directly without formal reporting at landing centres in Andaman islands). As the 6 million fisherfolk (Ministry of Agriculture, India, website, 2006) are spread over approximately 8100 km of coastline, the main foci of the interviews were to (a) derive estimates for subsistence catches in the small-scale sector, and (b) in the mechanized sector estimates of discards, fish meal landings and take home catches of crew members. Illegal catches by foreign fishing vessels as well as domestic trawlers were also estimated through interviews with trawler crews and enforcement officers. Literature was also collected from State fisheries departments, central government agencies, industry records, fisheries journals and newspapers. Special emphasis was given to collecting grey literature as well as publications of IGO?s like the Bay of Bengal Programme. 85Table 4.1: Interviews conducted and places visited for estimation of IUU catches in the Indian EEZ24. The only maritime state not covered through the field visit was Goa and the union territory of Daman and Diu. Information from Lakshadweep islands is under review and not covered in this thesis. State Name of small-scale and mechanized fish landing centers / fishing ports Number of Interviews conducted Small-scale Mechanized Gujarat Porbandar, Veraval, Jamnagar, Kutch, Bhavnagar, Okha 10 12 Maharashtra Mumbai, Thane, Ratnagiri, Raigad, Malvan 9 9 Karnataka Malpe, Mangalore, Karwar 12 14 Kerala Cochin, Kasargod, Kannur, Neendakhara, Munambam, Trivandrum, Kovalam 11 18 Tamil Nadu Tuticorn, Chennai, Pulicat, Rameshwaram, Pamban, Mandapam, Nagapattinam, Cuddalore, Kanyakumari 11 14 Andhra Pradesh Suluru, Nizampatnam, Kakinada, Machilipatnam, Visakhapatnam, Bheemunipatnam 18 12 Orissa Paradeep, Chandipur, Chatrapur, Puri, Bhittarakanika 11 11 West Bengal Calcutta, Roychowk, Digha, South Parganas 11 9 Andaman islands Port Blair, Diglipur, Wandoor, Mayabundar 7 4 Total 100 103 24 Table 4.1 provides a list of places visited during the IUU trip, but several interviews were also conducted with government officers and enforcement personnel to get an in-depth picture of the extent of IUU catches in Indian EEZ. Data from such sources is cited as (Anon, pers. comm.) or Respondent No: X, etc. for confidentiality reasons. 86 Figure 4.1: Map of India. Map showing nine coastal states and offshore islands (Andaman and Nicobar Islands). The thin grey line outside the map represents the EEZ boundary. Image Source: (Hand drawn: Pramod Ganapathiraju). Image not to scale. 874.3 Interview methodology A semi-structured questionnaire25 was used to determine the amount of illegal and unreported fish caught and landed by artisanal fishers (hook and line, gill nets, traditional gears) and mechanized trawlers in India. The illegal catches estimation looked at infringement of trawlers into the 5-12 mile fishing zone, which is reserved for the artisanal sector by the Government of India?s Fisheries Laws. Interviews through the questionnaire helped to determine the total percentage of illegal and unreported catch in India?s marine fisheries sector. For example, any fish caught by a mechanized trawler within 5 nautical miles from the shore is illegal as this zone is reserved for artisanal fishers. However, it is pertinent to mention that although fish catches in the artisanal zone are illegal, it is not categorized as unreported in this study as all this catch is landed in Indian fishing ports and forms part of reported catch through CMFRI and FAO. Interviews with artisanal fishers regarding activity by trawlers in their 5-8 km zone helped in determining illegal catches from the industrial sector (See Table 4.2 and 4.3 for results of this analysis). For the artisanal sector, interviews with fishermen on take home catches (any fish catch not sold and retained for consumption at home after fishing trip), recreational catch by part-time fishermen and catches from remote fish landing centres which are presently poorly monitored by government officials were used in determining unreported catches. The latter are not illegal, but are rarely reported correctly. 25 Approval for the IUU Study questionnaire was provided in 2008 by UBC ORS Ethics certificate (H08-00618) from UBC Behavioural Research Ethics Board awarded prior to undertaking the study in India. 88A snowball approach was used in contacting fishers. Since most of the fish landing centres are in remote locations. I worked with 1-3 field assistants in each state?s port/ fishing location (both mechanised and artisanal landing centres). Myself and field assistants went to the main fish landing centres in each village and asked people engaged in fishing randomly whether they would be willing to participate in this survey. If they agreed, we informed them the purpose of our study through oral consent, as most of the fishers are illiterate. If they gave us permission, we then asked them the questions in the questionnaire. Each maritime state has designated fish landing sites for small-scale fisheries and fishing harbors for large mechanized trawlers operating beyond 5-12 nautical miles. For small-scale fisheries in each State there are numerous landing centers at district level. Interviews with small-scale fishers were conducted in at least 10 per cent of landing centers in each district. The landing centers were chosen randomly along the coastline to give a broader picture of fishing activity in each district. For example, if there are 16 designated small-scale landing centers numbered 1 to 16 from South to North, landing centers numbered 1, 5, 10, 15 were chosen for the study to uniformly cover required number of interviews throughout the coastline. Some of the constraints in choosing landing centers included access by road, and ability to get there at least on a two-wheeler. Each participant was interviewed for approximately 30-60 minutes once during the survey26. 26 Chapters 4 and 5 provide illegal and unreported catch estimations from the Mainland Indian EEZ (which includes the nine coastal states from Gujarat on the West Coast to West Bengal on the East coast of India). Illegal and unreported catches for Andaman and Nicobar islands is presented separately in Chapter 6. 89The present study also shed light on the extent of poaching by foreign trawlers in Indian EEZ from 1960 to 2009. Interviews with boats skippers from Gujarat, Maharashtra, Kerala, Orissa, Tamil Nadu, and West Bengal gave estimates of illegal fishing by Thai, Pakistani, Sri Lankan and Taiwanese trawlers in the Indian EEZ. These estimates are of immense value, as very few paper records exist of poaching especially during the 1960-1980 period. On the East Coast of India (Bay of Bengal) interviews with deep sea fishing vessel skippers revealed the locations of Thai and Taiwanese poaching vessels with certainty as foreign trawlers were frequent invaders of Indian coastline, fishing as close as 3-9 nautical miles of Orissa, West Bengal and Andhra Pradesh during the 1970-1985 period. Estimates of number of poaching vessels arrested and average catch per illegal vessel were derived from apprehended vessels in the GIUFI database. A conservative estimate of illegal fishing was derived using Government and media reports (Anon 1976; Anon 1980; Rao 1981; Dan 1982; Anon 1990; Rao 2009) during 1970-1980, with estimates from arrested vessels and vessels observed poaching in the GIUFI (2010) database giving more reliable and independent illegal catch estimates for 1970-2009. Interviews from my survey in 2008 served as anchor points for estimates of illegal fishing vessels observed in different jurisdictions during the 1980-2008 periods. For estimations of illegal catches by foreign fishing vessels (FFV) illegal catch found onboard apprehended FFV?s was used (Number of vessels arrested / year X mean illegal catch per vessel (by flag) = Total illegal catch for arrested FFVs. This estimate was in turn multiplied with number of vessels that were observed poaching per year (Vessels observed poaching but were not arrested). Finally estimation of illegal transshipments by 90Chartered LoP (License of Permission) tuna vessels was added to get total illegal fishing catches in mainland Indian EEZ / year from 1960-200927. The upper and lower confidence limits were derived from interview data and enforcement records collected during the 2008 trip28. 4.4 Brief reports of the study areas for assessment of illegal catches West coast (Arabian Sea): 52 interviews were done with trawler crew and 42 with small-scale fishermen in the coastal states of Gujarat, Maharashtra, Karnataka and Kerala. Interviews were undertaken by primary author (Pramod) and field assistants hired and trained by him for this purpose. A total of 14 field assistants were hired for this period29. In the small-scale sector, interviews were conducted with fishermen operating gillnets, hook and line, trammel gill nets, and Cast nets. In the mechanized sector interviews were conducted with skippers and crew of demersal trawlers, longliners, and gillnetters. 27 The illegal catch provided here represents IUU Fishing estimates for Mainland Indian EEZ in Arabian Sea and Bay of Bengal. Estimation of IUU fishing catches for Andaman and Nicobar islands is presented separately in Chapter 6. 28 Pramod, G. (2008) Field trip to eight maritime states and offshore island territory of Andaman and Nicobar islands for estimation of illegal, and unreported marine fish catches in the Indian EEZ, May to November 2008. 29 See Pramod (2010) for names of Field Assistants. 914.4.1 Gujarat Gujarat has 1600 km30 coastline with 164,183 km2 continental shelf supporting 18,369 mechanized vessels and 11,784 non-mechanized vessels. The State has 263 marine fishing villages, with 59,889 fisherfolk operating along its coastline. Trawlers, gillnetters and dol-netters are the main fishing craft in the mechanized sector while plank-built boats and canoes figure more prominently in the artisanal sector (CMFRI 2005a). Trawlers target sciaenids, ribbonfish, lobsters, shrimps, etc., and contribute 71% of the total catch, while gillnetters target pomfret, seerfish, tuna and sharks; and dol-netters (tidal bag-net) land 19%, with the remaining 10% are landed by dugout boats and canoes with outboard motors and non-mechanized boats using gillnets (Zyundheen et al., 2004). A good account of marine fisheries in Gujarat is given in Shiyani (2002); Johnson (2001); Praveen et al., (1998) and Devaraj et al., (1998). Fishermen in Porbander and Veraval stated that they are forced to go further and take risks in Pakistani waters as most of Gujarat?s coastal waters are polluted leaving fishermen with no option but to go farther offshore to catch fish or trawlers which fish along northern Gujarat waters where waters are relatively unpolluted with more catches per each haul, but this as such leaves them vulnerable to arrests in Pakistani EEZ (As Respondent 5, 11, 9, 10 state: when there is little fish in local waters and no GPS or other 30 ?All coastline distances are quoted with a feature size of 1 km?. The feature size of kilometre (km) was used in chapters 4 to 6, as length of the coastline are measured in km in most of the Indian government documents. See (Weisstein, Eric W. \"Coastline Paradox.\" From MathWorld--A Wolfram Web Resource. http://mathworld.wolfram.com/CoastlineParadox.html). 92equipment it is hard to say whether we are in Indian waters, it is important to know that we use landmarks as guidance points for locating fishing grounds and we were rarely caught for intruding into Pakistani waters in the past; nowadays we are forced to go offshore as far as 4-8 hours away from shore to catch fish and with no visible landmarks it is hard to say where you are when you are arrested. We often see Indian coast Guard vessels guiding us away from maritime boundary waters, but they can?t guide us throughout the year.? Respondents 9, 11 and 14 stated that some fishers do inadvertently cross Indian waters as Pakistani waters are relatively unpolluted and less trawled compared to Indian waters ?Most of Indian boats that fish along Indian maritime border are trawlers while bulk of the observed fishing activity along Pakistani waters is conducted through gillnetting, so their waters are more rich with fish like ?Lal Pari? (Nemipterus species; Threadfin breams) which fetch higher price in the Indian markets31.? Respondent 3 stated that the disputed nature of maritime boundary along the Indo-Pak border also often confuses fishermen as there are several cases where local boats from Indian side near Rann of Kutch were apprehended far inside Indian waters barely a kilometre from the fishing port. Respondent 14 stated that there were several instances in the past where several innocent 31 Most of the apprehended Indian trawlers and boats were from Jakhau, Porbandar and Okha. In the last decade most of the fishing activity has moved north due to pollution and declining catches in central and southern Gujarat waters. Operating in close proximity to the Indo-Pak border exposes them to apprehensions by Pakistan?s Maritime Security Agency, especially due to disputed nature of Indo-Pak maritime boundary in Rann of Kutch. 93Indian fishing vessels were reportedly detained by Pakistan?s Maritime Security Agency (MSA) whenever Pakistani fishing boats were arrested in Indian waters, alluding to reciprocal arrests. Gujarat ranks second among the top three marine fish producers in India. The bulk of the catch is exported due to low local demand in the state. The Gujarat Fisheries Act, 2003 is the primary legislative act responsible for protection, conservation and development of fisheries in territorial waters of the state. Section 4(a) of the Act prohibits use of fishing gear with less than 40 mm mesh size at the cod end portion. However, interviews with fishers revealed that almost all trawlers (95%) use one of the smallest mesh sizes in the cod end of trawl net (8-18 mm) essentially resulting in recruitment overfishing. A recent study by Mohamed et al., (2010) shows similar trends with cod end mesh size of Gujarat trawlers as low as 20 mm indicating poor compliance with fisheries regulations. Estimates of illegal catches by trawlers in the 5 nautical mile artisanal zone give an estimate of 740 to 1,130 tonnes for Gujarat. Intrusions by trawlers into the artisanal zone were reported in Kutch, Jakhau, Jamnagar, Bhavnagar, Bharuch and Valsad districts. Fig 4.2 provides details on the number of Pakistani fishing boats detained for illegal fishing in Gujarat waters (Indian EEZ). 94051015202530351975 1976 1979 1980 1981 1982 1983 1984 1985 1986 1987 1988 1989 1990 1991 1992 1993 1994 1995 1996 1997 1998 1999 2000 2001 2002 2003 2004 2005 2006 2007 2008 2009Number of vessels arrestedYear Figure 4.2: Number of Pakistani fishing boats arrested in Gujarat (India). Number of Pakistani vessels detained for illegal fishing in Indian waters (1975-2008), Source: GIUFI Database (2010). 4.4.2 Maharashtra Maharashtra has 720 km coastline with a continental shelf of 111,512 km2 supporting 23,508 fishing crafts of which 13,053 are mechanized, 3382 were motorized and 7073 non-motorized. The State has 406 marine fishing villages with 65,313 fisherfolk operating along its coastline. Trawlers, gillnetters and dol-netters are the main fishing crafts in the mechanized sector (CMFRI 2005b). Small-scale fishermen in Thane and Mumbai districts have reported illegal incursions by multi-day trawlers into dol-net fishing grounds. Fishermen reported that such illegal incursions have resulted in declining catches of pomfrets, shrimps and Bombay duck in recent years. Estimates drawn from interviews with fishermen reveal that illegal catches 95by trawler intrusions into inshore traditional grounds amount to loss of 1100 to 1800 tonnes each year for the artisanal sector. Maharashtra notification Section 4 of the Maharashtra Marine Fishing Regulation Act, 1981 dated October 13, 1999 states that purse seine gear should not been operated by any mechanized vessel within 12 nautical miles from shore. However, fishermen reported that compliance with this notification is lackluster due to absence of enforcement by state government agencies. Moreover, Maharashtra Notification dated 12th December 1997 affirms that no trawl gear should have less than 35 mm mesh size for trawlers operating in territorial waters of Thane, Mumbai, Raigad and Sindhudurg district. However, it was reported during interviews that most of the vessels operate trawl gear with mesh size between 15?25 mm, which is far less than the regulatory requirements. 4.4.3 Karnataka Karnataka has 300 km coastline with continental shelf of 27,000 km2 supporting 15,655 fishing crafts of which 7577 were traditional non-motorized craft, 3705 were motorized and 4373 mechanized vessels (2515 trawlers; 1254 gillnetters) CMFRI (2005c). Trawlers, gillnetters and purse seiners are the main fishing vessels in the mechanized sector while plank built boats and canoes are the main fishing craft in the artisanal sector. No previous estimates were available for comparison with the above estimates hence estimates from the current IUU trip are the best available estimates for discards in Karnataka. The Karnataka Marine Fisheries Regulation act requires all mechanized 96trawlers operating along the coast to use a cod end mesh size of at least 30 mm. However, most of the trawlers were using 10-15 mm cod end mesh size resulting in indiscriminate capture of juveniles of fish and shrimps. This has also contributed to substantial discards during the monsoon season. Illegal fish catches by trawlers in the inshore traditional zone result in annual loss of 1200 - 1950 tonnes (based on interviews with small-scale fishermen along Karnataka coast). 4.4.4 Kerala Kerala has 590 km coastline with continental shelf of 36,000 km2 supporting 29,177 fishing crafts of which 5504 vessels were mechanized, 14,151 motorized and 9522 non-motorized fishing crafts. Of the vessels operating along the Kerala coast, trawlers comprised (72%), ring seiners (8%) and gillnetters (7.8%) in the mechanized sector (CMFRI 2005d). Since the early eighties overfishing in coastal waters has been witnessed in both mechanised trawl and motorized boat sectors (Kurien 2005). Further, unsustainable exploitation in backwaters and inshore fishing grounds is pushing both subsistence and motorised fishermen towards destructive fishing practices (Kurien and Achari, 1990; Harikumar and Rajendran 2007). Dynamite fishing has also been reported in some jurisdictions (Lal Mohan 1991). Previous studies also indicate that there are several gaps in collection of landings data. ?There is no organized system of collecting landings and effort data, and the available estimates seem so very crude. ?The present scale of unregulated fishery in the backwaters could be gauged from the quantity of young 97shrimps being caught at various points by the filtration fishery (Chemmeen kottu)? (Kalawar et al., 1985). The exact number of vessels being inducted into the fishery in the mechanised and motorized sectors also remains uncertain as large numbers of them are being constructed without permission from the authorities (Harikumar and Rajendran 2007). Under Notification No. 448, dated February 18, 1986 of the Kerala Marine Fishing Regulation Act, 1980 the use of mid water trawl and bottom trawl gear with less than 35 mm stretched mesh is prohibited while fishing in territorial waters of the State (Kerala Government, 1986). Kerala Gazette No.10, dated March 11, 1986 also prohibits use of bottom trawl gear from sunset to sunrise in specific areas of the coast. Kalwar et al., (1985) reported that random inspection of mesh size from trawlers operating in Shaktikulangara revealed that most trawls were operating 20 mm mesh size in the cod end. A recent study by Kurup and Radhika (2004) found that 80% of trawlers engaged in shrimp trawling use cod end mesh size of 18 mm, while the remaining 20% used mesh size varying from 20-25 mm. In this fieldwork it was found that shrimp trawlers use a mesh size of 10-20 mm, which indicates a further decline in cod end mesh size to target even smaller sized juveniles of shrimps and fish. Violations by trawlers into waters less than 20 m depth (reserved for traditional fishermen since 1980) have been reported since the inception of inshore artisanal zone (Kalwar et al., 1985). In the late eighties, mini trawlers were using a cod end mesh size of 10-12 mm, against the required mesh size of 20 mm (Vijayan et al., 981990). In this fieldwork, enquiries with crew of mini-trawlers revealed that they are now using cod end mesh size of 8-12 mm, which indicates a further decline in mesh size for the 4000 mini trawlers operating along the Kerala coast. Stake nets are using mesh size of 10-12 mm and ring seines use 7-9 mm, which further illustrates a drastic decline in mesh size, resulting in recruitment overfishing of both fish and shrimps in their nursery grounds. Estimates of illegal catches by trawlers in the 5 nautical mile artisanal zone give an estimate of 2100 to 3320 tonnes for Kerala. Intrusions by trawlers into artisanal zone were reported in all the coastal districts with higher frequency of violations in Allepey, Ernakulam, Kozhikode, Kollam and Kasargod districts. A ban on purse seining was initiated in the eighties to prevent loss of livelihood for traditional fishers, which led to design of an improvised new gear called ?ring seine?, which works in a similar fashion was developed from a traditional seine gear. The new net is 450 to 1000m long and employs up to 50 crew. This also led to development of larger plank built boats32 (?Kettu Vallam?), which were fitted with up to 3 outboard motors of 40 HP (40x3 =120 HP). Although these boats are far larger than the specifications for a traditional motorized fishing boat as per KMFRA 1980, they continue to operate ring seines during the monsoon ban, under the traditional motorized sector. Blatant violation of mesh size regulations is evident in both mechanized and traditional 32 These boats were largely improvised for use in small-scale fisheries to catch sardines during fishing ban period for larger trawlers and purse seiners operating from fishing harbours. Although the scale of fish catches and size of fishing vessels are quite high with bulk of operations taking place on a commercial scale, the Kerala Government has done little to prevent misuse and overcapacity in the ring seine fishery. 99sectors, with purse-seiners, ring seine (Statutory requirement 20 mm), and bottom trawlers (Statutory requirement 35 mm) having a mesh size of 8-15 mm, which is far less than the statutory requirements under the Kerala Marine Fishing Regulation Act, 1980. Of the 1727 stake nets operating in Cochin backwaters, 794 are licensed stake nets and 933 are illegal stake nets in operation (Thomson and Berkes 2006). Reliable estimates of unlicensed nets are hard to determine as several reports in the past also indicate that unlicensed nets are up to three times the number of licensed nets operating in Cochin backwaters (Kalawar et al., 1985; Anon 2007d; Pramod 2010). Using estimates from this fieldwork, it was found that if we take the legal statutory requirements of the Kerala Government, almost 90 % of the 1727 stake nets are engaged in illegal fishing33, as majority of these nets do not follow the distance and mesh size34 requirements as well as illegal operation of nets during high tide35. Removal of illegal stake and Lift nets (also called Chinese dip nets or Cheenavala in Kerala) by the Fisheries Department has been met with stiff resistance by fishers in backwaters, so in recent years no action has been taken on illegal nets in operation. According to Thomson (2003) there 33 Section 19 of Government water rules 1974 regarding fishing in Government waters stipulates that the distance between two stake nets in a stake line shall not exceed four meters and distance between two stake line shall not be less than 50 meters. 34 As per Travancore- Cochin Fisheries Act (1950) allowed mesh size of stake nets is 20 mm. 35 Section 22 of the Government Water Rules 1974 ?ruled that stake nets should not operate during flow tide (high tide)?. 100are more illegal nets (stake and Chinese dip nets) than licensed nets. Using catch information of average stake net catches/year, it is estimated that around 1119 to 3732 tonnes of illegal shrimps and fish are landed by these (assuming 933 illegal nets are in operation) stake nets within Cochin backwaters. This figure of illegal catch can range from 1864 to 6216 tonnes if we assume that 90% of nets are operating illegally in Cochin backwaters (adding illegal catches from mesh size, distance and operational requirements defaulters calculated for 1554 illegal stake nets in operation). According to Vijayan et al., (2000) there are 17,724 stake nets in the state of Kerala and 90% of the stake nets have cod mesh size of less than 13 mm (George et al., 1998) against statutory requirement of 20 mm. Assuming that 54% of stake nets operating in Kerala are illegal and unlicensed from the above figure (Thomas and Berkes 2006), this would give an estimated illegal catch figure of 11,484 to 38,280 tonnes per year for 9570 illegal stake nets in the State. The State Fisheries Department is responsible for monitoring and enforcement of fisheries regulations in backwaters, but it is neither equipped with the appropriate infrastructure or manpower for these tasks. According to stake net fishermen, Fisheries Department officials never inspect or enforce any rules within backwaters. The history of non-compliance with fisheries regulations in backwaters goes back to several decades, with as many as 3131 unlicensed dip nets operating against 1692 licensed nets; 3887 unlicensed versus 12900 stake nets in the year 1989 (Nair 1989; Pauly, 1991; Srinivasan 2006). Fisher?s in many sections of the backwaters stated during interviews that they do comply with informal rules governed by Sanghams (Fisheries Society), which prevent them from using stake nets at high tides. 101However, Thomson (2003) states that most of nets located near bar mouth, Thevara and Aroor operate even during high tides. Previous studies also indicate that there are several gaps in collection of landings data. ?There is no organized system of collecting landings and effort data, and the available estimates seem so very crude. The present scale of unregulated fishery in the backwaters could be gauged from the quantity of young shrimps being caught at various points by the filtration fishery (Chemmeen kottu)? (Kalawar et al., 1985). The exact number of vessels being inducted into the fishery in the mechanised and motorized sectors remains uncertain as large numbers of these vessels are being constructed without permission from the authorities (Harikumar and Rajendran 2007). Low penalties coupled with corruption and lack of regular monitoring has been cited as major reasons for continuance of illegal fishing in Cochin?s estuaries (Srinivasan 2005). East Coast (Bay of Bengal): 61 interviews were conducted with trawler crew and 51interviews were done with small-scale fishers in the coastal states of Tamil Nadu, Andhra Pradesh, Orissa, West Bengal and the island territories of Andaman Islands. A total of 16 field assistants were hired for conducting interviews during this period. In the small-scale sector, interviews were conducted with fishermen operating gillnets, hook and line, trammel gill nets, and cast nets. In the mechanized sector interviews were conducted with skippers and crew of demersal trawlers, longliners, and gillnetters. 1024.4.5 Tamil Nadu Tamil Nadu has 1076 km coastline with continental shelf of 41,000 km2 supporting 54,420 fishing crafts of which 24,448 were traditional non-motorized craft, 22,312 were motorized and 7618 mechanized vessels (5256 trawlers; 2361 gillnetters, purse seiners, liners, dol-netters) CMFRI (2005f). Catamarans (63%), plank built boats (34%) and dugout canoes (3%) are the main fishing craft in the artisanal sector. With the exception of mesh size violations in the mechanised and small-scale sector and inter-sectoral conflicts between trawlers and artisanal craft, the majority of other fishery regulations are enforced well for fishing vessels operating in Tamil Nadu waters. Similar observations were made by Bavinck et al., (2008) who state that the closed season is implemented well in Tamil Nadu due to close co-ordination between mechanised boat owners association and the Fisheries Department. Interviews with fishermen in Rameshwaram, Mandapam and Tuticorn revealed widespread use of destructive gear such as inshore trawling gear ?Irratai Adi? which has caused immense damage to inshore reefs and sea grass beds. Estimates from this fieldwork on illegal catches by Indian trawlers in the 3-mile artisanal zone give an estimate of 460 to 1220 tonnes for Tamil Nadu. Intrusions by trawlers into artisanal zone were reported in Nagapattinam, Rameshwaram and Tuticorn districts. Fishermen often complained that compensation for damages of artisanal gear is very minimal or none in many cases. Small-scale fishermen complained that the mechanised boat owners associations do not compensate them unless they provide some evidence 103such as vessel name, registration number and area of incident. Often the compensation paid does not even for the travel expenses from their fishing village to fishing harbor, hence in many cases fishermen do not complain to the authorities, except the village councils. Overall analysis for all the districts in TN reveals that compensation is available for only 10-35% of the reported incidents, and the compensation is far less than the costs of actual damage to the gear and boats. 4.4.6 Andhra Pradesh Andhra Pradesh has 974 km coastline with continental shelf of 33,000 km2 supporting 41,039 fishing crafts of which 24,386 were traditional non-motorized craft, 14,112 were motorized and 2541 mechanized vessels (1802 trawlers) CMFRI (2005g). Trawlers and gillnetters are the main fishing vessels in the mechanized sector while catamarans (64%), and plank built (34%) are the main fishing craft in the artisanal sector. Illegal catches within this state waters are difficult to analyze, as fishermen are apprehensive about the use of information given to scientists. Estimates from this fieldwork on illegal catches by trawlers in the 8 km artisanal zone give an estimate of 1300 to 2600 tonnes for Andhra Pradesh. The exact number of unregistered mechanised trawlers operating in state waters is uncertain, but interviews with fishermen revealed that around 40-60 such mechanised trawlers operate in the state?s waters. Each unregistered trawler (10-14 metres OAL) catches around 66 tonnes fish per year (3 tonnes of fish per trip; 22 trips per year); so 50 trawlers would land around 3300 tonnes of fish per year. 104The State Fisheries Department has arrested some unregistered vessels in recent years (Anon 2008d). 4.4.7 Orissa Orissa has 480 km coastline with continental shelf of 26,000 km2 supporting 23,740 fishing crafts of which were traditional non-motorized craft, 4719 were motorized and 3577 mechanized vessels (1340 trawlers) CMFRI (2005h). Previous studies have not given any estimates on discards in Orissa?s marine fisheries. Hence, estimates of discards from the current trip are the best available estimates for this state. Illegal fishing violations ranged from mesh size violations, inter-sectoral conflicts between motorized fishing vessels and trawlers due to incursions into inshore artisanal zone. Estimates from this fieldwork on illegal catches by trawlers in the 5 km artisanal zone give an estimate of 2100 to 4100 tonnes for Orissa. Although Orissa has very few enforcement assets, the State Fisheries Department, Forest Department and the Indian Coast Guard have coordinated one of the best patrolling efforts along the Indian coastline to patrol and enforce fishing and marine regulations within marine protected areas here. The reason for existence of this level of enforcement in this State, while there is scarcely such effort in other coastal states of mainland India, is due to the presence of huge international and national media every year during the Olive Ridley turtle-breeding season. The coastline of Orissa?s has one of the single biggest Olive Ridley breeding and nesting grounds (locally known as ?arribadas?) in the Indian Ocean. Since mid-nineties, the issue of massive deaths of Olive Ridley turtles each 105year due to trawling in inshore waters esp., during turtle breeding season received huge media attention through conservation non-governmental organisations and government institutions such as Wildlife Institute of India. This led to announcement of several marine protected areas where fishing is banned every year in the stretch where olive turtles congregate to breed and then come ashore to lay eggs along the coastline. Both the state and federal government have announced regulations which prohibit fishing by both mechanised trawlers and motorized boats using gillnets and driftnets in these waters. The Forest Department undertakes patrols on shore and inland in rivers and near estuaries, while Coast Guard undertakes patrols at sea to apprehend any trawlers violating the conservation zone, which extends upto 20 km (The Orissa State Fisheries Department imposes ban on fishing up to 20 km from the shoreline from November 1 to May 31 each year). Majority of the trawlers violate this ban as the turtle-breeding season coincides with shrimp fishing season, so trawlers congregate in coastal areas to catch shrimps. In recent decades, the Coast Guard has also provided one patrol ship and aerial surveillance during the turtle-breeding season to help the Forest department in apprehending illegal fishing vessels. It is also perhaps the only state where mechanised trawlers are regularly arrested every year for fishing in inshore artisanal zone and Marine Sanctuaries (Gahirmatha marine sanctuary and Rushikulya marine conservation area). Some of the type of violations and arrests of fishing boats and trawlers are given in Appendix E. Majority of illegal trawlers were from Orissa and Andhra Pradesh (Appendix E, GIUFI (2010). Around 60% of arrested trawlers were from Andhra Pradesh, while the remaining 40% were gillnetters and trawlers from Orissa. Figures 106from Appendix E, show that around 50-70 trawlers were arrested in late nineties, with around 40-50 trawlers apprehended by Forest Department, State Fisheries Department and Indian Coast Guard patrol boats each in year during 2000-2009 period. Skippers on vessels arrested for illegally fishing in Orissa?s marine sanctuaries revealed that Coast Guard and Forest Department usually confiscate the catch and gear, before taking them to Paradeep port for prosecution in local courts. In most cases the vessels are kept in port for 1-2 months, and boat owners often have to pay fines ranging from Rs. 50,000 ? Rs. 90,000 (approx. US$ 1100 - 1500) to get their trawlers released, after paying such fines with police and local courts (Respondents 156, 162, 167, 171). 4.4.8 West Bengal West Bengal has 158 km coastline with continental shelf of 17,000 km2 supporting 18,646 fishing crafts of which 15,444 were traditional non-motorized craft, 1776 were motorized and 6829 mechanized vessels (610 trawlers) CMFRI (2005e). Gillnets, fixed bagnets, and shore seines are the main fishing craft in the artisanal sector. There is a growing problem due to illegal incursion of Bangladeshi fishing trawlers to fish in the West Bengal?s rich estuarine waters; very few such trawlers have been apprehended due to mangrove and creeks serving as hideouts for such illegal trawlers along Indo-Bangladesh border in the Sundrabans (Respondents: 178, 179, 186). Illegal fish catches by trawlers in the inshore traditional zone result in annual loss of 802 to 1920 tonnes (based on nine interviews with small-scale fishermen along West Bengal coast). Fishermen reported that due to intense patrolling by the Coast Guard, in recent years 107Bangladeshi vessels have been observed moving towards Orissa?s territorial waters. Both the Forest Department and the Coast Guard along the Orissa Coastline have arrested many such Bangladesh trawlers in recent years. 4.5 Illegal fishing by Indian trawlers in inshore waters allocated to artisanal fishers in coastal states of mainland India Interviews conducted during the 2008 field trip also revealed the extent of illegal fishing by Indian trawlers in the inshore fishing zone allocated to small-scale motorized and non-motorized fishers under the State Marine Fisheries Regulation Acts (MFRA). It is pertinent to note here that although catches by trawlers in the artisanal zone is illegal, the catches from this vessels are not considered unreported, as catches from all these trawlers is landed in Indian fishing ports and forms part of national fisheries statistics that is reported to UN Food and Agriculture Organisation each year. 108 Table 4.2: Violation of Marine Fisheries Regulation Acts by Indian trawlers in the artisanal zone. Results from interviews with small-scale fisheries in eight coastal states and 2 offshore island territories (Lakshadweep islands, Andaman and Nicobar islands). State MFRA Mesh size regulations violation rate Illegal intrusions of Indian trawlers into 5 nm artisanal zone Violations of foreign vessels into Indian EEZ (Number of vessels sighed per year) Small-scale Mechanised trawlers Gujarat - 85% 95% M 6-24 vessels / year Maharashtra Yes 80% 90% H 1-2 vessels / year Karnataka Yes 90% 100% M 1-3 vessels / year Kerala Yes 100% 100% H 1-4 vessels / year Tamil Nadu Yes 80% 95% M 8-16 vessels / year Andhra Pradesh Yes 85% 95% H 1-5 vessels / year Orissa Yes 80% 85% M 1-2 vessels / year West Bengal Yes 95% 90% M 12-16 vessels / year Andaman and Nicobar Islands No 65% 50% L 10-24 vessels / year Lakshadweep Islands No NA NA NA 2-5 vessels / year 91-100% mesh size violations 80-89 % mesh size violations 50-79% mesh size violations H High (Intrusions observed 76-100% of fishing days in an year) M Medium (Intrusions observed 50-75% of fishing days in an year) L Low (Intrusions observed less than 50% of the fishing days in an year) Table 4.2 shows result from interviews with small-scale fishers in the eight coastal states and 2 offshore island territories (Lakshadweep islands, Andaman & Nicobar islands). Table 4.4 shows the artisanal zone, which varies from 5- 8 km in the eight coastal states. Table 4.4 also shows the various State fisheries regulations, which prohibit trawling in the inshore artisanal zone. During the interviews in 2008, small-scale fishers were asked to mention the number of trawlers intruding into their artisanal zone each year (Pramod 2008). Analysis of interviews on illegal intrusions by Indian trawlers reveals that high 109level of incursions took place in Maharashtra, Kerala and Andhra Pradesh, with fishers reporting such incursions at least 75-100% of the fishing days in a year. Moderate level of trawler incursions (50-75% of fishing days in a year) into artisanal zone were observed in Gujarat, Karnataka, Tamil Nadu, Orissa and West Bengal. Table 4.3: Estimates of illegal catches by Indian trawlers in the artisanal zone36 State Illegal catches in tonnes / year Gujarat 740 to 1130 tonnes Maharashtra 1100 to 1800 tonnes Karnataka 1200 - 1950 tonnes Kerala 2100 - 3320 tonnes Tamil Nadu 460 to 1220 tonnes Andhra Pradesh 1300 ? 2600 tonnes Orissa 2100 ? 4100 tonnes West Bengal 820 ? 1920 tonnes Total 9820 ? 17,840 tonnes / year Please refer Table. 4.4. for details on area allocated to artisanal fishermen in each state 36 Please note that although these catches are ?illegal?, they are not assessed as unreported landings in the current study as they are reported through national fisheries agencies to FAO due to the fact that they are landed in Indian fishing ports and form part of national catch enumeration in all the coastal states. 110Estimates of illegal catches by Indian trawlers in the artisanal zone are given in Table 4.3. Data reveals that every year artisanal fishers in the eight coastal states loose around 9820 to 17,840 tonnes of fish catch every year, with Kerala and Orissa facing far higher losses of around 2000-4000 tonnes each year. These incursions not only result in loss of fishing gear and catches but also result in destruction of nursery grounds for smaller fish and shrimps, especially around creeks, estuaries and backwaters (Pramod 2008). Data collected through interviews with skippers of Indian deep-sea vessels in Table 4.2 also shows the violations by foreign fishing vessels in the Indian EEZ (Pramod 2008). High incursions of foreign vessels were by observed by fishers in Gujarat (6-24 vessels observed each year), followed by around 8-16 vessels observed in Tamil Nadu waters each year. Mesh size measurements were also undertaken in small-scale and mechanised sectors to see compliance of fishers to state and federal fisheries laws, which specify legal cod-end of the fishing gears (see Table 4.2, column 3 for more details on violation rate). Data from interviews shows that 80% of the fishing trawlers had smaller cod-end mesh size compared to the legal size, while the cod-end mesh size violations was far higher in all the remaining seven coastal states (90-100% of the gears had smaller mesh size than the legally specific size limits). Eleven respondents (59, 63, 65, 69, 72, 115,118, 124, 131, 156, 164) stated the incentives behind such incursions; intensity of trawling increased in late sixties largely to cater to export demand for shrimps in USA and Europe. During 1970-1990, seasonal incursions into inshore areas were reported during shrimp season when adults migrate to coastal 111waters, largely targeting shrimps for export markets. Due to decline in shrimp catches since 1990s, trawlers have been reportedly increasing fishing in artisanal zones both during post-monsoon season, when shrimps are abundant in coastal areas, as well as to target smaller species of fish and invertebrates for conversion into fish meal in the poultry sector. Prior to 1995, trash fish landed by trawlers along in Bay of Bengal fetched very low price as it was usually sold as fishmeal into poultry sector where demand was very low. Due to spike in aquaculture activity in late nineties, several fishmeal plants came up along the coast hence prices of trash fish landed in fishing ports of Bay of Bengal increased. Smaller trawlers in the Sona and Pablo category (10-15 m overall length) along Andhra and Orissa coast fished in waters within the vicinity of fishing ports (6-8 hour trips) to reduce operational costs and exclusively landed several categories of non-commercial fish and invertebrates for the fishmeal industry. 112Table 4.4: State-wise allocation for small-scale fishing craft in India. Marine Fisheries Rules and Marine Fisheries Regulation Acts mentioned in the footnote provide detailed explanation of zones allocated to artisanal fishers in 8 coastal states. State Zone allocated exclusively for Artisanal fishermen37 Relevant State Legislations Gujarat 5 nm from shore (9 km from the coast horizontally) 38Gujarat Marine Fishing Rules, 2003 Goa 5 km from the shore Goa, Daman and Diu Marine Regulations Act Kerala Area from the shore up to the 25 fathom line in the sea, along the coast line of the State from Kollengode to Paravoor Pozhikkara for a length of 78 kilometers; and the area up to 18 fathom line in the sea, along the coast line from Paravoor, Pozhikkara to Kovilthottam for a length of 26 kilometers; and the area up to 12 fathom line in the sea, along the coast line from Kovilthottam to Manjeswaram for a length of 486 Kilometers Kerala Marine Fishing Regulation Ordinance, 198039,40 Tamil Nadu 3 nm from the shore; No deep-sea fishing vessels shall operate at depths of 25 fathoms or below. Tamil Nadu Marine Fishing Regulation Rules, 198341,42 Andhra Pradesh 8 km from the shore (Contravention may lead to fine of Rs. 2,500 /- A.P. Marine Fishing Rules, 199543 37 Trawling by mechanised fishing vessels (trawlers) is prohibited within this zone 38 Gujarat Fisheries Rules, 2003, Gujarat Government Gazette Ex., 15-8-2003, Registered No.G/GNR/2, Vol. XLIV. 39 Government of Kerala Notification dated December 29, 1980, G.O.(P) 156/80/FandPD. 40 Government of Kerala Vol. XXIX No.1055 dated December 3, 1984, G.O. (P) 136/84/PW, FandPD. 41 Tamil Nadu Marine Fishing Rules 1983, Directorate of Fisheries, G.O. Ms. No. 993, Forests and Fisheries Department dated August 17, 1983. 42 Tamil Nadu Notification for Regulating Deep-sea Fishing Vessels, G.O. Ms. No. 166 dated 22.8.95. 43 Andhra Pradesh Marine Fishing (Regulation) Rules, 1995, Animal Husbandry and Fisheries Department, Registered No.HSE/49, July 23, 1996. 113State Zone allocated exclusively for Artisanal fishermen44 Relevant State Legislations Orissa Waters up to 5 km from shore allocated only for non-mechanised traditional crafts; Mechanised fishing vessels up to 15 m OAL beyond 5 km from the coast; Mechanised fishing vessels above 15 m beyond 10 km from shore Orissa Marine Fishing Regulation Rules, 198345 West Bengal Non-mechanised vessels up to 9 metres in length up to 8 km from shore (Zone A); Non ? mechanised vessels above 9 metres in length can only operate up to 20 km but not below 8 km from shore (Zone B); Mechanised vessels up to 15 m length are allowed to operate within 20 to 50 km from shore (Zone C); Vessels above 15 m length have to operate beyond 50 km from shore (Zone D) West Bengal Marine Fishing Rules, 199546 4.6 Illegal fishing in offshore waters off India?s EEZ One could say that India?s aspirations to generate economic profits from the marine sector gained momentum in the post UNCLOS period. Illegal fishing has been seen as a persistent threat to its sovereignty and maritime security. Poaching is an incessant problem along India?s coastline with its impact far difficult to assess in earlier decades from 1950 to 1980s due to absence of any concrete patrolling along its vast coastline (Peterson and Teal 1986). Growth in the domestic fisheries sector during eighties was largely hampered by lack of shore based infrastructure and short operational limit of fishing vessels to a few miles from the coast (Rao 1981). 44 Trawling by mechanised fishing vessels (trawlers) is prohibited within this zone 45 Orissa Marine Fishing Regulation Rules, 1983, Government of Orissa, Forest, Fisheries and A.H. Department, Notification dated January 10, 1984. 46 West Bengal Marine Fishing Rules, 1995, Calcutta Gazette, Magha 17, February 6, 1996, West Bengal Government Press, Alipore. 114 Figure 4.3: Estimated total illegal catch taken by foreign fishing vessels in the Indian EEZ. Estimated total illegal catch (t) taken by foreign fishing vessels in the Indian EEZ (1970-2009). The Red dotted line in the figure represents the estimated illegal catch that was confiscated from vessels that were arrested in Indian waters from 1964-2009. The lower and upper bound estimates were derived independently from IUU fishing trip interviews (Pramod 2008), surveillance data in GIUFI (2010), Industry and Government records of vessels that were observed poaching in Indian waters. Illegal catches for the period 1964-1982 are for foreign fishing vessels observed poaching within 12 nautical miles from shore. India declared six miles territorial water limit from the baselines on March 22, 1956. India extended its territorial limit to 12 miles on September 12, 1967. India passed the Maritime Zones Act on August 25, 1976 to claim a 200-mile EEZ and continental shelf. A detailed quantitative estimate of illegal catches from these foreign fishing vessels was calculated (Figure 4.3) using illegal catch confiscated from arrested vessels, number of arrested foreign vessels and number of vessels observed poaching by Indian small-scale and deep sea fishing vessel skippers and crew members (Respondents 3, 4, 7, 8, 10, 13, 14, 15, 17, 19, 23, 26, 43, 57, 61, 184, 189, 196). During the 1970-1980 period, foreign 115fishing vessels took at least around 15,000 to 50,000 tonnes of fish and shrimps in the Indian EEZ; in the next decade from 1980-1990, foreign fishing vessels illegally caught 35,000 to 90,000 tonnes of shrimp and fish stocks from Indian waters (Respondents 1, 13, 15). Poaching only declined in the post-1995 period (Respondents 13, 19, 23, 57, 64, 97) with catches in last decade from 2000-2009 showing illegal catches in the range of 10,000 to 25,000 tonnes probably as a consequence of improvement in monitoring control and surveillance by Indian Coast Guard limiting such incursions into the Indian EEZ. Some of the first reports of poaching in the Indian EEZ appear in Anon (1981), which gives a very good picture of extent of poaching by Thai trawlers off Andhra Pradesh Coast. Back then, the Coast Guard with its meager fleet did manage to catch 30 trawlers for the 1981-83 period, but invading trawlers by their sheer numbers truly outnumbered capability of patrolling vessels. The Indian Coast Guard started with a fleet of seven patrol vessels in 1973, before increasing its strength to seventeen vessels by 1983 (Mohan 1984). Some of the other constraints included Coast Guard having only one Fokker aircraft operating from Calcutta to monitor the entire EEZ in the year 1983, leading to severe gaps in air surveillance during this period (Mohan 1984). A deeper analysis of the illegal fishing vessels arrested and the information in GIUFI (2010) database reveals that during the 1950-1970 period majority of illegal and unregulated fishing occurred in three regions, i.e. the North West coast of India (Arabian Sea), central east coast of India (Bay of Bengal) and the Andaman and Nicobar Islands. 116During the 1950-1970 period illegal / unregulated fishing activity on the north-west coast was conducted by Taiwanese and South Korean trawlers mainly targeting shrimp, squids, cuttlefish and sharks off Maharashtra and Gujarat coasts; rock cods and shrimps off Kerala coast; Sri Lankan fishing vessels targeted groupers and sharks of Laccadives, Kerala and Karnataka coasts. During the same period, Thai and Taiwanese trawlers targeted shrimp stocks off Orissa, Andhra Pradesh and West Bengal, while the Japanese and Korean vessels targeted Yellowfin and Bigeye tuna off Orissa coast. Off the Andaman islands Thai, Korean, Russian and Taiwanese vessels targeted tuna, with each of these vessels (up to 400 GRT) catching up to 90 tonnes in the 2 month period, majority of these vessels operated up to 4 months in the Indian EEZ until 1972 (Respondents 3, 4, 7, 10, 13, 14); (GIUFI 2010). In the 1970-1990 periods, illegal fishing by Thai and Taiwanese trawlers was more prominent off Orissa and Visakhapatnam coast, manly targeting rich shrimp grounds between Puri (Orissa) and Krishnapatnam off the Andhra coast. (Respondents 15, 17, 19, 23, 26) reported that seasonal incursion of upto 50 Thai and Taiwanese vessels off Orissa and Andaman islands was existent even up to 1990, mainly targeting Yellowfin tuna and sharks. In the post-1990 period the rapid increase in patrolling capacity of Indian Coast Guard and continuous monitoring throughout the year through the Dornier aircraft acted as a significant deterrent in preventing incursions from Thai and Taiwanese trawlers. In the 1990-2009 periods, majority of the incursions were from Sri Lankan driftnetters and Bangladeshi trawlers in the Bay of Bengal, while very few incursions by Pakistani and Sri Lankan vessels have been reported off Arabian Sea. Majority of the Sri Lankan 117vessels targeted tuna in the Bay of Bengal while targeting both tuna and sharks off Lakshadweep islands. Bangladeshi trawlers targeted sciaenid and shrimp stocks off Orissa coast. According to small-scale fishermen frequent presence of Coast guard vessels and aerial patrolling resulted in apprehension of at least 80% of illegal vessels off Orissa coast, while 20% managed to get away as many of the Bangladeshi trawlers look similar to Indian trawlers operating off West Bengal and north Orissa coasts. Fishermen in Orissa reported that Indian coast Guard apprehended 95% of illegal tuna driftnetters cum longliners from Sri Lankan during the last decade, but the release of vessels after arrests provided massive incentives for the Lankan vessels to come back into Indian EEZ in subsequent years. 4.7 Discrepancies of foreign joint venture chartered tuna longliners Under the Maritime Zones of India Act, of 1981 Indian Coast Guard is the nodal agency responsible for monitoring chartered vessels operating under joint venture Letter of Permission (LoP) with Indian companies. Up to 1995 alone, 800 of these vessels were licensed to operate in Indian EEZ (Kurien, 1995). Management of foreign chartered vessels appears to be a problem for long with past reports stating the extent of the problem ?In India, there is no centrally planned fishery development programme, foreign owned vessels are inadequately supervised? (Peterson and Teal 1986). In recent years as many as 40-60 chartered joint venture tuna longliners have been operating in Indian waters. The joint venture vessels originally came from Taiwan, and operate under an Indian flag while fishing in Indian EEZ, while retaining their original vessel registration in Taiwan. The names of the original vessels are changed while fishing in Indian waters; 118so they have no IMO number and essentially engage in ?flag hopping?. The Association of Indian Fishery Industry has asked various government agencies to take action on the companies and vessels involved (Patnaik, 2008) with little impact as these vessels continue to fish in the Indian EEZ. Violations include dual registration47, under-reporting, illegal transfer of catches, failure to file shipping bills to Indian Customs listing the quantity of catch being taken out while exiting Indian EEZ, and violations of the Maritime Zones of India Act48 (Patnaik 2008; Pramod 2010). The modus operandi is explained below. The Government of India acquires the deep sea fishing vessels on ?deferred payment? under External Commercial Borrowing / Suppliers Credit. The original tuna vessel owner from Taiwan registers the vessels to a management company, and this company signs an agreement with the Indian company. The tuna vessel is then shown as vessel sold to Indian company on deferred payment. 10% of the down payment is made at the time of issue of the Letter of Permission (LoP) and the balance has to be paid in five equal installments. The conditions for the Indian company are that they should have a paid up capital of Indian Rupees 2,000,000 47 Section 435 of the Marine Shipping Act states that for a vessel to fly an Indian flag it should be registered under ownership of an Indian. 48 As per MZI Act, 1981 an Indian vessel means ? (I) a vessel owned by a Central Act or by a corporation established by a Central Act, or (II) a vessel (i) Which is owned wholly by persons to each of whom any of the following description applies: (1) A citizen of India; (2) a company in which not less than sixty percent, of the share capital is held by citizens of India; (ii) Which is registered under the Merchant Shipping Act, 1958, or under any other Central Act or any provincial or State Act?. 119(equivalent to US$ 43,478) whereas the amount of 10% payment works out to Indian Rupees 20,000,000 (US$ 434,782). To overcome this shortfall the seller of the vessel advances the money by the way of advance for tuna catch. This rotation of funds is only to get the necessary clearance to operate the vessels in Indian EEZ. In fact, these vessels are presumably operating through buyer and seller agreement on a commission basis, which violates the regulatory process itself (Anon, pers. comm. 2008; Pramod 2010). Interestingly, many of the personal sources (Academics, Government officers, enforcement personnel, captains of fishing vessels etc.) were very willing and keen to share their knowledge and information, but have expressed a clear preference for not being named, i.e., wanting to remain anonymous, usually out of concern for their job security. Throughout this chapter, I treat such concerns seriously, and cite ?anonymous? for such material. I also endeavor to use such information in a manner so as not to make the original source apparent. 4.8 Fishing in disguise: LoP tuna longliners in Indian waters Estimates of illegal tuna fish transshipments by Indian registered and foreign owned longliners was also estimated through interviews in 2008. Foreign-chartered tuna longliners are more than 20-40 metres in length, and well equipped to stay at sea for more 4-6 weeks. The majority of these vessels are Taiwanese owned along with a few Thai registered vessels in recent years. Former crew members from these vessels and Indian deep sea tuna industry officials allege that ?the original registration of these vessels are kept intact and the vessels are registered in some third country such as Tuvalu / Sierra Leone and all necessary documents are submitted to the Indian Registrar of Shipping for 120registering the fishing vessel as an Indian vessel under the Merchant Shipping Act. None of these vessels are registered with IOTC and after completing fishing in the Indian EEZ they claim that they are fishing in the International Waters, this again is a gross violation of the IOTC resolutions? (Respondent: 72). According to former crew members on LoP vessels, these tuna vessels under-report catches of yellowfin and bigeye tuna through the Indian companies and most of the Indian companies are aware of this plunder. LoP operator?s report US$ 2 / kg as price for tuna caught in Indian waters, while the same Yellowfin and bigeye tuna catch taken by Indian tuna vessels is sold at US$ 6-9 / kg. Further, the LoP operators report no value for by-catch (by-catch contributes 50% of total catch for each haul); while records from Indian tuna vessels show that by-catch fetches US$ 1.5 / kg. Indian tuna vessel operators who process their catch in shore based processing plants (OSP), with 2% hooking rate report that annual catch is around 235 tonnes / small converted tuna longliners, while LoP vessels with far higher capacity which engage in Mid-sea transshipment (MST) with 2% hooking rate can catch upto 576 tonnes / medium sized tuna vessel. Fishing crew working on LoP vessels (Respondents: 56, 61, 196 and 201) stated during interviews that on an average 24-60 m OAL vessel could fish continuously for 30-45 days. These vessels need to catch 260 tonnes / vessel / year to break-even and any catch above this amount will fetch profits. On an average these vessels catch up to 570-600 tonnes / year even at a hooking rate of 2%, of which the vessels make break even in less than 5 months, with any catch caught above this period fetching them high profits. Crew 121members interviewed during the survey also mentioned that LoP Tuna longliners report only 20% of the actual catch caught during the whole year through the Indian company. The information from interviews with crew on LoP vessels corroborates information from (Rao 2009, page 266.), which shows average 82.3 ? 181 tonnes reported catch / LoP tuna longliner, which does not even cover operating costs of the vessel let alone making profits from these operations. Miyake (2004) states that current economic break-even point for tuna longliners (regardless of fleet) is 250 tonnes of average catch per vessel / year. Recent reports from Indian Coast Guard in 2009 corroborate the extent illegal tuna transshipments by LoP vessels in Indian waters, with as many as 22 LoP vessels recalled by Coast Guard (Period: Nov 1, 2008 to Jan 31, 2009) for not fulfilling the conditions of LoP license and exiting Indian EEZ without prior clearance from Coast Guard and Indian Customs (Anon 2009e). According to the Association of Indian Fishery Industries, they have taken up these issues with the concerned investigating agencies and expect the Government to take action on Indian companies shortly. The vessels essentially engage in flag hopping as, they operate under an Indian flag in Indian waters, and use the Taiwanese flag in international waters, where they transship the tuna caught in the Indian EEZ. The tuna is eventually sold as tuna caught by Taiwanese vessels into Japanese markets. Recently, some of these chartered vessels have changed to Indian flag, as reflected by a sudden increase in Indian flagged vessels (Since 2005) in the Indian Ocean Tuna Commission (IOTC) authorized vessel list. However, several inconsistencies still exist with illegal transshipments and vessel licensing of Taiwanese tuna vessels operating in Indian EEZ. 122Some of the steps that can be taken to tackle this problem include implementation of observer scheme and vessel monitoring system (VMS) as part of license requirements for all foreign-chartered vessels operating within the Indian EEZ. The VMS can provide much needed information for Coast Guard to check discrepancies in IUU fish catches, while observers onboard the tuna vessels can help to counter check transshipments at sea. This is essential, as bulk of the chartered tuna vessels operating in Indian waters do not land their catches in Indian ports. 4.9 Troubled waters: Indo-Sri Lankan illegal fishing problem No problem has received as much media and political limelight as the Indian trawlers caught for poaching in Sri Lankan waters. The large numbers of trawlers operating from southern Tamil Nadu have contributed to the problem. Increase in capacity did not pose any problem as the shrimp boom on the Indian side of Palk Bay and Gulf of Mannar lasted until the mid-eighties. The export-oriented overseas demand for shrimp led to more investments in building new trawlers, increasing the capacity. But, when the catches declined in late eighties, instead of curtailing the overcapacity trawler operators on the Indian side found rich grounds on the other side of maritime boundary in Sri Lankan waters. As these waters were relatively unexploited due to the Tamil problem in northern Sri Lanka, the Indian trawlers frequently entered Sri Lankan waters and fished for shrimp and finfish. The problem of incursions was widespread with many casualties on Indian side as the Indian trawlers were frequently fired upon by Sri Lankan Navy gunboats trying to prevent these incursions; they saw these trawlers as potential smugglers of fuel and other supplies to the Tamil-controlled northern Sri Lankan territory (Respondents 63, 12365, 66). In spite of frequent casualties, boats continued to operate until late nineties, when the incursions declined due to huge naval presence by both the Indian Coast Guard and Sri Lankan Navy (Respondent: 72). The Government of India has taken some action in this direction by giving tokens to fishing trawlers from Palk Bay and other northern areas, which requires them to return from fishing within a specific time period, thereby preventing any incursions into Lankan waters. In recent years the problem of incursions appears to be more prominent from trawlers operating from Rameshwaram. There is no quick fix solution to the problem of incursions by trawlers from Rameshwaram due to three reasons. As aptly stated by one crew member on trawlers operating from Palk Bay ?These trawlers are owned by commercial interests and are not worth anything if they don?t fish; no one would buy them for a dime even if they wish to sell them? (Respondent 66). The second incentive for fishing crew to take risks is that their daily incomes are linked to amount of catch they bring after each trip, and as prawns fetch a higher price, occasional incursions into Lankan waters might yield higher returns. The third biggest disincentive in terms of catch per vessel appears to be overcapacity of trawlers, which are more than thrice the number of vessels that can bring in good catches from the shrimp grounds of Palk Bay and Gulf of Mannar on the Indian side. Estimates from 2008 interviews reveal that around 15-80 trawlers from Rameshwaram entered Sri Lankan waters for up to 3-9 months in a year, especially during lean periods but these incursions have declined since 2006 due to massive naval presence on both sides of the maritime boundary. 124Anon (2004b) and other documents state that up to 150 Indian trawlers might be fishing illegally in Sri Lankan waters for up to 150 days in a year. The Indian trawlers reported in such activities are 28-46 foot long. Vivekanandan (2004) states that up to 2500 Indian trawlers fish illegally in Lankan waters. According to Anon (2004c) the State Government of Tamil Nadu cancelled 4 fishing licenses, imposed fines of Rs. 391,000 and suspended licenses of 603 trawlers for violating the maritime boundary. According to NEERI (2004) around 900 boats (motorized and non-motorized) operated from Rameshwaram on alternate days, and per boat catch ranges from 20-25 kg prawns and 600 kg fish. Interviews with fishermen in Tamil Nadu on the Indo-Sri Lanka maritime border revealed that, previously, illegal fishing was undertaken for profit, mainly targeting shrimp, while in recent times accidental incursions into Sri Lankan waters is for survival due to declining catches in Indian waters, overcapacity and inability of smaller trawlers from Palk Bay to fish in neighboring coastal states of mainland India. Indian fishers in Palk Bay and Mandapam stated that accidental incursions of fishing vessels from both countries occur on a regular basis into each other?s waters. Based on interviews in the present study (Respondents: 93, 97, 103, 104 and 109), the problem of illegal fishing in Palk bay and Mandapam are likely due to three reasons. Firstly, the government of India has tried to solve the problem of incursions through increased patrolling along the international maritime boundary, instead of controlling the huge overcapacity of Indian trawlers operating along Palk Bay and Mandapam. The trawling grounds along the Palk Bay and Mandapam can hardly sustain fishing pressure from one third of the existing fleet. Fishermen from Palk Bay were of the opinion that since there is 125a narrow border separating India and Sri Lanka, accidental intrusions should be treated with utmost sensitivity through warnings, with crew and vessels being promptly released for such cases. 4.10 Incursions of Sri Lankan vessels into the Indian EEZ Sri Lankan longliners are also frequently caught by the Indian Coast Guard for illegally fishing for tuna and sharks in the Indian EEZ. During the seventies and eighties they were frequently caught off Andaman and Nicobar islands EEZ. During the period 1980-2000, they fished unhindered in Bay of Bengal, as there was virtually no fishing activity in offshore waters by Indian longliners in the Bay of Bengal. Starting in 2000, many Indian built trawlers were converted into tuna longliners to fish for tuna, which brought them in conflict with Indian LoP vessels and Indian owned medium sized longliners (Operating from Visakhapatnam and Chennai). But in recent decades Sri Lankan driftnetters have been caught all along the east coast of India (Bay of Bengal), while illegally fishing for tuna. Owners of Indian longliners who operate between 60-120 km off Andhra and Orissa coasts complain that Sri Lankan drift netters frequently steal their radio buoys, and damage their longlines (Respondent 71). The Indian Coast Guard frequently hands over apprehended vessels to Sri Lankan navy, but they come back in more numbers year after year to poach for tuna. A common understanding seems to exist between India and Sri Lanka, with illegal tuna vessels from Sri Lanka and illegal Indian shrimp trawlers operating in each other?s jurisdiction being arrested and handed over to each other?s Coast Guard?s on a regular basis. 126 Figure 4.4: Sri Lankan fishing vessels arrested in the Indian EEZ (1981-2010). Source: GIUFI (2010) Database. Information from Figure 4.4 shows that the number of illegal Sri Lankan tuna vessels operating in Indian waters has increased drastically, putting Indian tuna vessels at disadvantage. A recent media report suggests that almost all the multi-day Lankan tuna vessels that were caught illegally fishing for tuna in Indian EEZ during 2009 were handed over to Sri Lankan authorities (Anon 2010g). A deeper analysis of illegal fishing vessels arrested (GIUFI 2010) prior to 1990s in Indian EEZ reveals that majority of vessels were confiscated and seldom handed back to Sri Lankan authorities. In recent decades however, almost all the vessels have been released along with the crew although Indian Coast Guard caught them while they were engaged in illegal fishing in the Indian EEZ. A press release from Government of India revealed that 116 Sri Lankan fishing vessels were arrested in 2009 (Anon 2010h). The majority of the arrested vessels were multi-day tuna longliners / driftnetters. Data from GIUFI (2010) database reveals that more than 100 of these apprehended Sri Lankan vessels in 2009 are tuna long liners. So, the Indian 127government has lost (each multi-day Lankan tuna vessel has a current market price of US$ 58,000 per vessel) US$ 5,764,000 from 100 vessels, which were handed over to Sri Lankan authorities after arrests49. Return of illegal fishing vessels on both sides does not stand in good stead as majority of these illegal multiday tuna vessels in Sri Lanka and illegal fishing trawlers from India are owned by commercial interests (Basavaiah 1995; Amarasinghe 2001; Pramod 2010). Handing over of the apprehended crew on both sides is a good move to improving bilateral relations, but governments on both sides should confiscate fishing vessels implicated in illegal fishing to send a strong signal to the vessel operators. 4.11 Conclusion As aptly stated by India?s founding leader Mahatma Gandhi ?'There is enough for everyone's need but not for everyone's greed? commercialization of fisheries sector with gross disregard to laws and regulations has led to decline in Indian fisheries. There is no dearth of fisheries related regulations in each state (Marine Fisheries Regulation Acts), but implementation of these acts is virtually absent, except in the State of Orissa where serious attempts have been made in the last decade to implement fisheries and environmental laws in marine sanctuaries. The current study presents one of the first 49 Chapter IV of Maritime Zones of India (Regulation of Fishing by Foreign Vessels) Act, 1981 states that ?13. (1) Where any person is convicted of an offence under section 10 or section 11 or section 12, the foreign vessel used in or in connection with the commission of the said offence, together with its fishing gear equipment, stores and cargo and any fish on board such ship or the proceeds of the sale of any fish ordered to section (4) of section 9 shall also be liable to confiscation? 128estimates of illegal trawler incursions into the artisanal zone reserved for small-scale fishers in India. Moreover, such estimates are very valuable as enforcement responsibility for territorial waters lies with coastal states in Indian waters, with Coast Guard responsible for monitoring waters between 12 to 200 nautical miles EEZ zone. The study revealed that with the exception of Orissa, none of the other states conducted regular patrols or monitoring of 0-6 nm waters. Estimates of illegal fishing gathered from fishermen strengthen data on fisheries violations, as enforcement in these waters has traditionally been very low in Indian waters. Confidential interviews with enforcement staff have strengthened estimates for upper and lower bounds for illegal fishing catches and serve as independent sources for strengthening data estimates collected during the surveys. Illegal fish catches were very high in island territories, with most violators being foreign trawlers targeting sea cucumbers, trochus, shark fins and reef fish in the Andaman Islands, while shark fins and tuna were the target of poachers in the Lakshadweep archipelago. Patrolling was found to be inadequate in proportion to the length of coastline throughout the Indian coast. Interviews with enforcement staff in coastal states revealed that in some cases foreign poaching vessels possess far better monitoring radar equipment to spot patrol vessels as revealed by equipment on confiscated trawlers. The Government of India through state governments of respective maritime states implements a fishing ban during the monsoon every year. The ban lasts for 45-60 days with each state using a different time period or criteria such as advancement of monsoon 129as an indicator. Absence of a uniform ban period throughout the coastline has led to fishing trawlers of several states using this legal technicality to fish where fishing ban exists and land in an adjacent state where there is no ban. During interviews (36 Respondents), fishermen in Goa, Karnataka and Maharashtra (West coast), Orissa and West Bengal (East Coast) complained that the very essence of the fishing ban is flawed as vessels from neighboring states continue to catch from one state and land in another, leading to low catches during the post ban period. With most of the coastal states having weak enforcement, due to huge gaps in allocated infrastructure, manpower and monetary resources, illegal fishing persists through domestic fishing vessels in inshore waters. Moreover, it also leads to problems in reported catches where fish caught in one jurisdiction is reported as caught in another location. Mesh size violations have been prevalent in both commercial trawl fishery and small-scale fisheries along the Indian Coastline since the 1980s (Alagaraja et al., 1986; Anon 2000b), and the interviews from current study show a drastic decline in mesh sizes of fishing gears in all coastal states (inclusive of small-scale fisheries). Enforcement of mesh size regulations is dismal in all states; with Fisheries Departments in all maritime states being ill equipped to carry out surveillance or implementation of regulatory measures. To prevent overcapacity and misuse of trawlers from one state in another, trawlers from one state should not be allowed to operate in another state or use ports of neighboring states during fishing ban in their port of registration. In many cases it has been observed that a single trawler has been fishing in more than 3 states during different periods of the year. Respondents (7, 11, 23, 26, and 32) stated that trawlers often contravene the ban, by 130taking their vessels to neighboring states during ban in their port of registry, and returning after completion of ban period to fish in their state waters. But, most trawler owners rarely realize that this action is leading to depletion of the very stocks that are sustaining profits for them, as the bulk of the pelagic and demersal stocks along the Indian coastline are transboundary in nature. In some coastal states in India, registration is required for trawlers to operate and use port facilities in neighboring states, but vessel skippers often contravene such regulations through landings in small harbours. Since, the vessel monitoring system (VMS) does not exist in Indian fisheries, it is almost impossible for Coast Guard to monitor all the Indian trawlers that operate within its EEZ. The majority of coastal states, with the exception of Orissa, do not have patrol vessels to enforce a fishing ban. This fact assumes importance since fisheries departments of each maritime state are the primary enforcement authority in territorial waters (0-12 nautical miles). The Coast Guard in its present role is providing supplementary support in some states during ban period, but it is impossible for Coast Guard with its present budgetary constraints to monitor vast number of trawlers operating along the Indian coastline. Illegal fishing by domestic mechanized trawlers in the inshore artisanal zone has been reported in all coastal states of mainland India50. Skirmishes between trawlers and artisanal boats are increasing in most of the coastal states due to declining catches and frequent incursions by trawlers into nearshore waters. Skirmishes between subsistence 50 The area up to 5 nautical miles from shore is reserved for artisanal fishermen (Non-motorised fishing craft) in most coastal states of mainland India under the Marine Fishing Regulation Acts (MFRA). 131and motorised fishing boats have also been reported in the past, often leading to exclusion of one group or the other (Dutt, 1972; Shankar 2001; Aklekar 2011). Interviews were also conducted with Indian fishermen operating along the Indo-Pakistan and Indo-Bangladesh maritime boundary to understand the reasons for frequent arrests of fisherfolk on both sides of the border. Declaration of 5-10 km, ?no fishing? zones on both sides of border along Indo-Pakistan and Indo-Sri Lanka regions can help in preventing accidental intrusion of small-scale fishers into each other?s jurisdiction. Indian fishermen in Gujarat stated that marker buoys with flags could help in preventing accidental intrusions into Pakistan and vice versa. The no fishing zone along Indo-Bangladesh border along Sundarbans assumes more importance as piracy-related incidents have witnessed an increase on the Bangladeshi side and Border Guards were of the opinion that banning fishing activity along this region would help in controlling such activities and cross-border illegal trade of commodities by sea route. The next chapter extends the IUU analysis based on field interviews to the small-scale sector. 4.12 Chapter 4 summary The 2008 IUU field trip interviews revealed that decline of the fish resources has come at a bad time for most small-scale fishers as they are already under tremendous pressure from industrial development and pollution (due to dumping of sewage and wastes from cities) in the coastal zone. This displacement is two pronged: 1324.12.1 Internal displacement Phase 1: Faced with declining catches and an uncertain future many fishers have been forced to move to other states to work as crew onboard trawlers. Majority of the displacement had occurred from East coast to the West Coast. Fishermen from Andhra Pradesh nowadays work as crew on trawlers in Maharashtra and Gujarat. The decline of fish resources in one state, and eventual migration to another state has also decreased benefits for crew working on trawlers (for e.g. trawler crew in Gujarat and Karnataka stated that increasingly boat owners do not give them a share of profits from their catch as they have surplus crew available for work on a daily wage basis from East coast). Phase 2: Declining catches and low income has also increased the number of small-scale fishers who migrate to Andaman Islands in search of stable livelihoods. Interviews in 2008 revealed that displacement and migration to Andaman Islands increased in the past two decades. In the past, most of small-scale fishers who migrated to Andaman Islands were mostly from Northern Andhra (Srikakulam district). However, many fishers reported that net migration from other coastal districts along Andhra coast to Andaman Islands has increased. Although, migration to Andaman Islands from Tamil Nadu, West Bengal and Kerala has occurred in the last three decades, interviews in 2008 revealed that some fisher families have moved permanently to Andaman Islands due declining catches along several jurisdictions off the West Bengal and Andhra coast, although very few incidences of such increase in migration was reported along Tamil Nadu coast. 4.12.2 Displacement to foreign waters Due to easy availability of surplus fishing crew in the southern coastal states, many of these fishermen from Andhra Pradesh, Tamil Nadu and Kerala have been lured by agents 133to work as fishing crew in Middle East states of Bahrain, UAE, and Saudi Arabia. According to one respondent (23), as many as 18,000 Indians work as low-wage fishing crew in the Gulf States. Although, it is hard to know exactly how many people are employed in these countries. Conservative estimates from one recent source suggests a figure close to 25,000 (Anon 2011). Although, these low wage jobs can be seen a blessing for folks from fishing villages, they seldom work for more than a few years as; first, they have to pay a hefty sum to the agents to secure the job (mostly borrowed from money lenders); once they get a job, they work for an employer in unchartered waters, as they are not familiar about where they are fishing and if they are arrested what kind of action would be taken. In recent years, many such arrests of Indian crew have been reported for illegally fishing in Qatar?s waters while working on Bahraini boats. After arrests, the fishers usually look for help from employer, but since the frequency of arrests and fines levied is so high, employers rarely show interest, so the crew are forced to contact their families back home to pay the fines (Respondents: 32, 35, and 41). In most cases, Indian Embassies in Middle East countries pay the fines to get the crew released and repatriated back to India as their families back home cannot afford to pay fines (Anon 2011). 134 Figure 4.5: Map showing migration of fishing crew to Middle East countries. Red, green and blue lines shows movement of fishing crew from Andhra Pradesh, Tamil Nadu and Kerala to work as low wage fishing crew in Middle East countries. Figure 4.5 shows the migration of skilled fishing crew from the three coastal states of Andhra Pradesh, Tamil Nadu and Kerala. This migration of fishing crew to Middle East countries is due to loss of jobs associated with huge overcapacity in Indian trawl fishing sector. Many Trawler owners have stopped their operations due to declining profits and high operational costs in recent years. The skippers and crew from these trawlers have found jobs in Middle East countries through agents, as they don?t have alternate job opportunities in other sectors and work abroad to support their families back home. In the commercial trawl fisheries, political leverage by fishing boat owners coupled with lack of seriousness in prosecuting illegal fishing cases aggravate IUU problems along 135Indo-Sri Lanka and Indo-Pakistan maritime boundary. In cases, where foreign fishing vessels were arrested for illegal fishing, low prosecution rate has been identified as one of the main barriers to deterrence (Pramod 2010). Enforcement officials in India stated that in certain cases when illegal fishing vessels are arrested and taken to local courts, judges often fail to understand the gravity of the crime, and levy smaller penalties (Respondent: 36). Enforcement officials recommended that special tribunals or judges specially trained for environmental resource crimes should be attached to such trials along with a regular judge. Even, in cases where judges levied a heavy penalty to illegal fishing vessels from Sri Lanka, judgments were seldom enforced as a government order superseded the court?s order releasing all the vessels with the crew. ?Think about the plight of Coast Guard officials, who go to great lengths to catch and bring them to ports, but are forced to hand over the very illegal fishing vessels to Sri Lankan authorities without prosecution. They spend more time after arrest to escort them to Indo-Sri Lankan maritime boundary every time. They loose precious patrolling hours for escorting duties every time a Lankan vessel is apprehended. This is truly a mockery of maritime laws?(Respondent: 64). 136Chapter 5: Unreported marine fish catches of mechanised and small-scale fishers in the Indian exclusive economic zone 5.1 Introduction India exhibits a complex fisheries management regime due to numerous boats, fishers and a large EEZ, with varied management strategies employed in each coastal state and offshore island territories. This chapter is an attempt to explore the unreported catches from India?s coastal states using a survey approach. Taking advantage of previous local contacts, language and knowledge of the coastal areas of India, information that may be used to make a complete estimate of fishery extractions, including illegal and unreported landings and discards (IUU) was collected in a 7?month field visit in 2008. Nine of the ten coastal states of India were visited, including the Andaman Islands. Methods used were over 200 confidential interviews, gathering of grey literature reports and direct observations. The purpose of the field trip was to get estimates of illegal and unreported catches from India?s long and often inaccessible coastline to improve current estimates of total catch statistics from both mechanised and subsistence fishery sectors. The fieldwork was carried out over a period of seven months (May - November 2008). This chapter describes the unreported components of IUU estimated from the fieldwork completed, together with results that suggest a total annual Indian IUU in excess of one million tonnes. A detailed explanation of various unreported catch categories is given in Chapter 4 (see section 4.2, pages 82 to 84). Interview methodology and preview of study areas is provided in Chapter 4. This chapter sets out the interview methods used to assess 137unreported fish catches in the field trip to India. Then unreported catch issues in each state from Gujarat in the Arabian Sea to West Bengal in the Bay of Bengal are reviewed in detail. Subsequent sections described estimates of a number of categories of unreported fishing, namely ? Discards by domestic fishing vessels; Discards by chartered fishing vessels; Baitfish used in small-scale and mechanised sectors; Post-harvest losses; subsistence fisheries catches from mangroves, estuaries and coastal creeks; Reef based subsistence fish catches; Dryfish landings; unreported Molluscan catches; and Take home catches of artisanal fishers. 5.2 Discards 5.2.1 Discards by Indian fishing vessels Discards51 from domestic Indian trawlers have generally been reported as very low (Kelleher 2005, Bhathal 2005). However, in agreement with Davies et al. 2009, the current study is beginning to reveal that this situation is untrue and total discards may be in excess of 1,000,000 tonnes per annum in Indian marine fisheries. Significant quantities of discards have also been reported for Thai, and other foreign trawlers operating illegally in the Indian EEZ way back in the eighties (Dan 1982; Respondents: 53, 64, 91, 148) and this practice continues even today. Some recent studies have assumed that no discards exist for domestic 51 Although Regulation 5, of the Maritime Zones of India Rules 1982, states that the ?crews may not discard surplus catch,? this regulation is never enforced in Indian fisheries. In the current study of illegal and unreported fish catches in Indian EEZ, discards are unambiguously treated as a category of unreported catches, as government officials in both Federal and State Government of India, stated during interviews in 2008, that discards are not considered ?illegal?, but rather as a category of unreported catches. 138trawlers in India presumably due to burgeoning trash fish demand in poultry and aquaculture feed sectors in the last two decades. No concrete sources are given for Kelleher?s 2005 estimates; with the only two sources being cited as pers. comm. from Ministry in Delhi and MPEDA, Kochi. The current work uses information from foreign charter tuna vessels and discards from all maritime states of India. Moreover, previous studies have not taken into account the complex nature of trawling operations along the Indian coastline. Firstly, since the late eighties, there has been a massive increase in number of trawlers operating in all coastal states (See CMFRI 2005 Marine Fisheries Census reports for the eight coastal states); secondly, even within a single maritime state / fishing harbor there are two to five categories of trawlers (single-day, multiday, deep-sea trawlers etc.) which have different discard rates during different periods of the year; thirdly, there is significant discarding of pelagic fish during the monsoon season (glut discards) along different parts of Indian coastline in small-scale fisheries and this factor has not been considered seriously in any previous studies. Moreover, previous studies have made the assumptions of low discards based on a few case studies from certain maritime states, which have proved to have anomalous, discard rates. Based on my fieldwork, several issues correct these misconceptions: A) a majority of the maritime states do not have estimates of discards from trawlers operating along their coastal jurisdictions; B) a majority of the trawlers operating along Indian coastline do not have a large hold capacity and deck space to store trash fish landed for each haul or for the whole trip; C) declining catches of target species in trawl gears in the past two decades has led to 139increase in duration of each fishing trip, with trips increasing from 2 days to 10 days to compensate for declining catches; D) although the duration of fishing trips has increased, operators continue to use trawlers of the same hull size, so a concurrent increase in hull capacity has not occurred in relation to increase in duration of fishing trips; E) single day trawlers are the only class of trawlers capable of landing the bulk of trash fish caught in each jurisdiction, but they constitute only 15-25% of total trawlers operating along the Indian coastline (Pramod, Personal Observation. 200852). Regulation 5, of the Maritime Zones of India Rules 1982, is probably the only regulatory source stating how discards would be managed in Indian marine fisheries ?Crews may not discard substantial surplus catch, catch exceeding authorized quantities shall be retained onboard, recorded, and surrendered as required by authorized officers?. However, since its inception mechanized vessels have never abided by this law, and no records exist on huge quantities of discards dumped by trawlers at sea. Moreover, since there is no effective mechanism to monitor fishing vessels at sea, over the last three decades fisheries discards have been assumed to be low. Discards from marine fisheries sectors vary from one coastal state to another due to different levels of demand, availability of fish meal processing facilities, and variation in fishing days at sea (for mechanized trawlers in each state). Fishermen also reported that there was 52 Pramod, G. (2008) Estimation of Illegal, Unreported and Unregulated fish catches in India?s marine capture fisheries, Field Trip to eight maritime states and 2 island territories in India, May to November 2008, India. 140significantly high discarding in many states during rainy season compared to other times of the year. Discards for the west coast have been poorly quantified in previous studies. So, discards estimates drawn from the current trip are probably among the best obtained so far. On the East coast previous studies have only estimated discards from Central Bay of Bengal, with other maritime states having very poor or no estimates of discards. Malhotra and Sinha (2007) also state that there are no reliable estimates of discards in India?s marine fisheries. During the mid-nineties, discards from bottom trawlers were estimated to range from 15-36% of the total catch in Karnataka; 5-23% in Kerala and 4-14% in Tamil Nadu (Menon et al., 1996). Sathiadas et al (1994) estimate a discard rate of 5% for marine fisheries in India. FAO (2004) estimated that Indian trawlers have a discard rate of 2%, discarding 57,917 tonnes per year, which is very low compared to estimates from the present study. Discards from the trawl fishery were the least in Gujarat among all the coastal states enumerated in the IUU trip. The probable reason for the low discards is the high demand for trash fish in the local fishmeal industry. Rao and Kasim (1985) described the trawl fishery off Veraval coast. Discards estimated from Gujarat trawlers during the present survey suggest that only 2.3% of catch is discarded, mostly during the monsoon season (bulk of it coming from trawlers operating in Northern Gujarat), which probably represents the lowest estimate of discards among trawlers operating in India?s maritime states. Bostock (1986) made a similar note on trawlers operating along the Gujarat coast. His study showed that trash fish comprises 62% of the catch with none of it being discarded. Estimates from the current field trip suggest that trash fish comprised 81% of the total catch landed suggesting an increase in landings of lower value species. Gujarat sets a good example by landing bulk of the trash 141fish as both trawler owners and fishmeal plants have ensured a higher price for trash fish landed in this state compared to other coastal states in India. But, this study shows that Gujarat figures are not typical for discards in most of India. Interviews with trawler skippers (9 Respondents) reveal that discards range between 8-15% of total catches landed by trawlers for each trip in Maharashtra. The quantity of discards varies from season to season with substantially higher discards during pre-monsoon and post-monsoon periods when juveniles of fishes and shrimps constitute higher percentage of the catch. No discards have been reported for trawlers operating along the Mumbai coast in previous studies (Chakraborty et al, 1983). Substantially high discards have also been reported along the Raigad coastline due to the presence of plastic waste in trawl catches. Trawler skippers said that the problem is now so acute that they avoid some parts of coastline due to plastic wastes constituting as much as 30-45% of the total catch in every haul. Plastic creates immense problems during sorting as it increases the time afforded for sorting between each haul. Trawler skippers blame disposal of plastic waste into the Arabian Sea in Mumbai district for this serious problem. Discards estimated from interviews with trawler skippers and crew (14 Respondents) revealed that discards constitute 10-15% of total catches landed in fishing harbours of Karnataka. No previous estimates were available for comparison; hence these are the best available estimates for discards in Karnataka. The Karnataka Marine Fisheries Regulation Act requires all mechanized trawlers operating along the coast to use a cod end mesh size of at least 30 mm. However, most of the trawlers were using 10-15 mm cod end mesh size 142resulting in indiscriminate capture of juveniles of fish and shrimps. This has also contributed to substantial discards during the monsoon Season. Discards estimated from interviews (18 Respondents) with trawler skippers and crew revealed that discards constitute 15-23% of total catches in Kerala with the discard rate depending on the type of trawler, season and fishing grounds. Reduction in ring seine mesh size has led to glut in catches of juvenile sardines during some periods of the year, when oil sardines frequent coastal waters. Decline in prices during such periods has led to low market demand resulting in substantial fish discards as excess fish which cannot be dried, and are dumped in back-waters (van der Heijden, 2007). Interviews with fishermen (4 Respondents) operating in Cochin backwaters reveals the figure for ring seine discards during glut period of 1.8 - 3 tonnes oil sardines per year. Glut landings are a big problem off the Kerala coastline as its demand depends on domestic consumption, which does not increase much every year. Every 2-3 years there are very good oil sardine catches and during such glut periods, when market demand and price are less the bulk of the catch is discarded either at sea, in backwaters or at landing centres (Respondents: 43,47,48). Since the early eighties overfishing in coastal waters has been responsible for declining catches due to activities of both motorized and mechanized sectors (Kurien 2005). In backwaters and inshore fishing grounds this unsustainable exploitation is pushing both subsistence and motorised fishermen towards destructive fishing practices (Kurien and Achari, 1990; Harikumar and Rajendran 2007; Pramod 2010). 143Table 5.1: Discard estimates in the Indian maritime states from the present study. Estimated from interviews (see text) using number of vessels and discards for each trip in different vessel categories by 8 coastal states. In Maharashtra, trawlers operating from Mumbai landed 3-12 baskets (each basket is 25-40 kg) of trash fish in each trip with 10-35 baskets landed at Ferry wharf. Interviews revealed that during the monsoon Season from May-June, prawn and commercial fish are given more importance for storage, with 80-90% of trash fish being discarded at Sea during this period. Even for Multi-day trawlers, trash fish from the first 3 days is discarded at sea, and only 11-25 baskets of trash fish is landed at Sassoon dock for each trip. Single-day trawlers landed more trash fish compared to Multi-day trawlers during post-monsoon Season, but discards from these trawlers were also substantially higher during May-June when prawns and bigger sized fish were given more preference for storage onboard. In Gujarat, discards were much State Number of RespondentsAverage annual discards at-sea by mechanised trawlers and fishing boats (tonnes)* Range Lower Limit (tonnes) Upper Limit (tonnes) West Bengal 9 4440 1268 7612 Orissa 11 99247 67076 131,418 Andhra Pradesh 12 207,232 134,826 279,639 Tamil Nadu 14 212,969 179,274 246,665 Kerala 18 429,074 351,778 506,371 Karnataka 14 161,042 111,985 210,099 Maharashtra 9 90037 68807 111,268 Gujarat 12 690 360 1021 Andaman and Nicobar Islands 4 13200 9600 16800 Total 1,217,931 924,974 1,510,893 * Includes discards from Indian deep sea trawlers and chartered LoP trawlers 144less, due to high demand for trash fish in the dry fish industry and the presence of a large number of fish meal plants to process these catches. The high demand for fishmeal also meant that fishermen landing trash fish in Gujarat were paid more money to land these catches, which would otherwise be discarded at Sea. None of the other maritime states in India have such an organized system of trash fish collection and processing as in Gujarat (Fish meal plants also use wastes from sea food processing plants). In fact, overfishing by trawlers throughout the year in large numbers has led to drastic decline in catches of large commercial fish, but fishermen still manage to eke out a living by landing more quantities of trash fish, with trash fish compensating for a decline in commercial fish species. The development of trawl fisheries along the Andhra Pradesh coast is discussed in Sastry and Chandrasekhar (1986); Rao (1987, 1988). During the mid-eighties for every kilo of shrimp caught, trawlers operating from Visakhapatnam, discarded three kilos (Dwivedi 1987). He further estimated that fishing vessels operating from Visakhapatnam alone discard between 864 to 960 tonnes of fish every year. 60 tonnes of by-catch was discarded every year at Visakhapatnam fishing harbour during the same period (Dehadrai 1987). During mid-nineties, at least 11% of total by-catch was discarded by sona boats (Single day trawlers) operating from Visakhapatnam (Rao 1999). However, the estimate of Rao (1999) suffers from huge gaps as it was derived in an indirect way based on landings of prawns rather than direct data from vessels at sea. Salagrama (1998) estimated that trawlers on the east coast discard 26,000 to 50,000 tonnes each year. In the present study a complete estimate of discards from all trawler categories (Pablo, Sona and Deep Sea trawlers) operating from 145Visakhapatnam and three other fishing harbours and raised by the total fishing ports were derived using interview data. 5.2.2 Discards estimates from the current study Estimates of discards from the current study through interviews in 2008 (see Table 5.1 for detailed estimates of discards in the eight coastal states), suggest that every year around 1.2 million tonnes of fish (0.9 to 1.5 million tonnes) are discarded at sea, which equals to around 45% (Range of 32 to 53%) of the reported catches (India reported 2.8 million tonnes of fish catches to FAO in 2008). Results from Table 5.1 suggest that the state of Kerala had the highest discard rate with 430,000 tonnes every year, followed by Andhra Pradesh and Tamil Nadu with discards of around 200,000 tonnes. Results from the present study show that discards along the Indian coast have increased for two main reasons. Firstly, the numbers of trawlers operating along the Indian coastline have increased over the past four decades. Secondly, the duration of fishing trips (10-12 day trips) has also increased all along the Indian coastline, with trawlers along the Kerala, Karnataka and Maharashtra coastlines increasingly targeting deep sea stocks at 150-350 metre depth during most of the year. Longer fishing trips in deeper waters means that non-commercial species of fish and shrimps are encountered in larger numbers. Longer fishing trips also create problems for the operators of these trawlers, as they cannot store trash fish from all the hauls during each trip. The expansion of fishing into deeper waters is a positive development in terms of exploiting new fishing grounds. But, crewmembers of these trawlers mentioned that they are increasingly coming in closer range of foreign-chartered vessels operating under 146joint venture in Indian waters, which could lead to operational problems in future. In Kerala, each offshore gillnetter discarded between 3.1 to 3.5 tonnes by-catch / year. In all coastal states, Interviews with skippers and trawler owners revealed that fisheries department enumerators never collect data on discards at sea. Detailed estimates of discards from 8 maritime states and island territories are given in Table 5.1. Some of the most destructive and unsustainable fishing practices involved harvesting of larval shrimp (?seed?) from estuaries and backwaters along east and west coasts. Collection of shrimp seed was more prominent off Andhra Pradesh, Orissa and West Bengal compared to other coastal states. Interviews with dealers and shrimp seed collectors revealed the actual extent of catches and discards from this sector. Clearly, in most cases, interviews revealed that the number of people involved in harvesting shrimp seed has tripled or quadrupled in the last decade. This has resulted in more discards of finfish seed and reduction of tiger shrimp seed caught per collector per day, alluding to decline of shrimp seed resources. Although the collection is banned, it is openly practiced in estuaries of most coastal states of Bay of Bengal using push nets, bag nets and scoop nets. Shrimp farmers stated that they often brought wild shrimp seed, as they are more resistant to diseases than hatchery produced shrimp seed. The collection of shrimp seed from mangrove and estuarine areas might also be one the contributing factors to declining shrimp catches and one of the major reasons for failure of annual fishing ban as shrimp seed collection is a year round activity. It is also frustrating to see that neighboring countries like Bangladesh have come with progressive legislative and enforcement actions to ban seed collection in mangrove and estuarine areas, 147while a developed country like India with adequate regulatory and financial resources is merely witnessing the spectacle with little concern to eradicate this destructive practice. 5.2.3 Discards estimates from chartered LOP tuna longliners and Indian deep-sea trawlers During 1982-1983, 110 chartered or joint venture deep-sea trawlers operated in inshore waters along the South West coast, with a catch of 13 tonnes/vessel/day (Devaraj 1987). These vessels reportedly discarded 8 tonnes of catch / vessel / day, as they were targeting shrimps and discarding the bulk of the other catch. Using the above figure, an estimated 202,400 tonnes of fish were discarded by these vessels for 1982 and 1983 years (110 vessels x 230 days in operation x 8 tonnes discard /vessel). Once the limitation of fishing beyond 80 m depth was enforced in 1983, only 12 vessels remained. 120 Mexican trawlers (57!) were operating along the North East coast during the same period, primarily engaging in shrimp trawling in inshore waters. These trawlers likely discarded similar quantities of discards in the Bay of Bengal as they were targeting shrimps and lobsters for the export market. Foreign-chartered pair trawlers also operated in Indian EEZ from 1990 ? 1997, these trawlers also discarded around 100 tonnes of fish every year. The discards from Tuna longliners (LoP Chartered vessels) are significantly less, but interviews from crew members revealed that for some species like sharks only fins are retained (sharks comprise 5-7% of total catch), while the remaining by-catch species like seer fish, billfish are under-reported through Indian companies although they are transshipped and sold in foreign markets as Taiwanese products. Discards from these vessels ranged from 0.5- 1481.2 tonnes / haul (115 fishing days per vessel excluding transit time) according to crewmembers, which would amount to around 500-1600 tonnes of discards / year. Detailed quantitative estimates of discards by foreign-chartered vessels from 1982-2009 are presented in Table 5.2. which suggest that joint venture tuna longliners (LoP permit holders) discard around 2000 tonnes in the present compared to around 500-600 tonnes in eighties and nineties. 149 Table 5.2: Estimated discards by foreign-chartered trawlers and tuna longliners in the Indian EEZ. See section 5.2.3 for methods in the text. Year Stern trawlers Pair trawlers Tuna longliners Total (tonnes) Lower Limit (tonnes) Upper Limit (tonnes) 1982 328900 - - 328900 261230 456800 1983 239200 - - 239200 124860 298000 1984 35880 - - 35880 23000 39820 1985 17940 - 30 17970 12500 19800 1986 - - 300 300 260 480 1987 - - 150 150 90 230 1988 - - 240 240 160 380 1989 - - 900 900 600 1000 1990 29900 104 1740 31744 21890 38900 1991 38870 78 660 39608 24000 41200 1992 14950 78 690 15718 11900 18420 1993 8970 65 840 9875 7200 11920 1994 23920 65 510 24495 18900 32000 1995 14950 65 540 15555 12000 18420 1996 - - 540 540 360 782 1997 - - 570 570 360 782 1998 - - - - - - 1999 - - - - - - 2000 - - - - - - 2001 - - - - - 2002 - - - - - - 2003 - - 570 570 390 840 2004 - - 1110 1110 980 1460 2005 - - 1710 1710 1420 2100 2006 - - 1650 1650 1290 2980 2007 - - 1050 1050 890 1390 2008 - - 2250 2250 1860 3200 2009 - - 1800 1800 1680 2400 1505.3 Bait fish used in small-scale and mechanised sectors in Indian fisheries Bait fish used in hook and line and longline fisheries also remain unreported in Indian fisheries. In the present study interviews (18 respondents) with small-scale fishing boats and offshore gillnetters cum longliners revealed the actual extent of the bait catches. Kilograms of baitfish used per trip was multiplied into number of fishing trips per year to get total bait fish used in hook and line fisheries for each coastal state. Estimates from current study reveal that 4015 tonnes of baitfish is used every year. Baitfish used includes sardines, mackerels, pony fish, carangids and cuttlefish. Most of the bait fish catch is sourced from families and other fishers within the community. Often, neighbours and friends from within the fishing community gave bait fish as goodwill gesture, but sometimes fisher?s buy fish from other gillnet fishers during lean periods. In the commercial longliners operating from fishing ports, vessel owners paid money to buy bait fish from trawlers at fishing ports. See Table 5.3 and 5.4 for detailed estimates of baitfish used in each coastal state. Estimates from interviews in Tables 5.3 and 5.4 suggest that around 4300 tonnes of bait fish is used in Indian marine fisheries, with bulk of bait fish used commercial longliners from Tamil Nadu (bait fish used: 2900 tonnes); Bait fish use in small-scale fisheries was relatively low at 343 tonnes largely due to seasonal nature of hook and line and longline fishing in the artisanal sector. 151 Table 5.3: Bait fish used in commercial hook and line fisheries along the Indian coast. Estimates based on interviews in eight coastal states of mainland India. State Number of vessels Bait fish used (tonnes / year)53 Actual estimate LL UL Gujarat 4 8 6 12 Maharashtra 253 546 473 783 Karnataka 28 107 84 130 Kerala 10 108 95 137 Tamil Nadu 781 2905 2014 3701 Andhra Pradesh 20 49 35 64 Orissa 28 73 66 82 West Bengal 66 166 148 188 Total 1190 3962 2921 5097 53 Bait fish used in the commercial and small-scale hook and long line fisheries was calculated by multiplying (X) the number of vessels in each state (X) bait fish used per trip (X) total number of trips per year. The actual estimate as well as upper and lower limits was calculated using data collected through interviews in 2008. The average number of trips was 32 trips per year in commercial longline vessels (>10 m OAL) while it was around 29 trips per year in small-scale hook and line fisheries (using motorized traditional craft or FRP boats). Bulk of small-scale fisheries along Indian coastline use baitfish for catching pelagic fish (scombroids, tuna, sharks, marlins, etc.). 152Table 5.4: Bait fish used in pelagic small-scale fisheries using motorized boats. Estimates based on interviews in eight coastal states of mainland India. State Number of vessels in small-scale fisheries Baitfish used in small-scale fisheries (tonnes / year) Actual LL UL Gujarat 2 1 0 1 Maharashtra 31 6 4 10 Karnataka 46 5 3 7 Kerala 124 48 34 63 Tamil Nadu 102 33 25 46 Andhra Pradesh 386 222 152 345 Orissa 91 25 11 35 West Bengal 36 3 3 5 Total 818 343 233 512 5.4 Post-harvest losses There are also significant discards due to post harvest losses in fishing harbors? and jetties along the Indian coast. Interviews at 36 fishing harbours along east and west coast of India revealed that 1230 tonnes of fish processing wastes such as shrimp and fish heads are discarded every year (estimates from main fishing harbours only). Interviews with fishers in small-scale fisheries revealed that as much as 32,000 tonnes (see Table 5.10 for detailed estimates of post-harvest losses in Indian fisheries) is lost through pests and spoilage after landings. Such fish catches are buried in excavated pits or dried and used as manure in agricultural lands or as poultry feed. A couple of hundred tonnes of fish is lost in gillnet catches after landings in sardine and mackerel fisheries, where damaged fish are removed from gillnets after landings; which also includes depredated catch (leftover heads or partially eaten fish discarded at shore). Substantial quantities of post-harvest wastes are also discarded in the artisanal fisheries along fishing villages off both East and West coasts of India. For 153example, Immanuel et al., (2003) report that in Kanyakumari district of Tamil Nadu alone 608 tonnes (25-29% of body parts are discarded) of cuttlefish and squid wastes were discarded each year during 1991-93 period. Interviews revealed that significant losses occur through discards of glut catches during monsoon season (mainly sardines), when excess catches from remote landing centres in small-scale fisheries is discarded due to low market prices. During normal period such excess catch of pelagic fish is sun-dried and then sold in dryfish markets. But, if the monsoon period coincides with glut landings, fish prices go down, so excess catch is discarded as it is not economically viable to sell the fish in fresh fish markets, given the high transportation costs in relation to value of the fish. 5.5 Subsistence fisheries catches The present study is perhaps the first attempt to quantify the contribution of subsistence catches in Indian marine fisheries, while giving a glimpse of how vital they are to sustenance of fisher communities scattered along the Indian coast. Estimates shown in Tables 5.5, 5.6 and 5.10 suggest that each year, around 6700 tonnes of subsistence catches remains unquantified in Indian marine fisheries. Subsistence catches from mangroves, estuaries and other coastal habitats (See Table 5.6 for detailed estimates) constituted bulk of the unreported subsistence catch at 5200 tonnes, while the remainder 1500 tonnes came from reef based fisheries. Utmost care was taken during interviews to check with local authorities and fishers on whether their catches are assessed by local Governments or Fisheries Departments to avoid double counting. Often, it came to notice during interviews that subsistence fisheries catches are rarely quantified in India, due to low effort, unpredictable nature of fishing operations by season / year, lack of timing associated with fishing and variability of gears 154used. Interviews with government officials revealed that such catches are never accounted due to shortage of manpower and other reasons cited such as: they are considered as low, due to changing volume of fishers by season and more part-time fishers entering this sector in recent years. Interviews with fishers is beginning to unravel the true extent of catches from this sector as the survey revealed that traditional subsistence fishers are decreasing, and the existing ones are fishing for more days to compensate for rising food prices, poverty and lack of social security associated with this sector. ?Consumption is one known mean of indirectly assessing subsistence fishing? (Coblentz 1997; Leopold et al., 2004; Labrosse et al., 2006). The present study is also the first attempt to estimate take home catches from subsistence, small-scale, and trawl fisheries in India?s marine fisheries. Consumption of trawler crews at sea was also estimated for the first time through this study. Globally, subsistence fisheries have been defined and interpreted in different ways depending on the nature, context, harvests, and historical and traditional use of catches associated with this sector (Berkes 1988; Brach et al., 2002; King and Faasili 1998; Sharif 1986; Schumann and Macinko 2007). In the current study subsistence fisheries is defined as ?localized fishing in inshore habitats (backwaters, creeks, intertidal areas) using traditional gears like push nets, cast nets, hooks and line etc. primarily for consumption at home and survival on a daily basis, without intention to generate profit or intended for commercial sale purposes?. Often, subsistence fishers in India engage in fishing on foot without fishing boats, and even the ones that use small dugout/ plank built boats are only able for use them in shallow habitats and can 155rarely accommodate more than one person and a few kilograms of fish. The under-reporting of catches from mangroves, backwaters and estuaries is often ignored and considered insignificant due to lack of proper records of fisheries and other commercial activities in these habitats (Lakshmi and Rajagopalan 2000; Ronnback 1999; Untawale 1986; Macintosh 1982). Often, molluscan, fish and crustacean catches from mangroves and backwater creeks along the Indian coast are under-reported, as majority of these fishers are unregistered (traditional boats); possess no fishing boats; or fish from shore using fishing nets in waist deep waters using traditional gears like shore seine, drag nets, push nets and cast nets. The present study is an attempt to address under-reporting from this sector and provide a preview of degradation, and displacement of subsistence fishers due to conversion of these habitats for development. In the rapidly evolving Indian fisheries sector, economic benefits are being afforded more priority over the traditional use and long-term viability of coastal habitats like mangroves, salt marsh and backwaters. In coastal states like Gujarat, Kerala, Orissa and West Bengal, subsistence fishers of estuaries and backwater creeks have been displaced due to lack of property rights over these common pool resources. Often these marginal fishers suffer the most due to development activities, as fishing is the only source of livelihood among these communities. Lack of representation of these communities in both local and state agendas has also made them increasingly vulnerable to exploitation in the labour market. Most of these marginal fishers have stated that the number of people engaged in such activities has decreased in the last two decades due to indiscriminate land reclamation of mangroves and backwaters for industrial development, releasing of effluents leading to decline in catches in 156adjacent coastal waters (Kutch, Godavari, Vembanad Lake, Hooghly-Matlah estuary). Often fishers in these communities catch fish using traditional gears like traps, set nets and cast nets, which requires immense human effort to catch even a few kilograms of fish in a day. When catches are high, a part of it is sold by women in nearby markets and towns, while any remaining fish are dried for consumption during the lean season. Interviews during the survey revealed that prior to 1990; subsistence fishers engaged in fishing throughout the year, while in recent decades they find it difficult to eke out a living from fishing alone and are increasingly compelled to work as manual daily wage labour in construction, agriculture and aquaculture for certain periods of the year54. Often, the level of fishing effort varied by day, month and season. For example, in the state of Orissa and West Bengal, these fishers work in shrimp farms, with income from fishing in lagoons and intertidal waters during afternoon to evening period during summer. In rainy seasons when there is little shrimp farming, these fishers spend the majority of the time fishing, with occasional income from work in paddy fields during certain days. Women work as domestic help during day, drying fish and selling surplus catch in nearby markets in the evening. Women also engage in collecting shellfish for lime industries during certain days in a month. Children from these fishers work in shrimp farms, as crew on fishing boats and shrimp seed collectors. 54 Subsistence fisheries is also the only sector where I observed more old people engaged in such activities throughout the Indian coastline. Younger fishers hardly considered it as a worthy livelihood source in many coastal states. Most of the other activities in the fisheries sector where more old people were observed included mending of fishing nets and repairing boats. 157Table 5.5: Subsistence fish landings from major estuaries, backwaters and mangroves. Estimates based on interviews in eight coastal states of mainland India. State Subsistence catches by location in eight coastal states of mainland India (in tonnes / year)55 Total Catch (t) LL (t) UL (t) Gujarat Kutch (134 t), Jakhau (12 t), Nanalayja (4 t), Mandvi (3 t), Mahi estuary (1.2 t) 184 110 187 Maharashtra Ulhas estuary (1.6 t), Minor creeks and estuaries (2.1 t) 4 3 10 Karnataka Mulki estuary (12 t), Netravati-Gurupur estuary (64.2 t), Kali estuary (6.3 t) 82 61 108 Kerala Cochin backwaters (126 t), Vembanad Lake (82 t), Ashtamudi estuary (14 t), Poonthura estuary (12.6 t), Chettuva estuary (4.6 t), Minor estuaries (124 t) 363 222 520 Tamil Nadu Pondicherry mangroves (3.2 t), Vellar-Coleroon estuary (143 t), Aralar estuary (0.4 t), Kallar estuary (0.6 t), Muthupet backwaters (23.8 t) Manakkudy estuary (0.6 t), Muttukadu backwaters (9.3 t) 181 150 361 Andhra Pradesh Nuvvularevu (9.8 t), Godavari estuary (236t), Kandaleru estuary (3.2 t), Krishna estuary (63.1 t), Pulicat Lake (12.6 t), 325 251 568 Orissa Chilka Lake & Bhitarkanika estuary (838 t), Budhabalang estuary (32 t), Rushikulya estuary (32.6 t) 902 674 1341 West Bengal Sundarbans56 (2913.6 t), Hooghly-Matlah estuary (316 t)57 3230 1888 3727 Total 5241 3365 6842 55 Subsistence catches are harvested from various habitats such as mangroves, backwaters, creeks, and estuaries. Major seafood commodities harvested include crabs, shrimps, fish and molluscs (Data for unreported molluscan catches is provided in Table 5.7). Data in Table 5.10 includes Shrimp Post Larvae harvested in mangroves and estuarine areas. 56 Preliminary estimates of fresh fish landings only. Dry fish to wet weight conversions are due for many Sundarban wetlands. Such estimates will be published in future studies. 57 Includes combined estimate of both dry-fish and fresh fish landed for consumption in inland estuarine areas. 158In India under-reporting of fish catches can occur at various stages of fish trade from landing centre to retailers. For example during the interviews in 2008, in many small-scale landing centres along the east coast it was revealed that catches were never weighed but sold as lots based on visual grouping of catches, and the catch was never weighed during auction or procurement by fish dealer. Fishermen stated that weighing has never been the criteria, as species in each lot / mounds assumed more or less importance price-wise. Mutual trust and years of tradition in trading catches in this fashion has also meant that fish traders continue to use the same practice even today although weighing facilities are available. This method of quantifying catches can also lead to mis / under-reporting of catches from this small-scale sector. Fishers stated that the whole process of weighing is a time consuming process and due to faster deterioration of catch, hot weather, each person makes more profit by selling catch from one another within shortest possible time as no ice is used for preserving catch in initial stages of landings. The Kerala Govt (2005) report clearly illustrates the problems associated with monitoring brackish water fish landings along the south west coast. Marginal fisheries landings from these coastal towns are rarely monitored as ?there is no organized landing in the brackish water sector and mostly it is being done in their own house or places proximal to markets. The brackish water fishes are directly brought to the markets available in the fringes of these water bodies; however their total number has not so far been enumerated? (Kerala Government 2005). Often reef-based fisheries catches are largely ignored or under-reported in global fisheries (MacManus 1996; Munro and Fakahau 1993). India is no exception to this problem as reef fisheries all along the Indian coastline are grossly under-estimated (Rajasuriya et al., 2000) 159as landing surveys are mostly restricted to fishing harbors and bigger landing centres. Every effort was made to contact village heads, co-operatives and older fishermen who work on beaches to estimate the number of fishers engaged in such activities, nets used and operational days. Major and minor rocky reefs and coral reefs are found all along the Indian coast in Gulf of Kutch, off Goa, Karnataka, Southern Kerala, Tamil Nadu, Central and northern Andhra Pradesh. Often, gear used in these fisheries include cast nets, hooks and line, traps and trammel gill nets operated at depths between 1-10 metres along the coastline. Reef-based fisheries evaluated in the present study include catches from hook and line, shore seine, cast nets, traps and trammel nets. The first three gears are operated from shore while the latter are deployed at 4-12 fathoms depth in rocky reef areas using catamarans with 1-2 fishing crew. Data on fishing gears was based on data collected from field trip, as actual estimates of number of these fishing gears remain unknown. Coral reefs are found in Gulf of Kutch, Gulf of Mannar, Andaman and Nicobar Islands while fringing and patch reefs are prominent off Karnataka, Kerala and Tamil Nadu coasts. Minor rocky reefs are found off central and north Andhra coast. The average take home catch for reef based fisheries was 0.7 kg / crew member / trammel gillnet / day (2.1 kg/ trammel net /day); while cast nets take home catch per fishermen ranged from 0.1- 4 kg / day; hook and line catch was 0.1 to 0.5 kg/ fishermen / day (31 Respondents). Catches from all four fishing gears were used for consumption at home, with catches during peak periods dried for sale or consumption at home. However, it has come to notice that fishermen sometimes use longer sized trammel gill nets by attaching 2-3 trammel nets during good fishing season. During such seasons, majority of trammel gillnet catch (10-30 kg catch) is sold in nearby markets with some 160percent of catch retained for home consumption, or given to fellow fishers for use as bait in longline fisheries (See Table 5.6 for detailed state-wise estimates of reef based subsistence catches). It is pertinent to note that with the exception of snappers and shrimps most of the other reef fish have less commercial demand, so they are used as bait fish in the longline artisanal fisheries targeting seer fish, billfish and sharks. Other catches such as fishermen diving for conch shells (for sale to bangle markets in Calcutta) off Tamil Nadu and Andhra Pradesh remain grossly under-reported in national fisheries statistics. Interviews with subsistence fishers in the current study revealed actual extent of shellfish and molluscan fisheries in inshore reefs and backwaters. Table 5.6: Annual reef based subsistence fish catches along the mainland Indian coast. State Total (tonnes / year) Lower limit Upper limit Gujarat 99 68 136 Maharashtra 63 41 84 Karnataka 141 94 212 Kerala 431 326 494 Tamil Nadu 709 642 1024 Andhra Pradesh 73 51 121 Total 1516 1222 2071 5.6 Dryfish landings Drying is an age-old practice for preserving marine fish catches in India. Dry fish are collected and processed at different stages of fish trade. In the mechanised trawl sector, dry fish are landed after each trip, as substantial part of excess catch is dried on the top (roof of the trawler) and landed after each trip (High Grade Dry Fish like Mackerel, Snappers, and Ribbon Fish), with profits from dry fish shared equally among crewmembers and the owners. A certain percentage of trash fish from last 2-3 days of multi-day trawlers is also landed in 161fishing harbours. This catch is then again sorted by women and dry fish traders (Low Grade Dry Fish); in most cases smaller sized fish and crustaceans with high damage are immediately dried for utilization in poultry and shrimp feed industries. Longliners caught higher percentage of sharks as well as dried shark fins per each trip compared to trawlers along the entire mainland coast. These catches are currently under enumeration and will be published in future work. Estimates from interviews in 2008, reveal that although a certain percentage of dryfish from trawlers in reported to state enumerators, substantial under-reporting occurs, as boat owners are scared about tax implications for such sales. Estimates from 2008 interviews, (See Table 5.9 for state-wise detailed estimates) reveal that every year around 56,000 tonnes of dryfish remain unreported from trawlers and gillnetters in Indian fisheries. 5.7 Glut catches In the small-scale and subsistence fisheries, the bulk of fish caught is sold for fresh fish markets and exports. During periods of low fish prices, and low market demand, fish are sent for drying as they command a high price later. Other circumstances include landings during glut periods, nights, or at times when markets are closed. Women and marginal fishers also dry fish when they are unable to sell a certain percentage of their catch at the end of the day. Such catch is salted and sun-dried for consumption during rainy season. Dry fish are sold to dry fish traders who frequently visit landing centres, villages and local towns for procurement to fish meal plants / sale in grocery shops in bigger towns. Anchovies, Acetes shrimps, sardines, pony fish and smaller fish collected from subsistence gears like drag nets, traps and beach seines are also exclusively used for dry fish trade. In states like Kerala 162fishers (Respondents: 84, 93, 102, and 106) stated that prior to 1980, catches of sardines and mackerel were buried in earthen pits to be used as manure for coconut plantations. However, in recent years most of it is sold to poultry and fishmeal sector after drying due to high prices. Information from interviews is valuable in understanding the intricate complexities of these marginal fishers where the whole family is engaged in work, to lead a hand to mouth existence on a daily basis. Estimates of fish catches from these fishers would not only help in understanding catches but also highlight weak local governance, their vulnerability to depleted fish stocks and impacts of urbanization and marginalization of these communities due to destruction of mangroves, coastal creeks and dumping of industrial wastes in shallow backwaters. Utmost care was taken to avoid double counting by counterchecking estimates of fish catches from these fishers by inquiring with village heads, co-operatives and local fishery departments and also to check whether such catches are enumerated by local fisheries department. Often the village heads and community leaders stated that catches from these communities are never quantified, as they are considered insignificant or none. 5.8 Unreported molluscan catches In the enumeration of molluscan catches from brackish water lagoons, intertidal areas and estuaries, preliminary interviews were conducted with community leaders, followed by interviews with fishers, and shell trade retailers to counter check any gaps in assessment of catches from this sector. Often, molluscan catches are not adequately quantified due to scattered nature of these activities along the Indian coastline. It also came to notice that the 163Fisheries Departments often placed more emphasis on management issues related to fuel and vessel subsidies in the trawl sector rather than subsistence fisheries landings. Fisheries Department staff in some coastal states mentioned that they don?t have adequate staff or budget to quantify molluscan catches from remote landing centres. In this regard, interviews with stakeholders and village co-operatives twice or thrice a year can yield valuable information on catches from this sector. A wide range of mollusks such as clams, cockles, oysters, mussels and gastropods are exploited in this sector. Until 1990, traditional exploitation of molluscan shells was restricted to production of lime, through collection of dead shells in intertidal and estuarine habitats. Clam and mussel meat was also consumed traditionally in many coastal states such as Karnataka and Kerala, while some meat was used as feed in poultry sector and as manure in agriculture and coconut plantations. Since the advent of the aquaculture revolution in the nineties, there was a spike in demand for clam meat for feeding shrimp broodstock in tiger shrimp hatcheries along the east coast. A new group of fishers evolved exclusively targeting clams and cockles for meat in these states. Interviews with staff of shrimp hatcheries in Andhra Pradesh and Orissa through phone calls revealed the extent of clam meat used in this sector. Interviews with women in the unorganized clam meat trade in Kerala and Karnataka gave estimate of how many tonnes of clams were harvested in these states. Utmost care was taken to avoid double counting of clam meat catches from landing centres and the meat sold by women traders in the local markets. Fishers reported that clam meat is sold as feed for shrimp farms; preliminary estimates suggest that in Andhra Pradesh and Orissa alone around 100 tonnes of clams are harvested for use as feed in shrimp nursery ponds, although a more detailed survey is 164necessary to estimate complete extent of catches from this sector. These shrimp hatcheries operate for 6-8 months in a year and largely rely on shrimp broodstock supplied by trawlers for producing shrimp post larvae in enclosed brood stock tanks. Clam meat is fed along with bloodworms and squids during shrimp broodstock maturation. Each hatchery on an average uses 16 kg of clam meat / year (160 kg whole weight), which translates to 144 kg of live clams / year. So, the 260 shrimp hatcheries along east coast of India use around 37.4 tonnes of clams / year. Estimates generated from current study reveal a staggering 42,424 tonnes of molluscan catches landed in India (See table 5.7 for detailed state-wise estimates of unreported Molluscan landings in Indian fisheries). However, the reported catches are only 7234 tonnes in 2004 (Government of India, 2007). The Government of India reports export of clams and mussel meat to foreign countries through the Marine Products Export Development Authority (MPEDA), but no data is available on how this data is sourced from processing plants, resource users or through the State Fisheries Departments. 165 Table 5.7: Unreported molluscan catches from estuaries, backwaters and creeks in the Indian EEZ. State Species / Groups exploited Location Clam meat for local human consumption Total mollusks including dead shells58 (tonnes) Mollusk catches59 (tonnes / year) Source Actual estimate Lower Limit Upper Limit Orissa Clams, Cockles, Gastropods Badapur, Sonapur, Gopalpur, Haripur, Palur - 437 360 242 536 Panda and Misra (2007) Clams, Cockles Chandipur (406 t), Talsari (14 t) - 1000 420 348 511 Present Study Andhra Pradesh Clams, Cockles, Oysters Godavari (1680 t), Krishna (430 t), Kandaleru (370 t) estuaries; Pulicat lake (36 t) - 8650 2516 1823 3088 Present Study Tamil Nadu Clams, Cockles, Gastropods Muttukadu (100 t); Vellar estuary (90 t); Coleroon estuary (16 t) - 630 206 168 322 Present Study Gastropods Tamil Nadu coast (Trawl landings) - - 4245 3689 5320 Present Study Gastropods (Chanks) Gulf of Mannar; South Tamil Nadu coast 4.2 - 430 290 464 Present Study Kerala Clams, Cockles, Oysters, Mussels Ashtamudi estuary (4000 t); Chettuva estuary (160 t); Cochin backwaters (10,200 t) 78 23,000 14360 12672 17264 Present Study 58 Percentage of dead shells vs. live shells depends on location where dead shells are collected from shore / locations where live shells are exclusively collected from intertidal and estuarine shellfish beds. 59 Whole weight catches from live mollusks caught for lime production and clam meat only (does not include catches of clam meat sold to shrimp hatcheries). 166State Species / Groups exploited Location Clam meat for local human consumption Total mollusks including dead shells (tonnes) Mollusk catches (tonnes / year) Source Actual estimate Lower Limit Upper Limit Karnataka Clams, Cockles, Oysters, Mussels Netravati-Gurupur estuary (140 t); Udayavara estuary (90 t); Kali Estuary (500t) 6 5 8000 730 556 905 Present Study Mulki estuary (2000 t) 12 - 2000 2000 2000 Sasikumar et al., (2006) Aghanashini estuary (16,000 t) 58 22006 16000 16000 16000 Boominathan et al., (2008) Gujarat Edible oysters, Window pane oysters Gulf of Kutch - - 600 420 684 Present Study West Bengal Clams and Gastropods - - - 420 396 528 Present Study Andhra Pradesh, Orissa Clams Clam meat sold to shrimp hatcheries (37 t) and shrimp farms (100 t)60 - - 137 123 346 Present Study Total (tonnes) 42424 38727 (LL) 47878 (UL) 5.9 Take home catch of artisanal fishers The take home catch has never been formally quantified in any of the coastal states and estimates from the present study are perhaps first such estimates for the entire EEZ covering all small-scale fishing fleets. Estimates from interviews in 2008, revealed that small-scale fishers take around 90,000 tonnes of fish for consumption at home each year (See Table 5.8 60 According to fishermen clam meat is approximately 10% of the total body weight and hence the same conversion was applied for converting clam meat to whole weight utilized in hatcheries. 167for detailed estimates state-wise). When catches are plenty, a certain percentage of the take home catch is also given to friends, community elders and unemployed fishers as a goodwill gesture. Some fish are also dried and retained for consumption during monsoon season when fishing activity is low. Export oriented markets (van Mulekom et al., 2006) have meant that species that were previously kept for consumption at home are now sold at local and foreign markets, due to high demand. Fishers stated during interviews that some species like sardines, mackerels and anchovies that were dried for consumption at home are rarely consumed now, due to high prices of other food commodities such as rice and pulses, compelling them to sell these fish in local markets. Seafood processing and fishmeal plants, have organized fish collection from small-scale landing centres creating this demand at the expense of food security of these poor coastal communities. Table 5.8: Artisanal take home catches along the Indian coast. Estimates based on interviews in eight coastal states during the 2008 field trip to India. Number of fishermen household?s data is sourced from Marine Fisheries Census documents - CMFRI (2005). State Fishermen households Average take home catch / trip (kgs/ trip) Total take home catch / year Average take home catch (in tonnes) LL UL Gujarat 59889 0.6-2.0 2299 6132 4215 Maharashtra 65313 1.2-2.5 4075 8490 6282 Karnataka 30176 1.5-4.2 1357 3802 2579 Kerala 120486 3.2-5.6 12337 29302 20819 Tamil Nadu 203693 0.9-2.6 9166 26480 17823 Andhra Pradesh 129246 1.3-2.6 8400 20679 14539 Orissa 86352 2.1-6.3 7253 21760 14506 West Bengal 53816 3.2-5.6 6544 11452 8998 Total 51431 128097 89761 168Table 5.9: Unreported catches from mechanised trawlers and gillnetters. Estimates based on interviews in eight coastal states during the 2008 field trip to India. State Crew consumption at Sea61 Crew take home catch62 Dry-fish landings63 Average LL UL Average LL UL Average LL UL Gujarat 5871 4227 7515 5167 3288 7045 352 258 470Maharashtra 2083 1499 2666 1833 1166 2499 125 92 167Karnataka 1248 1036 1460 323 238 425 37 25 51Kerala 4796 3700 5892 4385 3151 5892 4659 3426 5892Tamil Nadu 9061 6758 11365 9829 7372 12287 1597 1167 2273Andhra Pradesh 2361 1837 2886 1476 1181 1771 44734 32206 57262Orissa 1355 976 1735 1138 1030 1247 2873 2006 3740West Bengal 712 475 949 567 501 633 1371 949 1793Total 27487 20507 34468 24717 17927 31798 55748 40129 71647 61 Crew consumption at sea was calculated in each state by multiplying the total number of trawlers and longliners (X) into amount of fish consumed by crew at sea per trip (X). This figure was in turn multiplied by number of trips per year. Trip duration varied by state from 5-14 days. 62 Crew take-home catch was calculated by estimating the amount of fish catch taken by crew of trawlers and longliners after each fishing trip. A certain percentage of catch was shared among crew members as privileges, meant for consumption at home. The skipper of the vessel decided the amount of fish that would be shared between skipper and the crew. A certain kilograms of catch were also kept for the boat owner. The total take-home catch per boat was multiplied by number of vessels, and this figure which was in turn multiplied by number of trips per year / vessel category to get total take home catch for each coastal state of mainland India. 63 Dry-fish landings were calculated in each state by multiplying total dry-fish landed per boat for each trip. This figure was in turn multiplied by number of trips per year / vessel category to get total take dry-fish landings for each coastal state of mainland India. This catch is grossly under-reported in existing catch statistics of fisheries departments / and the federal government. Fishing crew reported that catch enumerators of the state and central governments seldom did such estimations. 1695.10 Why traditional management measures are not working? Firstly, the notion of Indian fisheries policy makers that allocating fishing rights of territorial waters to artisanal fishers and offshore waters (more than 12 nautical mile) to industrial trawlers is beset with problems for several reasons: 1) the artisanal sector has witnessed a massive expansion of fishing effort from coastal to offshore waters, with diversification in use of new fishing gears, mechanization of traditional craft and increased operational range at Sea; 2) availability of cheap Kerosene from BPL (Below Poverty Level fair price shops) along with subsidized Diesel from State Fisheries Departments means that fishers stay for longer durations until they catch sufficient fish; 3) Fishermen no longer buy fishing nets as they are mostly provided by middlemen who finance fishing trips; 4) Increased mobility of the fishermen allowing them to target diverse fish species in different sections of the coast during different periods of the year; 5) Spike in demand for their landings from industrial firms and processing plants which procure species like pomfrets, seer fish and snappers directly from their landing centres through co-operatives leading to higher prices for their catches than the past; 6) increase in depletion of traditional species, with landings of non-commercial species getting modest prices due to demand in fish meal industry; and 7) increasingly during peak fishing seasons, operations targeting tuna, swordfish and seerfish are financed by middlemen and retailers who buy catch directly from their landing centres, saving transportations costs to markets helping fishers to adapt to high fishing trip costs. 5.11 Conclusion Through the present study the actual extent of illegal and unreported catches from both commercial trawl and small-scale fisheries was estimated using data collected from 200 plus 170interviews in India. The study revealed that unreported catches in India?s marine fisheries is around 1.5 million tonnes every year with lower and upper limits of 1.1 to 1.9 million tonnes. Detailed breakup of unreported catches from various sectors is provided in Table 5.6. The latest fish statistics reported to FAO for the year 2008 show that total reported catches were around 2.38 million tonnes. So, if we account for unreported catches from the current study during the same year, the total catch would reach a staggering 3.8 million tonnes (Unreported catches of IUU), of which around 1.2 million tonnes remains unaccounted through discards alone. Along the mainland Indian EEZ itself 287,000 tonnes of marine fish catches remain unreported from mechanised and small-scale fisheries each year with a lower and upper range of 210,000 to 374,000 tonnes. Table 5.10: Unreported catches quantified from 2008 Indian field trip in the mainland EEZ. Estimates based on interviews in eight coastal states during the 2008 field trip to India. Unreported catches categories Total Lower Limit Upper Limit Unreported Molluscan Catches 42424 38727 47878Discards (Chartered deep-sea tuna longliners) 1800 1420 2160Discards (Domestic Fishing Trawlers and Fishing Boats) 1217931 924974 1510893Trawlers (Fish consumption at Sea) 27487 20507 34468Trawlers (Crew take-home catch) 24717 17927 31798Subsistence catches (Mangroves, backwaters, estuaries) 5241 3365 6842Reef based subsistence fish catches 1516 1222 2071Bait fish catches 4305 3154 5609Artisanal Fisheries take home catch 89761 51431 128097Fish gleaning at landing centres 2175 1364 2986Dry fish landings 55748 40129 71647Post-Harvest Losses 33660 32000 42600 Total (in tonnes) 1506765 1136220 1887049 171Small-scale fishers all along the mainland coast stated that displacement of fishers has increased during the last decade due to industrial development, pollution and formation of new anoxic dead zones in coastal waters (where fishers could no longer catch fish largely due to dumping of sewage and industrial wastes, release of hot water effluents from thermal power plants in coastal waters and creeks). Small-scale fishermen stated that to compensate for decreasing catches they are using more nets, going further and staying for more days at sea. Another noticeable change according to small-scale fishermen was that more crew works on each vessel, so the profit from each trip is reduced, as the bulk of revenue from each trip is paid to agent who funded the trip, fuel costs and fishing gear. Incomes have declined for fishermen in all coastal states, as fishers earn half the amount of money that they used to earn 10 years ago. This is due to two reasons. More crew on each boat means that the share per person is less; more time at sea means average income per day is less, and bulk of profit from trip is paid to moneylenders due to indebtedness. Throughout the Indian coast, fishermen reported that younger age classes are dominant in fish catches as smaller mesh sized nets are used in increasing numbers. This has direct implication on their profits as smaller sized fish fetch a lower price, deteriorate faster before reaching landing centres, and are only used in fish meal and dry fish sector. In the mechanised trawl sector, depletion of local fish stocks has led to migration of crew to other coastal states where they face more risks. For example, during interviews with fishing crew working on trawlers in Gujarat and Maharashtra, it was revealed that most of the crew working on trawlers nowadays is sourced from distant states like Andhra Pradesh and Orissa. This has contributed to decrease in wages for trawler crew in Gujarat, as crews from other 172states are employed on a daily wage basis. In the past local crew from Gujarat working on trawlers used to get certain percentage of profit from each trip, which as stopped since the advent of daily wage system. So, increasingly local crew are reluctant to take the risks to work on trawlers, while trawler crew from Andhra Pradesh are ready to take the risks as they don?t have alternate employment in their home state. So, overfishing in one state is fueling displacement and conflict with fishers from other state due to migration. Enforcement of mesh size regulations is dismal in all states; with Fisheries Departments in all maritime state?s being ill equipped to carry out surveillance or implementation of regulatory measures. Lack of will to implement existing regulations and poor planning was also evident in all coastal states with blatant violations of gear and fleet regulations. For example, artisanal fishermen in Kerala were of the opinion that every year a narrow stretch of waters between Alleppey and Neendakhara constitutes the breeding ground for the bulk of shrimps caught in the state. But the state has not protected even one quarter of this area from trawlers. Subsistence fishermen in this section of the coast state that they are not left with any other avenue except using smaller sized gillnets to catch juveniles, as larger fish are getting scarce in gillnet catches in recent years. Traditional fishermen in Kerala are also to blame for the decline of fish catches as they have allowed operation of smaller meshed ring seines which catch 0 and 1 size classes of sardines and mackerels in more numbers every year. Interviews with fishers revealed that unreported catches from unregulated or unlicensed fishing boats in both artisanal and industrial sectors are not quantified or accounted for in the present reported Indian catch statistics. Previous studies have also thrown light on similar 173problems in estimates of fishing crafts taken from various state fisheries departments (Malhotra and Sinha 2007). Fish bartered at sea is substantially less now compared to earlier years. I undertook a similar survey of trawl fisheries on the northeast coast of Bay of Bengal in 2003-04 (Pramod 2005), when trawler crews used to barter approximately 10-20 kg of fish in each trip at sea in exchange for groceries and alcohol. Presently, only 2-5 kg is bartered for a 10-day trip. This decrease is mainly to compensate for the increase in fuel and trip costs in recent years. 5.12 Chapter 5 summary Developing countries with vast coastlines and meager patrolling assets are usually confounded with the problem of monitoring landings from multiple fisheries in remote locations. Under-reporting of small-scale catches has also been a huge problem in developing countries (Pitcher et al., 2002; Gu?nette et al., 2006; Pauly 2006; Mills et al., 2011) and India is no exception to this problem. The dispersed nature of fishing activities and weak institutional capacity have been cited as major reasons for under-reporting in small-scale fisheries of the developing world (de Graaf et al., 2011). Reliability of subsistence catch estimates can be improved using fish consumption data (World Bank 2010). In chapter 5, a detailed estimation of underreported catches from small-scale fisheries and commercial trawl sectors was done to provide an overview of unreported catches from the Indian EEZ. In the current analysis a detailed estimation of each gear sector was undertaken to check for unreported catches from India?s EEZ. In the trawl sector fish consumption at sea was 27,000 174tonnes per year and the trawl crew take home catch was 24,700 tonnes per year (estimated through interviews at major fishing ports in 2008). Conservative estimates of small-scale fisheries revealed that 287,000 tonnes of catches remain unreported in this sector (which included take home catch of small-scale fishers: 90,000 tonnes; Reef based subsistence catches: 1516 tonnes; Landings in shallow creeks, estuaries and backwaters: 5241 tonnes; Bait fish used in hook and longline fisheries: 4300 tonnes; Unreported molluscan landings: 42,000 tonnes; Post-harvest losses: 33,000 tonnes). Discards from trawl and small-scale fisheries were around 1.2 million tonnes alluding to gravity of under-reporting in this sector. This is perhaps the first attempt to quantify unreported catches from marine fisheries in Indian waters. Significant improvement in reporting of small-scale landings centres could take place by handing over such responsibilities to fisheries co-operatives along the Indian coast. It is pertinent to highlight that interviews with small-scale fishers during the IUU field trip to India in 2008, also gave valuable information on marginalization of fishers and how decline of fish catches has affected fish communities over the last six decades. Figure 5.1 illustrates the problems from their perspective. Interviews revealed that during the first two decades (1950-70) catches were good throughout the year; but with massive vessel, fuel subsidies and construction of new trawlers on a massive scale, catches declined for artisanal fishers due to increased incursions of trawlers for shrimps leading to dumping of massive quantities of fish and destroying inshore breeding and nursery grounds. During 1970-1980 period, as catches declined small-scale fishers were provided loans for installing outboard engines and buying bigger FRP boats for fishing farther from shore. In the last two decades, with decreasing 175catches are good on a seasonal basis, leading to migration of fishers from Central east coast to Andaman islands to make a living there, as catches are relatively good and under-exploited in Andaman islands. However, the cycle of poverty does not stop for fishers, as market prices for fish are very low in Andaman Islands due to low demand and high cost of living in the islands. Figure 5.1: Information from IUU interviews in 2008 showing displacement of Indian fishers due to overfishing. (See section 5.11 for detailed explanation). 176Chapter 6: Illegal and unreported fish catches in the Andaman and Nicobar Islands 6.1 Introduction The Andaman and Nicobar (A & N) Islands are one of the two overseas island territories administered through a Lt. Governor appointed by Government of India (other is the Lakshadweep islands in the Arabian Sea). With 572 islands and 1912 km coastline, a diverse range of marine habitats from fringing coral reefs and atolls to mangroves and tidal creeks are found on these islands (Anon 2008e; Ramesh et al., 2010). Pelagic fish resources are largely unexploited as only 39 of the 349 islands are inhabited and even among these around 34 per cent of forested area is inhabited by five indigenous tribes (Great Andamanese, Shompen, Sentinelese, Jarawa, Onge), who are the earliest known inhabitants of these islands (Anon 2004e; Anon 2008e). The islands also stand out in contrast to coastal states of mainland India as they have the highest ownership of fishing boat and gears among fisherfolk (90% of fishers own their boats) (Pramod 2008). Limited human presence allows Burmese poachers to regularly sneak into these remote islands and poach for sea cucumbers, trochus shells, corals and wildlife. With a population of 379,944 (Census of India, 2011 website) and the arrival of new immigrants from mainland (India) every year, natural resources in the islands have also been subjected to tremendous domestic pressure through illegal fishing, encroachment into forest land, wildlife hunting and displacement of indigenous tribes (Pramod 2008). Prior to 1940s there was no organised fishing activity as indigenous tribes were mostly hunter-gatherer societies, with fish forming a minor part of their subsistence needs (Pramod 2008; Rajamanickam 1997). After India?s independence in 1947, the 177Government of India initiated an organised fishing sector in the A&N islands by relocating fishers from West Bengal, Andhra Pradesh, Tamil Nadu and Kerala through a settlement scheme, with other fishermen moving on their own in recent years (Pramod 2008). This chapter sets out various categories of illegal and unreported fish catches that were estimated through interviews in Andaman & Nicobar Islands. The chapter begins with an explanation of various fisheries laws that regulate fishing activities in the islands. Next, an explanation of monitoring control and surveillance assets in the islands is provided to identify drivers of illegal fishing in the islands. This is followed by an explanation of poaching activities by domestic and foreign fishing vessels in the islands. Illegal catches estimated in the chapter include (a) illegal finfish catches of domestic and foreign fishing vessels in the A&N islands EEZ (b) illegal sea cucumber catches taken by foreign fishing vessels; and (c) illegal trochus catches taken by foreign fishing boats in the A&N islands. Various unreported catch categories discussed in the current chapter include (i) Sea shell catches for ornamental trade (ii) Fish consumption among indigenous tribes (iii) Fish sold directly to tourist hotels and resorts (iv) Take home catches of domestic fishers of Indian origin (Most of domestic fishers in the islands have been relocated from mainland Indian states of West Bengal, Orissa, Andhra Pradesh and Tamil Nadu) to encourage fisheries development in the Andaman & Nicobar islands. A detailed explanation of various illegal and unreported catch categories is given in Chapter 4 (see section 4.2, pages 82 to 84). Interview methodology and preview of study areas is also provided in Chapter 4 (Section 4.3, pages 86 to 88). 178 Figure 6.1: Map showing mainland India and its island territories. Map showing nine coastal states and offshore islands (Andaman and Nicobar Islands). Grey line outside the map represents the EEZ boundary. Image Source: (Hand drawn: Pramod Ganapathiraju). Image not to scale. 6.2 Interview methodology Interviews through a questionnaire helped to determine the total percentage of illegal and unreported catch in the Andaman and Nicobar Islands. Please refer to interview methodology in Chapter 4 for more information (Section 4.3, pages 86 to 88). Interviews in A&N islands revealed that there is under-reporting of catches by domestic Indian vessels. Respondents (196,199, 201 and 202) stated that the government staff rarely come to landing centres to 179collect fish landings data, instead the fishers are handed paper forms to fill catch data whenever they go to department offices to renew their fishing boat licenses. This leads to submission of catch data that is both erroneous and flawed as assigning random catches for various fish species leads to under-reporting of catch data. Fisheries Department staff in the islands failed to respond to our inquiries regarding the collection of catch data. 6.3 Monitoring control and surveillance in Andaman and Nicobar Islands The Indian Coast Guard (ICG) is the primary monitoring agency responsible for control and scrutiny of fishing vessels operating within the Indian Exclusive Economic Zone (EEZ). It is also responsible for boarding and inspection of domestic and foreign deep-sea vessels operating under charter agreements within the Indian EEZ (Indian Coast Guard, 2009). The Maritime Zones of India Act, 1976 and the Coast Guard Act, 1978 give ICG exclusive rights for inspection, protection and management of living and non-living resources within the Indian EEZ. The Andaman and Nicobar Command of Indian Coast Guard is modestly equipped for patrolling the A& N islands. Remoteness of the islands coupled with sparse population give rise to immense monitoring problems for the A&N Administration, Police and the Indian Coast Guard64. In the first two 64 The Indian Coast Guard has three Fast Patrol Ships (ICGS Akka Devi, ICGS Lakshmi Bhai), with the induction of ICGS ?Durgabhai Deshmukh? in March 2009 (Anon 2009f). The Coast Guard base in Port Blair also received an advanced offshore patrol vessel ?Sankalp? on May 5, 2009. The vessel has an endurance limit of 6500 nautical miles, can operate for 25 days without replenishment at sea and is designed to carry one twin engine ALH helicopter and five high speed boats during maritime patrols (Anon 2009g). The Diglipur base of 180decades after independence from 1950-1970, the Indian Navy had a minimal presence in the islands due to shortage of patrol vessels65 and infrastructure for patrolling the vast coastline (Anon, pers. Comm. 2008). The transfer of surveillance duties from Indian Navy to the Coast Guard in late seventies paved way for a more rigorous patrolling and enforcement in the islands (Anon, pers. comm. 2008; Pramod 2008). To confront growing influence of China in Burmese territory, off Coco islands (North of Andaman Islands) from the year 2000 onwards the Indian Government increased its naval presence in the A&N islands (Das 2010; Anon, northern Andaman?s received a high-speed interceptor boat (ICGS C-140) on July 12, 2009, which will substantially improve surveillance capabilities of Coast Guard fleet in this region (Anon 2009h). Coast Guard?s enforcement in A&N Islands EEZ is also enhanced through 2 fixed wing aircrafts and 2 helicopters for patrolling 1912 km coastline (Anon 2009f). With 600,000 km of EEZ area (29.4% of Indian EEZ), the Coast Guard?s patrolling abilities are clearly overstretched in the Andaman and Nicobar Islands (Anon 2008e). 65 In 1984, Coast Guard?s aerial surveillance capability was constrained as only one Fokker aircraft operated from Calcutta to monitor the entire East coast (Mohan 1984). In 1995, the ICG had four inshore patrol vessels and 2 fixed wing aircraft (Anon 1995). During 1999, Coast Guard had 3 inshore patrol vessels, one offshore patrol vessel (Anon 1999). In 2002, they had one offshore patrol vessel, two fast patrol boats, 3 inland patrol vessels, 1 Dornier aircraft and 1 Chetak helicopter. By 2007, the Coast Guard?s patrolling assets in A&N Islands included 1 offshore patrol vessel, 2 fast patrol vessels, 3 inshore patrol vessels, 2 fixed-wing Dornier aircraft and 1 Chetak helicopter (Murthy 2007). Recently, the Police Marine Force (PMF) of the A & N Police received four Fast Interceptor Boats. Each interceptor boat has a speed of 35 knots per hour even with full load and will be deployed at Diglipur, Campbell Bay, Hut Bay and South Andaman (Anon 2010i). The Indian Naval ships, INS Tarasa and INS Battimalv have also assisted in the surveillance and apprehension of foreign fishing vessels in the islands? waters in recent years on an intermittent basis. 181pers. comm. 2008). Since its inception in early 1950s, the Andaman and Nicobar Marine Police has also grown in strength with inception of its own patrol fleet in the last decade (although the Marine Police did not have a single patrol boat until 2002) for safeguarding shallow water creeks, inland waters and strategic points of far flung islands (Pramod 2008). Until 2002, the Marine Police used local fishing boats for patrolling operations, with such operations constrained by daylight, speed of local fishing boats and location of fishing villages. Often such missions were conducted using smaller fishing boats and restricted to shallow waters in the vicinity of police outposts (Pramod 2008). 6.4 Fisheries regulations in the Andaman and Nicobar Islands Important fisheries regulations in Andaman and Nicobar Islands include: The Andaman and Nicobar Fishing Rules 1939 (Anon 1939); The Andaman and Nicobar Islands Marine Fishing Regulation 2003 (Anon 2004d); and the Andaman and Nicobar Islands Shell Fishing Rules 1978 (Anon 1979). Under the Andaman and Nicobar Islands Marine Fishing Regulation 2003, coastal waters are divided into two zones for fisheries activities. Zone A is exclusively allocated for motorised and non-motorised boats and extends up to 6 nautical miles from the baseline (the 0-6 nautical mile zone is allocated for fishing vessels fitted with engine power of less than 30 HP and non-motorised dinghies without engine). Fishing by mechanised trawlers is banned in Zone A. Fishing in creeks is also banned in this zone as per this advisory. Mechanised trawlers are allowed to fish in Zone B, which extends beyond 6 nautical miles from the baseline (Fishing vessels fitted with more than 30 HP are only allowed to fish between 6 and 12 nautical miles from the baseline). Under Section 17(a)(i) of the Andaman and Nicobar Islands Marine Fishing Rules, 2004, closed Season is 182implemented for trawlers and shark fishing from April 15 to May 31 every year. Shark fin traders are required to provide a declaration of their stock and get it inspected through the Fisheries Administration before the start of the ban period by April 15 every year (Pramod 2008). Turban shell (Turbo marmoratus), five-finger chank (Lambis lambis), scorpion shell (L. chiragra), cowries (Cypraea sp.) and pearly nautilus (Nautilus sp.) are the principal species collected by licensed shellfish fishers within A&N Islands (Pramod 2008). The Island?s waters have been demarcated into 9 shellfish zones and each zone is auctioned and leased to the highest bidder for a two-year period (Pramod 2008). Interviews with shellfish traders in Andaman Islands revealed that licensed fishers in the islands land around 500 tonnes of shells, which is never reported in national fisheries statistics (Pramod 2008). Exploitation of Top shell (Trochus niloticus) and Sea Cucumbers (Holothuria sp.) is banned in Andaman and Nicobar Islands as they are classified as endangered under Schedule IV (Trochus sp.) and Schedule I (Sea cucumbers) of the Wildlife Protection Act, 1972 (James 2001; Anon 2003). Under Section 3 (ii) of the Andaman and Nicobar Shell Fishing Rules, 1978, a closed Season is also implemented for shellfish extraction every year from May 1 to September 30 (Anon 1979). 6.5 Nature of poaching activities in Andaman and Nicobar waters Foreign poachers target a wide variety of fish and invertebrates in the Andaman and Nicobar islands. Burmese target sea cucumbers, Trochus shells, and corals; Thai boats target reef fish, tuna, sharks, ornamental fish and sea cucumbers; Sri Lankan and Taiwanese vessels target 183yellowfin tuna and sharks; and Indonesian boats target sharks. From 1980-1999, Burmese trawlers were frequently observed fishing in the northern Andaman islands, but due to increasing enforcement by Coast Guard, since late nineties Burmese vessels have been observed poaching further south as far as Tilanchang and Kamorta off Nicobar islands (Pramod 2008). Burmese poachers have also set up settlements in these islands threatening many wildlife species as they often target Trochus and sea cucumbers, but also decimate wildlife (birds, deer, crocodiles) of islands before moving to other islands (Pramod 2008). Crocodile skins can be sold for as much as US$ 20,000, while sea cucumbers can fetch up to 100$ a kilo in Thailand. If their presence is not detected, they continue operations on these islands with impunity for days together leading to immense destruction of wildlife (Pramod 2008). Coast Guard, Andaman and Nicobar Police and Indian Reserve Battalion Force conduct regular patrols to spot and destroy these camps and apprehended poachers are taken to Port Blair for judicial proceedings (Pramod 2008). However, Coast Guard and the A&N Police often face a daunting task searching for poaching activities in a vast maritime area (Das 2010). As one official noted, ?When you are patrolling at sea, chances of apprehending Burmese poachers are high but when you have to look for poacher camps in remote islands with dense forests, it is as hard as looking for a needle in a haystack? (Respondent: 199). Often, data from aerial patrols and information provided by local fishers is conveyed to surface units for physical interception and arrest of poachers (Pramod 2008). Current threats to fishery resources arise from Burmese fishing boats targeting shellfish in coastal waters, while offshore fishery resources are under threat from Thai and Indonesian trawlers (Murthy 2007). 184Interviews in 2008 revealed the extent of poaching by Burmese and Thai fishing boats in the islands. ?During the last two decades we have increasingly seen that Burmese poachers use smaller boats that sneak in at nights and set up camps in remote uninhabited islands, they sneak in from Coco Islands in the north where a supposedly mother boat provides supplies for each trip. While off South Andaman and Nicobar islands, Thai boats that are much bigger, come with more supplies such as onboard compressors and diving equipment for poaching sea cucumbers on 5-10 day trips and they have been occasionally found to set up camps in the islands. Fishermen have also reported witnessing Indonesian fishing boats targeting sharks in Nicobar Islands. The apprehension rate for Burmese boats varied from 5-10 per cent during nineties and 10-20 percent in recent decades. The Coast Guard has increased number of patrols as well as regular operations to apprehend these poachers. This year (2008) they have apprehended up to 25 per cent of the poaching boats from Burma? (Respondent: 193). Reports from other sources also substantiate this information on the extent of foreign fishing vessels arrested by Coast Guard and Police within the Island?s EEZ (Suri 2001; Roy 2007). 6.5.1 Extent of poaching by foreign fishing vessels Existing literature (Kakar 1989; Sharma 1991) and interviews during 2008 revealed that poaching of fish and shellfish was at its peak from 1960-1980. According to interviews, in the mid-eighties after a series of arrests of Taiwanese and Thai trawlers by the Coast Guard, poaching decreased in offshore waters, but Burmese and Thai trawlers continued to poach in northern waters, while Thai and Indonesian boats brazenly fished in Nicobar waters where patrolling was less pronounced (Pramod 2008). Patrolling vessels often found it difficult to 185control poaching as they had very few vessels, and poachers often sneaked in and out of the EEZ with impunity (Pramod 2008). Moreover, according to local officials some of the arrested Thai and Taiwanese illegal fishing trawlers had sophisticated radar to detect patrol vessels as far as 50 km away often leading to evasion tactics to avoid apprehension (Pramod 2008). According to one local official ?during the seventies and eighties, for every one Thai and Taiwanese trawler we arrested around 10 to 20 managed to get away? (Respondent: 196). Since the late nineties active pursuit of poachers and series of successful apprehensions by Coast Guard has sent a strong signal to poachers and most big foreign trawlers have kept away from the Indian EEZ with occasional EEZ incursions observed off Nicobar Islands in recent years (Anon, pers. comm. 2008; Pramod 2008). The issue of security in Andaman and Nicobar Islands received a boost after the visit of Indian Home Minister to the Islands in 2001, where he aptly stated, ?Poaching is an economic issue, but soon it could turn into a security issue? (Suri 2001). After setting up a permanent Coast Guard base in Port Blair, two additional bases were set up by the Coast Guard, one in Diglipur (North Andaman) and another one in 2010 in Campbell Bay, (Nicobar Islands) in recent decades (Pramod 2008). This has sent a very strong signal, and poaching by big trawlers has declined in the last decade, thanks to increasing fleet strength of Coast guard and presence of Indian Reserve Battalion (IRBn) in the remote islands to provide intelligence and assist Andaman Marine Police (Pramod 2008). Majority of Burmese boat interceptions have been successful in recent years as joint operations with all four surveillance agencies is making it difficult for poachers to escape. In the past, poachers often sneaked into numerous shallow creeks on being sighted by Coast Guard, but 186in recent years, aerial patrol data is passed to nearest Coast Guard ships, A & N Marine Police and IRBn force for active pursuit of poachers even into shallow creeks as the Police and IRBn have the necessary manpower to engage in combing operations inside creeks and forests to destroy camps and arrest poachers (Pramod 2008). Coast Guard?s efforts at sea are also constrained by wooden boats used by Burmese poachers, which are not easy to identify as they have very low physical profile, and small heat signature, which make them difficult to identify on the patrol ship?s radar. Topography of the land is also affecting apprehension of poachers as majority of fishers and active human population is located on the Eastern side of the Andaman Islands, leaving the western side exposed to poachers (Respondent: 199, 201, 202). 6.5.2 Incentives for domestic Indian poachers in the islands Nearly one fourth of cultivable land in the islands was damaged during the 2004 Tsunami. Although the majority of land loss occurred in Nicobar Islands, nearly 2000 hectares of land was submerged due to seawater ingress in Andaman Islands (Pramod 2008). The loss of agricultural land (Subsidence in Nicobar islands and uplift by nearly in one metre in Andaman Islands (Chia et al., 2005), and subsequent increase in food prices has led to more fish consumption in recent years, as fish are cheap compared to other food commodities in the Islands. In this context, it is important to note that majority of food commodities are very expensive in the islands as they are imported from Mainland India (Pramod 2008). Demand for fish has also increased due to spike in number of tourists visiting Andaman Islands from mainland India (See Figure 6.2 for more information). 187Indian registered mechanised fishing boats, which are only licensed, to fish in Zone B (beyond 6 nautical miles from baseline) have been reported illegally fishing in Zone A, adversely affecting catches of motorised and non-motorised fishing crafts (Respondents: 198, 200, 201). Since 2009, local poachers have been caught transferring corals, trochus and sea cucumbers to Burmese boats off northern Andaman?s alluding to a new nexus between Burmese poachers and local trochus smugglers (Anon 2009i; Anon 2010j; Anon 2010k). Local poachers collect trochus shells illegally from the Andaman Islands, and then contact Burmese poachers, who send boats to smuggle the shells from the islands (Anon 2010j). Details of illegally collected trochus shells and sea cucumbers confiscated from Indian poachers in Andaman and Nicobar Islands are given in Table 6.3. 6.6 Estimation of illegal fish catches in the Andaman and Nicobar islands Data from government reports and interviews conducted by the author in 2008 provide estimates of illegal fishing boats operating in Andaman and Nicobar waters (Pramod 2008). Illegal Foreign fishing vessels target a wide variety of fish and invertebrates in the islands. Burmese boats target sea cucumber and trochus; Indonesian boats target sharks for the fin trade; Thai boats target sea cucumbers and ornamental fish in Nicobar waters, while the bigger Thai trawlers target snappers and tuna in offshore waters; Sri Lankan longliners target yellowfin tuna and sharks; Taiwanese trawlers target reef fish, tuna and sharks. Illegal fishing vessels arrested each year were divided into three categories a) Finfish vessels (illegal catch from trawlers ? by respective flag); b) Trochus vessels (illegal boats from Burma and Thailand); c) Sea Cucumber boats (illegal boats from Burma). The number of 188illegal fishing vessels by respective flag was divided into average illegal catch found onboard the apprehended IUU fishing vessels to calculate total illegal catch for each category. The totals for illegal catch / year were then estimated by adding illegal catch from the above three vessel categories. The upper and lower bounds for the estimates were derived from interviews in the 2008 survey. Interviews with Respondents 196, 198, 200, 201, 202 provided anchor points for number of vessels observed poaching and not apprehended during three decades from 1980-2000. 6.7 Unreported domestic catches in Andaman & Nicobar Islands 6.7.1.1 Sea shell fisheries in Andaman and Nicobar waters Although, sea shell fishing has been existent in islands since early 1920?s, and is licensed by the local Fisheries Administration, none of the gastropod catches (sea shells) are reported in existing government reports (Government of India Handbook on Fisheries Statistics). In 2008, around 36 units were licensed for a period of two years for collection and sale of seashells excluding the ones listed in scheduled IV of Wildlife Protection Act 1972. Shellfish units are required to maintain records by species of the quantities of shells harvested for inspection prior to sale and export to mainland. According to traders in the Andaman Islands licensed fishers in the islands land around 700 tonnes of shells; however none of these figures are reported in existing government catch statistics (Respondents: 196, 198, 201). According to local sources in Port Blair (Respondents: 189,194 and 198) several units continue to operate illegally, collect banned species (Trochus) and smuggle the catches from the islands through Burmese and other avenues. Several people involved in smuggling shells to the Indian mainland have also been caught at ports, but the practice continues unabated 189due to scattered nature of the shellfish extraction and growing nexus between foreign poachers and local communities (Respondent: 196). 6.7.1.2 Fish consumption among indigenous tribes Domestic catches of the five indigenous tribes have also been traditionally unaccounted due to lack of information on their fishing activities. A conservative estimate of their fishing catches was computed using available literature (Sarkar 1993; Rajamanickam 1997; Mishra 2005) and information gathered from NGO?s in the 2008 field trip to the Andaman Islands (Pramod 2008). The average fish consumption per household was multiplied with the number of fishing days to get total fish consumption per tribe per year (Table 6.1). The Great Andamanese are a hunter-gatherer-fisher society restricted to Strait Island where only 25 individuals remain (Venkateshwar 1999). The Onge catch prawns and fish and even use dugout canoes to fish in inshore creeks and shallow waters (Venkateshwar 1999; Venkateshwar 2004). The Nicobarese tribes are restricted to Car Nicobar, Kamorta and Katchal islands (Gupta et al., 2004) and are known to engage in subsistence fishing. The Shompens number 250 and are only found on Great Nicobar Island and engage in fishing throughout the year using dugout canoes which can carry 2-7 persons (Sharief and Rao 2007; Arora 2010). The Jarawa tribe is perhaps the only tribe having the highest population among the five tribes and engages in collection of molluscs and fish in shallow intertidal zones (UNESCO 2010). Some of the marine resources consumed by Jarawa include fish, turtle, crabs (Sesarma sp.), prawns (Metapenaeus sp.), Turbo sp. and Trochus niloticus (Trochus shells) (UNESCO 2010). It is interesting to note that when men are away on hunting trips and when there is shortage of food; women rely on molluscs as major source of animal 190protein in Jarawa communities (UNESCO 2010; Pramod 2008). Jarawa men use bow and arrow to shoot fish, while molluscs and other shells are collected by women and children with bare hands, with both men and women relying on shellfish and fish (~37% of daily animal protein) while camping in coastal areas (UNESCO 2010). Nicobarese tribes are reported to use dugout canoes to catch fish, octopus and crabs (Sivakumar and Rajamanickam 1999). Shompe and Onge tribes are also reported to rely on fish and shellfish for their subsistence needs (Venkateshwar 2004; Patnaik 2006; Reddy et al., 1987). Table 6.1: Estimates of fish consumption by indigenous tribes in Andaman and Nicobar Islands. Sources of information were FSI (2006); Andaman and Nicobar Islands Administration, Port Blair; and information collected through interviews in 2008. 6.7.1.3 Consumption of fish in tourist resorts and local hotels Several sport fishing charters also operate 3-5 day trips from Port Blair, and although the majority has a catch and release policy, a certain quantity of fish is kept for consumption 66 Upper and lower limits of the unreported catch, calculated from interviews in 2008 are given in brackets. 67 Source: Department of Information, Publicity and Tourism, ANI Administration, Port Blair, 2008 Tribe Jarawa Onge Shompen Sentinelese Great Andamanese Nicobarese Total Fish and Shellfish consumption (in tonnes)66 184 (96 - 204) 24 (18-26) 160 (104-174) 22 (20-46) 2.1 (2-6) 1300 (986-1420) 1692 (1226-1876) Population67 241 103 212 100 25 30000 30678 Location Middle and South Andaman Little Andaman, Rutland Island Great Nicobar island Sentinel island Strait Island Car Nicobar Island Andaman & Nicobar islands 191after each trip (Pramod 2008). There are 179 places to stay for tourists visiting Andaman Islands (private hotels and resorts ? 157; Government Guest Accommodation ? 22: Source- Andaman and Nicobar Administration 2010). Nine interviews conducted with fishermen supplying private hotels and resorts in Port Blair revealed that annually around 1023 t of fish and other seafood products are sold to resorts directly (Pramod 2008). 0500001000001500002000002500001990 1991 1992 1993 1994 1995 1996 1997 1998 1999 2000 2001 2002 2003 2004 2005 2006 2007 2008 2009Number ofTourists visting Andman IslandsYear Figure 6.2: Number of tourists visiting Andaman & Nicobar Islands. Figure showing an increase in number of tourists (domestic and foreign) visiting Andaman Islands (Source: Department of Information, Publicity and Tourism, ANI Administration, Port Blair, 2010). 6.7.1.4 Take home catch of island fishers Interviews with fishermen in the Andaman Islands also revealed that reef-based fish catches using cast nets, traps, hook and line from shore are never accounted as the fisheries department mostly take fish catches from licensed fishing boats and motorised vessels into account in the catch statistics (Respondents: 186, 188, 192; Anon, pers comm. 2008). 9 192interviews with fishermen in Andaman Islands revealed that about 1367 tonnes of fish are consumed in fishing households of Andaman and Nicobar Islands (See Table 6.2). Since the interviews were conducted in Andaman Islands only, estimates of fish consumption from these islands had to be used to extrapolate fish consumption in Nicobar Islands. The number of fishermen households in A & N Islands (FSI 2006) was multiplied with average household consumption per year (Pramod 2008) to get total take home catches in A & N Islands. Average household consumption per year was estimated by multiplying average take home per catch per trip into number of fishing trips per year (Pramod 2008). The totals for each fishing village, by district were added to get total take home catch for the Andaman and Nicobar islands (See Table 6.2). 193Table 6.2: Household consumption of fish among fishermen communities of Indian origin in the Andaman and Nicobar Islands. Source: Interviews with fishers in 2008. Island group Number of households68 Average Household consumption / Year (t)69 Lower Limit Upper Limit Ethnicity70 North Andaman (Mayabundar) 149 53.6 39.5 56.6 Bengali, Tamil, Telugu, Hindi, Indian Burmese Diglipur 664 285.2 260.3 318.7 Bengali, Tamil, Malayalam, Telugu, Hindi Middle Andaman (Rangat) 870 217.5 174 261 Bengali, Tamil, Malayalam, Telugu, Hindi Neil Island 75 22.5 15 30 Hindi and Bengali Havelock Island 119 42.1 35.7 47.6 Hindi, Bengali, Tamil and Telugu South Andaman (Port Blair ? Urban) 530 185.5 132.5 331.2 Hindi, Bengali, Tamil, Urdu, Telugu, Malayalam, Punjabi and Uraon (Port Blair ? Rural) 745 284.6 186.2 372.5 Hindi, Bengali, Telugu Little Andaman 311 93.3 77.8 109 Nicobarese, Hindi, Bengali, Tamil, Telugu and Malayalam Baratang 9 3.2 2.7 3.6 Hindi, Bengali, Tamil, Telugu, Malayalam and Uroan Long Island 18 6.4 5.4 7.2 Hindi, Ber Car Nicobar 195 58.5 48.7 68.2 Nicobarese and Ranchi Great Nicobar 45 16 13.5 18 Hindi, Tamil, Telugu, Punjabi, Nicobari and Tribal Language of Shompen Nancowry 98 29.4 24.5 34.3 Nicobarese, Tan Campbell Bay 124 44 37.2 49.6 Nicobari, Hindi, Tamil and Telugu Katchal 69 24.5 20.7 27.6 Nicobari, Hindi, Tamil and Telugu Rutland 3 1 0.9 1.2 Hindi, Bengali, Tamil, and Uroan Total 4024 1367 (tonnes) 1075 1736 68 Source: FSI (2006). 69 This estimate includes consumption of fish during festivals and dryfish consumed during lean periods. 70 Estimates of fish catches and household consumption of the six indigenous tribes (Jarawa, Onge, Shompen, Nicobarese, Sentinelese, and Great Andamanese) are presented separately in Table 6.1. 194Although, reef based fish catches contribute less into the local economy, they are vital sources of animal protein for many impoverished communities in the islands. Moreover, in many communities during the monsoon season, when prices of pulses and other food commodities are higher as commercial ships ply less often from mainland, reefs in vicinity of the community are used more often to catch fish, as even the local boats go less often for fishing due to rough weather conditions prevailing at sea (Pramod 2008). Preliminary estimates off Port Blair region alone suggest that 164 tonnes (range of 142-296 tonnes) of fish and invertebrates are taken from intertidal reefs (Respondents 193 to 197)). More studies are necessary to conduct a much deeper analysis of such reef based subsistence catches for remaining jurisdictions in the islands. Other categories of unreported catches include dried fish, known within the fishermen and local population of islands as ?nappi?, a traditional dish made from dried fish or salted dried prawn relished by the local Burmese community of the islands. Shrimps are caught in lagoons; creeks and mangroves by fishermen in most islands, while carangids, mackerels and sardines are dried for consumption during lean seasons. In all the islands, boat owners and crew keep a certain percentage of catch for consumption by their families (Pramod 2008). During good fishing trips, fishermen also give part of their catch to elders, widows and impoverished people of the local fishing communities as a goodwill gesture. Fishermen in many communities reported that they also give fish to government officials to get favours such as renewal of license, admission for their children to schools, government work etc. Fishing communities in Port Blair also reported that government officials regularly take fish from them at landing centres without paying any money, and fishermen often do not resist 195such attempts due to fear of government officials. Fish consumption was highest among the Bengali community whose diet was dominated by rice and fish, followed by Tamil, Malayalam, Telugu and indigenous tribes. The annual consumption of mollusc meat, prawns and octopus was highest among indigenous tribes compared to settlers from mainland (Respondents: 198, 199, 202; Pramod 2008) and it ranged from 26-92 tonnes. 6.7.1.5 Baitfish used by domestic vessels in the islands Bait fish used in longliners and motorised boats was also estimated in the current study for the first time. There are 5 mechanised longliners targeting tuna, sharks and reef fish operating from Port Blair and Havelock Island, which use around 80 tonnes (16 tonnes bait fish / boat / year), which is caught through trawl net (Respondent 193). Motorised hook and line boats use around 10-20 kg sardines as bait fish per trip with the quantity used depending on catches from previous trip, giving an average of 47 tonnes of bait fish for 397 boats in the islands (Respondents: 193, 195, 198, 202). Table 6.3 gives the total estimate for bait fish used by fishing vessels in the islands. Fishers in the Andaman and Nicobar islands use 127 tonnes of bait fish every year, and this has been estimated for the first time as such estimates have never been formally quantified in previous studies. 6.8 Conclusion In data poor fisheries, such as in the Andaman and Nicobar Islands, this is perhaps the first study to use knowledge of fishermen to provide a comprehensive picture of foreign and domestic illegal and unreported catches. Estimates from this study show an illegal and 196unreported catch of about 40,000 tonnes every year from the Andaman and Nicobar islands EEZ. A detailed explanation of these catches is given below in Table 6.3. Table 6.3: Total estimate of illegal and unreported catches in the EEZ of Andaman and Nicobar islands. Derived from interviews in the 2008 IUU trip to the Andaman Islands. Category Illegal or Unreported Total (in tonnes) Lower limit (in tonnes) Upper Limit (in tonnes) Molluscan Shell fish catches Unreported 700 520 740Fish consumption among indigenous tribes Unreported 1692 1200 1870Fish sold to Tourist resorts and hotels Unreported 1023 890 1400Fishermen take home catch Unreported 1367 1075 1736Reef based subsistence catch (Port Blair only) Unreported 164 142 296Bait fish fisheries Unreported 127 120 180Illegal Trochus catch by foreign boats Illegal 244 195 294Illegal Sea Cucumbers catch by foreign boats Illegal 247 123 494Illegal finfish catch by foreign trawlers Illegal 34000 16100 44200Total 39564 20365 51200 A detailed quantitative estimate of illegal catches of Trochus, Sea cucumbers and Finfish from foreign fishing vessels was calculated using illegal catch confiscated from arrested vessels, and number of vessels arrested in the islands (GIUFI 2010). The upper and lower limits of illegal catch were estimated using data collected through interviews (Pramod 2008) with fishers operating in the islands waters. 197 Figure 6.3: Estimates of sea cucumbers catch taken by illegal foreign fishing vessels in the Andaman & Nicobar Islands. Estimated total illegal catch (t) taken by foreign fishing vessels in the Andaman and Nicobar islands EEZ (1970-2010). The red line in the figure represents the estimated illegal catch that was confiscated from vessels that were arrested in Andaman & Nicobar waters from 1982-2010. The lower and upper bound estimates were derived from IUU fishing trip interviews (Pramod 2008), surveillance data in GIUFI (2010), Industry and Government records of vessels that were observed poaching in Andaman & Nicobar EEZ territory. During the 1980-1990 period, foreign fishing vessels (mostly Burmese and Thai boats) illegally took at least 10 to 50 tonnes of sea cucumbers in the Islands EEZ (Figure 6.3). Lack of enforcement encouraged more fishing boats to enter unhindered in the next decade from 1990-2000, increasing illegal sea cucumbers catch to around 170 tonnes every year. In the subsequent decade from 2000-2004 poaching declined in some island territories, before increasing to 247 tonnes in 2010 (Respondents: 193, 195). Illegal trochus catch (mostly Burmese boats) ranged from 8 to 20 tonnes in the eighties, before increasing to around 40 to 150 tonnes in the nineties (Figure 6.4). Illegal trochus catch 198increased further from 150 to 200 tonnes each year during the last decade. Notably, the increase in trochus catches during the last decade were largely due to change in poaching strategies by Burmese poachers using each boat to target both sea cucumbers and trochus for each trip whereas in prior decades (1980-2000) majority of Burmese boats targeted both trochus and sea cucumbers exclusively using separate boats. A spike in illegal trochus catch in recent years was also due to the ability of Burmese poachers to form nexus with local trochus smugglers of Indian origin in the Andaman Islands (Anon 2009i; Anon 2010j; Anon 2010k). Illegal catch of trochus, sea cucumbers and other marine wildlife products confiscated from arrested domestic poachers at Port Blair port (residents of Andaman & Nicobar islands) was also quantified and presented in Table 6.4. These domestic Indian poachers on the islands smuggle sea cucumbers to India through passenger vessels that commute between mainland and the islands every week. The sea cucumbers are then smuggled to Sri Lanka through Tamil Nadu. Trochus shells are illegally trafficked to Burmese poachers through northern Andaman. 199 Table 6.4: Sea cucumbers, gastropods and corals seized by Andaman and Nicobar Police. Marine products seized from Indian smugglers in the Andaman and Nicobar Islands (Source: GIUFI (2010). Year Wildlife Product Quantity of illegal shells and Sea cucumbers confiscated 1978 Turbo Shells 2000 Turbo shells 1993 Red Corals 12 bags red corals 1993 Trochus 420 kg Trochus shells 1995 Trochus 600 kg Trochus shells 1997 Trochus 2 bags Trochus shells 1998 Trochus 6 gunny bags Trochus 1999 Sea Cucumbers 150 kg Sea Cucumbers 2001 Trochus 4182 Trochus shells (worth Rs. 2 lakh) 2001 Sea Cucumbers 40 kg Sea cucumbers 2003 Sea Cucumbers 105 kg Sea cucumbers 2003 Trochus 98 kg Trochus shells 2004 Trochus 300 kg Trochus shells 2004 Trochus 244 bags (5.6 tonnes) 2006 Trochus 11 bags Trochus 2007 Trochus 400 numbers Trochus 2007 Sea Cucumbers 95 kg Sea Cucumbers 2007 Sea Cucumbers 3 kg Sea cucumbers 2007 Trochus 2200 kg Trochus 2008 Red Corals 16 kg Red Corals 2008 Trochus 950 kg Trochus shells (worth Rs. 50,000) 2009 Trochus 2560 numbers Trochus shells 2009 Turbo shells 100 kg Turbo shells 2009 Cowries 35 kg Cowry Black shells 2009 Cowries 3 kg Cowry Brown shells 2009 Button Shells 15 kg Button shells 2010 Olive Ridley turtles 5 Olive Ridley Turtles 2010 Trochus 80 kg Trochus 2011 Turbo shells 147 kg Turbo shells 200 Figure 6.4: Estimates of illegal trochus catch taken by foreign fishing vessels in the Andaman and Nicobar Islands. Estimated total illegal catch (t) taken by foreign fishing vessels in the Andaman and Nicobar islands EEZ (1970-2010). The red line in the figure represents the estimated illegal catch that was confiscated from vessels that were arrested in Andaman & Nicobar waters from 1982-2010. The lower and upper bound estimates were derived from IUU fishing trip interviews (Pramod 2008), surveillance data in GIUFI (2010), Government records of trochus vessels that were observed poaching in Andaman & Nicobar EEZ territory. Estimates of illegal catches by foreign trawlers targeting finfish such as tuna, sharks and reef fish involved boats of different countries, with their number and illegal catch per vessel depending on their flag, size and tonnage. Foreign trawlers target different species within the Andaman and Nicobar islands EEZ. Indonesian trawlers target finfish while the smaller boats target sharks for the fin trade; Thai boats target sea cucumbers and ornamental fish in Nicobar waters, while the bigger Thai trawlers target snappers, tuna and sharks in offshore waters; Burmese trawlers target tuna and reef fish; Sri Lankan longliners target yellowfin 201tuna and sharks; Taiwanese trawlers target reef fish, tuna and sharks. Further, the illegal catch for each vessel by respective flag differed by season, location and tonnage of the boats. Figure 6.5: Estimates of illegal finfish catch taken by foreign fishing vessels in the Andaman and Nicobar Islands. The illegal finfish catch was estimated from number of illegal fishing vessels arrested in the island?s EEZ. Upper and lower limits reflect illegal catch estimates using data of number of boats observed poaching in island waters collected through interviews with skippers of Indian trawlers, crew of LoP longliners and small-scale fishers operating in A & N islands EEZ. The illegal catches for the period 1968-1980 were for foreign vessels observed poaching within 12 nautical miles from the shore. Illegal finfish vessels caught 20,000 to 85,000 tonnes in the first decade from 1970-1980 (Figure 6.5). Poaching only declined in the post-1980 period, with illegal catch decreasing to a range of 18,000 to 70,000 tonnes alluding to improvement in monitoring control and surveillance by Indian Coast Guard limiting such incursions into the Indian EEZ. In the next decade due to presence of Coast Guard and A&N Marine Police vessels poaching decreased in the northern Andaman waters. During 1990-2000, illegal catch ranged from 23,000 to 20260,000 tonnes, followed by a spike in incursions for tuna and sharks in offshore waters off the islands leading to illegal catch in the range of 40,000 to 84,000 tonnes (Respondents: AN13, AN18, AN23). The finfish catches of illegal foreign fishing vessels are a conservative estimate, as most of the sources were from interviews with skippers of Indian fishing vessels, which seldom operated beyond 20 miles from the islands EEZ. So, there is shortage of reliable estimates of upper and lower bounds for the illegal finfish trawlers operating within the offshore waters of the Andaman and Nicobar Islands EEZ. According to local sources (Respondents: 196,199), Coast Guard and other surveillance agencies face a daunting task of protecting natural resources in these islands due to five reasons. Firstly, the Coast Guard often finds it difficult to apprehend poachers as they often sneak into shallow creeks and mangrove areas on sighting patrol ships to avoid apprehension, as Coast Guard ships have draught restriction and cannot enter shallow waters. Secondly, the Burmese poachers often hide their boats and contraband in numerous shallow creeks and mangroves making them difficult to sight during routine aerial and sea based patrols. Most of the smuggling of illegal fishing products is undertaken at night, with most interceptions only viable during routine sighting at sea or during transit towards Burmese waters from the Islands (Respondent: 197, 199). Thirdly, poachers routinely construct illegal camps in the forests, making it difficult to stop their operations unless detected during patrols at sea. Fourthly, even if the Coast Guard makes a physical interception at sea, its boats cannot engage in active pursuit if the poachers flee towards inland creeks and mangroves, and often have to wait for reinforcements from Marine Police and IRBn to arrest poachers from the wilderness of the remote islands (Pramod 2008). 203Illegal and unreported catches in Andaman and Nicobar islands were estimated for the first time and interviews with fishers revealed that 40,000 tonnes remain unaccounted each year. Conservative estimates from interviews in 2008 revealed that illegal fish catches by foreign fishing vessels in Andaman Islands were 34,000 tonnes per year and were primarily directed at sea cucumbers, trochus and finfishes. Conservative estimates of unreported catches from five different sectors (See Table 6.3) puts estimate at 5700 tonnes each year (Molluscan shell fish catches: 700 tonnes; Fish consumption among indigenous tribes: 1692 tonnes; Fish sold to tourist hotels and resorts: 1023 tonnes; Take home catch of Indian fishers in the islands: 1307 tonnes; Reef based subsistence catch: 164 tonnes and bait fish catch: 847 tonnes per year). 6.9 Chapter 6 summary Illegal fishing continues to persist in Andaman and Nicobar islands due to loss of deterrence, mainly due to repatriation of Burmese and Thai poachers on a regular basis. Interviews in 2008 revealed that during short prison sentence in the Andaman Islands, poachers come in contact with locals and learn the language to act as contacts for smuggling trochus and sea cucumbers during subsequent illegal trips. The poachers return to continue poaching in the remote islands, with some Respondents (189.192, 199 and 201) stating that poachers know more about local topography and fishing activities of locals and use them to their advantage in coordinating smuggling operations. Respondent 198 stated that people of the northern Andaman Islands (who speak Burmese) often provide local support for Burmese poachers to conduct smuggling operations. 204The Andaman and Nicobar Command (ANC) comprised of Indian Navy and the Indian Coast Guard is the only Joint Command, which plays an active role in coordinating surveillance operations with Andaman and Nicobar Marine Police and IRBn to apprehend foreign fishing vessels at regular intervals. However, their efforts can only pay dividends if more stringent action is taken against arrested poachers as they are regularly repatriated by the Indian Government, only to return and continue their poaching operations in the islands. Other issues plaguing enforcement include unavailability of proper patrol boats for apprehending poachers operating in shallow waters. Community based policing and closer co-ordination with marine police can help in better enforcement and protection of islands resources from foreign poachers. Das (2010) attributes continuation of poaching in the islands to three factors, namely underdevelopment of fishing industry, existence of scattered uninhabited islands serving as hideouts for poachers and loss of element of deterrence due to regular repatriation of the Burmese poachers. Most of the islands in the Andaman and Nicobar islands are densely forested making it difficult to detect illegal poacher camps in remote islands. Most of the remote islands used by Burmese poachers are uninhabited with routine anti-poaching operations at sea and observations of small-scale fishers the only modes to detect violations in the remote islands. Majority of the islands in the northern Andaman, western side of Jarawa tribal reserve are virtually unpatrolled as there are no Indian fisher settlements or any other human settlement in these islands (Respondents: 196,199, 201, 202). During interviews in 2008, people working for NGO?s and researchers in Government establishments noted that Jarawa areas have been plundered on a large-scale by Burmese poachers due to absence of Indian small- 205scale fisheries in these jurisdiction and low physical presence of tribes along the large coastline in central and northern Andaman islands (Respondents: 195, 196). They also noted that Jarawa men often complain about presence of Burmese poachers in their territories during routine food distribution by Government officers, and such information is conveyed to Indian Coast Guard for further action. Often, such information is difficult to comprehend for local government authorities due to presence of few translators (the tribes speak a different language from the local Indians) during food distribution or contact during specific period. 206Chapter 7: Conclusion This thesis is focused on addressing two aspects of illegal and unreported fishing. Chapters 1 to 3 have a global perspective, looking at incentives that drive illegal and unreported fishing, while chapters 4 to 6 are focused on estimating different categories of illegal and unreported catches that are poorly quantified in Indian fisheries. Chapter 1 provides an overview of different incentives for illegal fishing such as governance, corruption, low penalties, subsidies, organized crime, fleet overcapacity, flags of convenience, poor monitoring, control and surveillance (MCS) etc. In Chapters 2 and 3, I chose two of these incentives, namely illegal fishing penalties and MCS for an in-depth global analysis. For the work in India reported in Chapters 4, 5 and 6, I use data collected through field interviews in 2008 to estimate illegal and unreported catches in the Indian EEZ. I will now summarize the main research findings and discuss the relevance of my results in the context of illegal and unreported fishing. Next, I will discuss limitations of the research and provide suggestions to apply this research in future studies. 7.1 Main findings 7.1.1 Incentives that allow illegal fishing to persist in the world?s EEZs The estimated worldwide extent of losses from illegal and unreported fish catches (excluding discards) ranges from 11 to 26 million tonnes, resulting in economic loss of $10 bn to 23.5 bn annually (Agnew et al., 2009). The dynamics of fishing fleets; gears and people involved in the fisheries sector differ from country to country. These dynamics are influenced by different financial, social and political incentives in each country, which necessitates 207effective management policy for both domestic and foreign fleets operating within their EEZ. My findings from Chapter 1 suggest that the incentives for illegal fishing depend on the efficacy of institutions and MCS assets allocated to address this issue in each jurisdiction. Incentives such as corruption and poor MCS are important drivers in developing countries (other incentives in the developing world include weak governance, subsidies, poverty, indebtedness etc.), while fleet overcapacity and subsidies assume importance in the developed world. In countries where the scale of illegal fishing problems are identified, a range of other factors like low prosecution rate (e.g., India) (Pramod 2010) and lack of accountability (Sembony 2009; Murias 2010; Anon 2010b) in the judicial process (e.g., Tanzania, Peru) have been identified as stumbling blocks to controlling illegal fishing. The complexities involved in controlling illegal catch within the whole supply chain from vessel, to markets and the buyer need significant improvement in the next step towards efforts in controlling illegal fishing. 7.1.2 Is monitoring control and surveillance adequate in world?s fisheries? My findings in Chapter 3 show that, although major strides have been initiated in developing good MCS infrastructure, such measures have not been backed by effective implementation of national and international laws, leading to poor compliance. My findings also suggest that developed countries with better MCS capabilities might gradually overcome these shortfalls, but developing countries with growing population, large EEZs and poor MCS infrastructure would be the most affected due to pilferage of fishery resources with long-term implications to food security. In the resource rich, yet poor economies of West Africa, findings suggest lack of financial resources as major constraint to deter illegal fishing. 2087.1.3 Are illegal fishing penalties a significant deterrent to poachers? Analysis of illegal fishing penalties in 109 countries over a three-decade period (reported in Chapter 2) shows that current penalties do not pose a significant deterrent to poachers (See illegal fishing cases in Appendix A and Chapter 2) and in many cases the penalty levied on illegal fishing was not even worth the illegal catch found on the offending vessel. On the other hand, for instance, illegal fishing cases in Australia illustrate that confiscation of catch and vessel engaged in the illegal activity can send a strong signal to the IUU vessel operators and to a certain extent would also assist in recovering high costs associated with patrolling vast EEZs. The current analysis is to my knowledge, the first global analysis covering a 30 year period (1980-2009) to track over 1211 illegal fishing cases (Shellfish, Mollusks, Finfishes etc.) from the time of the actual incident to its final prosecution in court, potentially providing valuable data to enforcement agencies. This data can help in identifying shortcomings in the existing penalty framework in many of these countries to improve the penalty regime. 7.1.4 Factors driving illegal and unreported catch in the Indian EEZ The 7-month field trip, during which I interviewed 203 respondents, gave a very good opportunity to look at factors driving illegal and unreported fishing in Indian waters. While the main focus of the interviews was to estimate the quantity of illegal and unreported catches (Chapters 4,5, and 6), interviews also provided information on some of the issues that drive these activities. Some of the main findings are explained below. Categories discussed here include a) Weak governance; b) controlling illegal catches on foreign chartered vessels 209operating in Indian EEZ; c) Overcapacity in artisanal and industrial fisheries and; d) influence of peer behavior. 7.1.4.1 Weak governance Interviews with fishers along the eight coastal states showed that institutional failure is prevalent in all the coastal states, esp., in controlling illegal fishing. With the exception of Orissa, State fisheries departments and Federal government agencies in all the eight coastal states do not have the resolve to implement existing state and federal fisheries legislations. Interviews reveal that existing laws are not being enforced through formal or informal norms leading to poor compliance. The main flaw with fisheries policy in Indian waters is that coastal states (e.g., Andhra Pradesh) have the mandate to manage fisheries in 0-12 nautical mile limit, with the federal government responsible for managing resources beyond 12 miles. This essentially leaves bulk of small-scale fisheries and significant part of industrial fisheries within a state?s responsibility. However, most coastal states in India do not allocate adequate funds for the fisheries sector, as there is hardly any revenue in the open access Indian fisheries. Moreover, the state?s resources are overstretched for providing fuel subsidies, which are severely straining their annual budgets due to rising fuel prices. In many states, Fisheries Department staff stated that there is very high overcapacity in the trawl sector and State cannot afford to give subsidized fuel to all the vessels. Four respondents (5, 46, 67, 84, 92) in coastal states (Andhra Pradesh, Tamil Nadu, Gujarat and Maharashtra) stated that, due to declining profits many trawler owners are retaining their vessel permits and selling the allocated subsidized fuel to black markets as they are not making profits from fishing trips anymore. Government and international donor projects 210should concentrate on restoration of commercial fish stocks (For e.g., Hilsha fish stock71 if managed sustainably is worth US$ 260 million each year (Mome 2007) in Bangladesh itself) as a means to provide sustainable livelihood to coastal communities. 7.1.4.2 Controlling illegal catches from chartered foreign tuna longliners My findings are to my knowledge, the first in highlighting the extent of illegal catches taken by Taiwanese tuna longliners operating under LoP (Letter of Permission) permits in Indian waters. My findings clearly suggest that the current LoP scheme is not working. Data from interviews suggest that during the year 2007 alone, Indian government lost around 24,000 tonnes through illegal transshipments by the Taiwanese owned tuna longliners operating under the LoP scheme. The LoP tuna longliners from Taiwan fish in the Indian EEZ from November to April each year, and subsequently leave Indian EEZ for the next 6 months. If the vessels are registered and sold to the Indian company under the LoP scheme, this shouldn?t be happening. My findings suggest that tuna longliners operating under LoP permit should be first asked to land their catch in Indian ports before transshipment to foreign ports. This can curtail the huge economic loss due to illegal transshipments and massive under-reporting of tuna catches, esp., by Taiwanese longliners. The excuse used by joint venture companies that Indian ports do not have capacity to process tuna for the Japanese sashimi market is flawed as Indian longliners (around 40 longliners) are landing and exporting processed tuna caught from the same fishing grounds through Indian ports. This can stop the 71 The Hilsha (Indian Shad) is a highly migratory species that is found in coastal waters of Myanmar, Bangladesh and India. In Indian waters, the Hilsha stock is present in waters from Orissa to West Bengal, but the stock has declined due to poor management and harvest practices over the past three decades. Almost 90% of the stock is currently exploited in Bangladesh and Indian EEZ. 211pilferage and under-reporting of tuna caught in the Indian EEZ. Public disclosure of LoP agreements can help in making these agreements more transparent. Vessel monitoring system should be installed as a condition for the license on all LoP vessels to monitor their movements in the Indian EEZ. The VMS data should be monitored by the Coast Guard to ensure immediate action for illegal activities. These actions are necessary, as current measures do not seem to be effective in monitoring entry exit requirements for Taiwanese tuna longliners. Recent report from Indian Coast Guard in 2009 corroborate the extent of illegal tuna transshipments by LoP vessels in Indian waters, with as many as 22 LoP vessels recalled by Coast Guard (Period: Nov 1, 2008 to Jan 31, 2009) for not fulfilling the conditions of LoP license and exiting Indian EEZ without prior clearance from Coast Guard and Indian Customs (Anon 2009e). My findings also suggest that the Indian Government lacks the accountability and political will to act against poachers apprehended in Indian EEZ. When foreign fishing vessels are arrested, more media attention needs to be focused on action taken by courts and the government to act as a deterrent from releasing illegal vessels without proper prosecution or fines. As Ostrom?s study suggests, rules can be only effective if they are reinforced through monitoring and sanctions on offending free riders (Ostrom 2000). 7.1.4.3 Overcapacity in trawl and artisanal fisheries The open access nature of fisheries management in Indian waters has contributed to a ?race to money? among both small-scale and commercial sectors. Since the mechanization of the Indian fishing sector in the early sixties, State funds have been poured into increasing fishing 212capacity without studies to assess its impacts on coastal habitats and fisher?s catches. Allocation of property rights to village councils could alleviate problems due to gear conflicts and clashes between neighbouring villages over fishing grounds. During the interviews in 2008, fishers stated that overcapacity was one of the main issues affecting resource use in Indian small-scale fisheries. Similar observations have been made in other Southeast Asian countries like Cambodia, Thailand and Philippines (Salayo et al., 2008; Pomeroy 2012), where overcapacity has been identified as a major policy concern. Pomeroy (2012) suggests an integrated approach of resource conservation, restoration and community development as solution to the overcapacity problem in Southeast Asian fisheries. Small-scale fishers in Andhra Pradesh suggested that state and federal government should tax (?Polluter?s pay tax?) industries or commercial enterprises like power plants, industries and pharma plants which release effluents into coastal waters; and those funds should be used for restoration of coastal habitats as well as communities affected by such activities. My findings suggest that the Indian Government laws should also regulate the sale of smaller meshed fishing gears as easy availability of illegal fishing gears is also undermining compliance in small-scale fisheries. Inadequate enforcement of state and federal laws had contributed to widespread use of smaller meshed nets. Smaller meshed gears contribute to bycatch of juvenile fish (recruitment overfishing) with major impact on fishers? income (low price for smaller fish) and lower standards of living in the long run. My findings suggest that it would also be helpful if State governments should enact size limits for major commercial species, and raise public awareness on the need for such management actions. 213State and Federal Government should also realize that there is an immediate need to reduce overcapacity in both small-scale and industrial fishing sectors, as overcapacity has led to increase of smaller meshed gears in artisanal fisheries, while overcapacity in the industrial sector has contributed to increasing incursions of trawlers into (i) inshore grounds allocated for artisanal fishers (ii) encroachment of trawlers into fishing grounds in neighbouring states (Andhra Pradesh trawlers fishing in Orissa?s marine sanctuaries) and (iii) and illegal incursions into foreign EEZs (e.g., Tamil Nadu trawlers into Sri Lankan EEZ; Gujarat trawlers into Pakistan EEZ). Recently, the small-scale fishermen?s union in Tamil Nadu have filed public interest litigation (PIL) in Madras high court seeking action against use of trawlers and prohibited nets in the inshore artisanal zone (Anon 2012). This measure is largely seen as last-ditch effort by small-scale fishers to protect their interests, as their repeated grievances to the state government have remained unanswered. 7.1.4.4 Influence of peer behavior Fisher?s behavior is of immense importance for individuals to engage in illegal activity (Pramod 2010; Hauck 2008). In the Indian state of Orissa, fishers were of the opinion that there was a marked increase in use of smaller meshed gillnets when fishers noticed an increase in catches from one group of fishers using illegal gears in the fishing village, which eventually spread to other fishers, with the whole village using smaller meshed gillnets within a span of five years. In the Indian State of Kerala, fishers were of the opinion that easy availability of illegal fishing gears motivated them to engage in illegal fishing activity. Small-scale fishers in the State of Kerala (India) also engaged in illegal activity, which arose out of a decline of resource due to depletion of fish stocks by trawler intrusions into artisanal fishing grounds. Lack of enforcement was evident as subsistence and full-time artisanal 214fishers found it more profitable to switch to smaller mesh gillnets arguing that increased encroachment of trawlers has resulted in such actions (Pramod 2010). In the state of West Bengal (India), it was observed that part-time fishers engage more often in illegal activity, with their actions influencing catches of full-time fishers. In the Indian States of Maharashtra and Gujarat, small-scale fishers stated that in the past they were interested in protecting the resource as the whole community depended entirely on fishing. In recent years due to increasing indebtedness, fishers work as daily labour, with gear and fuel costs funded by agents and moneylenders who encourage them to catch more to make profit from each fishing trip. Fishers stated that in the past as a community, decisions were taken to manage the resource (e.g. fishing ban during full moon period and area closures to protect spawning aggregations); in recent decades most of fishing trips are funded by moneylenders and boat owners who provide incentives to use illegal fishing gear more often, in comparison to frequency of appropriate traditional fishing gears used during different periods in a year in the past (Pramod 2010). Co-management, with partnership between government agencies, fishers and other stakeholders would help in improving compliance in the small-scale fisheries (Jentoft 1989; Kuperan et al., 2003; Berkes et al., 2001). By any count, state and federal governments lack the capacity to monitor numerous small-scale landing centres along India?s vast coastline. Fishing co-operatives and village councils should be empowered to fathom the losses due to use of illegal fishing gears and awareness campaigns need to be conducted to improve compliance. During the interviews in 2008, I was surprised to see that in many fishing villages, small-scale fishers were not aware of the existing laws that prohibit destructive 215fishing practices. Creation of group-based or community property rights (gillnet fishers, hook and longline fishers, subsistence fishers, shellfish fishers etc.) were suggested as solution by most fishers to address the compliance issues. 7.2 Future directions The purpose of the thesis was to provide information on key issues such as illegal fishing penalties, poor monitoring control and surveillance (MCS) that are plaguing sustainable management of fish stocks worldwide. Illegal and unreported fishing is a problem that does not recognize national boundaries or international laws. The thesis shows that illegal fishing thrives in regions where penalties are weak and is one of the main impediments to sustainable management of fish stocks in many jurisdictions. My findings in Chapter 1 suggest that it would be useful to expand study to evaluate other incentives such as governance, corruption, and fleet overcapacity to facilitate a greater understanding of the IUU problem. The analysis on illegal fishing penalties in Chapter 2 can be extended to many other countries, esp., in Africa, Middle East and South America if governments come forward to share this information through government websites and publications. While the thesis has contributed to understanding two main incentives namely penalties and MCS, I noticed that there are a plethora of other incentives, which contribute to this problem globally. When more data becomes available, the current evaluation for Monitoring control and surveillance in Chapter 3 can also be extended to more countries to provide a global perspective on this intriguing problem. 216Achieving compliance is an overarching goal of many coastal nations, and although countries have signed several international fisheries laws (UNCLOS, UNFSA, IPOA on IUU Fishing etc.) to meet these goals, compliance with these international fisheries laws is voluntary and United Nations has no means to check their effectiveness. Studies to measure the effectiveness of these laws should be conducted every 3-5 years (e.g., Pitcher et al., 2009, also see Chapter 3) by UN or other international agencies to serve as leverage to measure compliance of signatory nations. As aptly stated by India?s founding leader Mahatma Gandhi ?'There is enough for everyone's need but not for everyone's greed? commercialization with gross disregard to laws has led to decline in Indian fisheries. 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NAGA: Worldfish Center Quarterly, 27(3&4), 20-23. 257Appendix A: Cost benefit analysis for 1211 illegal and unreported fishing penalty incidents in 109 countries. No. Arresting Country Vessel / Gear Illegal Catch / Fishery Number of vessels Catch (t) Catch value (USD) Expected Revenue (USD) Variable Cost (USD) ? Fine (USD) Expected Penalty (USD) Total Cost (USD) Total Cost / Expected revenue New Fine Canada 1980-1994 1 Canada Fishing trawler Atlantic Cod 2 1.7 691 622 346 0.1 14614 1461 1807 2.91 0.09 2 Canada Fishing trawler Atlantic Cod 1 8.5 5635 5072 2884 0.1 18853 1885 4769 0.94 0.58 3 Canada Fishing trawler Atlantic Cod 1 100 109890 98901 18000 0.1 21978 2198 20198 0.20 18.40 4 Canada Fishing trawler Atlantic Cod 1 2 788 709 412 0.1 3663 366 778 1.10 0.41 5 Canada Fishing trawler Atlantic Cod 1 17 7376 6638 4892 0.1 36564 3656 8548 1.29 0.24 6 Canada Fishing trawler Finfishes nei 1 7.5 3278 2950 1432 0.1 30957 3096 4528 1.53 0.25 7 Canada Fishing trawler Finfishes nei 1 12.4 30165 27149 10606 0.1 59121 5912 16518 0.61 1.40 8 Canada Scallop dragger Scallops 2 3.5 11519 10367 1010 0.1 64794 6479 7489 0.72 0.72 9 Canada Scallop dragger Scallops 1 10.9 19000 17100 8398 0.1 119000 11900 20298 1.19 0.37 10 Canada Scallop dragger Scallops 1 0.3 2197 1977 331 0.1 98000 9800 10131 5.12 0.08 11 Canada Fishing vessel Finfishes nei 1 9.3 3664 3298 1422 0.1 500 50 1472 0.45 18.76 12 Canada Fishing vessel Sockeye Salmon 1 3.6 14617 13155 1173 0.1 12864 1286 2459 0.19 4.66 13 Canada Longliners Tuna 3 57 137883 124095 39134 0.1 219699 21970 61104 0.49 1.93 USA 1 USA Fishing trawler Finfishes nei 1 54 122850 110565 10834 0.1 700000 70000 80834 0.73 0.71 2 USA Fishing trawler Finfishes nei 2 12 27300 24570 1596 0.1 400000 40000 41596 1.69 0.29 3 USA Fishing trawler Finfishes nei 5 30 89670 80703 7210 0.1 363300 36330 43540 0.54 1.01 4 USA Fishing trawler Finfishes nei 2 12 30660 27594 3132 0.1 300000 30000 33132 1.20 0.41 5 USA Fishing trawler Finfishes nei 1 12 30300 27270 9048 0.1 325000 32500 41548 1.52 0.28 6 USA Fishing vessel Finfishes nei 6 36 102060 91854 8060 0.1 855000 85500 93560 1.02 0.49 7 USA Fishing vessel Finfishes nei 3 18 51030 45927 10170 0.1 650000 65000 75170 1.64 0.28 8 USA Fishing vessel Finfishes nei 3 18 51030 45927 4894 0.1 400000 40000 44894 0.98 0.51 9 USA Fishing vessel Finfishes nei 3 18 51030 45927 3696 0.1 255000 25500 29196 0.64 0.83 10 USA Fishing vessel Finfishes nei 3 3 8505 7655 732 0.1 5816 582 1314 0.17 5.95 258No. Arresting Country Vessel / Gear Illegal Catch / Fishery Number of vessels Catch (t) Catch value (USD) Expected Revenue (USD) Variable Cost (USD) ? Fine (USD) Expected Penalty (USD) Total Cost (USD) Total Cost / Expected revenue New Fine 11 USA Fishing vessel Finfishes nei 2 12 34020 30618 2640 0.1 387000 38700 41340 1.35 0.36 12 USA Fishing vessel Finfishes nei 2 12 34020 30618 13020 0.1 300000 30000 43020 1.41 0.29 13 USA Fishing vessel Finfishes nei 19 114 323190 290871 65094 0.1 3400000 340000 405094 1.39 0.33 14 USA Fishing vessel Finfishes nei 5 723 3000000 2700000 495978 0.1 4330000 433000 928978 0.34 2.55 15 USA Fishing vessel Finfishes nei 3 60 154260 138834 45660 0.1 825000 82500 128160 0.92 0.56 16 USA Fishing vessel Finfishes nei 4 24 79896 71906 18264 0.1 100000 10000 28264 0.39 2.68 17 USA Fishing trawler Salmon 1 3.6 21171 19054 1173 0.1 5000 500 1673 0.09 17.88 18 USA Fishing vessel Tuna 1 18 90054 81049 4338 0.1 1120000 112000 116338 1.44 0.34 19 USA Anchovy Seiner Anchovies 1 65 10140 9126 7800 0.1 14000 1400 9200 1.01 0.47 20 USA Fishing trawler Shrimps 6 36 836172 752555 15336 0.1 90000 9000 24336 0.03 40.96 Mexico 1 Mexico Purse Seiner Tuna 1 84.3 100000 90000 20569 0.1 313000 31300 51869 0.58 1.11 2 Mexico Purse Seiner Tuna 3 252 298872 268985 61488 0.1 39900 3990 65478 0.24 26.00 3 Mexico Purse Seiner Tuna 1 15 17790 16011 4890 0.1 55147 5514.7 10404.7 0.65 1.01 4 Mexico Purse Seiner Tuna 2 831 986000 887400 270906 0.1 14000 1400 272306 0.31 220.18 5 Mexico Purse Seiner Tuna 1 350 300,000 270000 114100 0.1 306700 30670 144770 0.54 2.54 6 Mexico Purse Seiner Tuna 1 410 465760 419184 133660 0.1 403000 40300 173960 0.41 3.54 7 Mexico Longliner Sharks 1 200 82200 73980 52894 0.1 85000 8500 61394 0.83 1.24 8 Mexico Longliner Squids 2 800 1058400 952560 657600 0.1 180000 18000 675600 0.71 8.19 Argentina 1 Argentina Fishing trawler Finfishes nei 1 570 677160 609444 131100 0.1 300000 30000 161100 0.26 7.97 2 Argentina Fishing trawler Finfishes nei 1 140 376110 338499 32200 0.1 120000 12000 44200 0.13 12.76 3 Argentina Fishing trawler Finfishes nei 1 250 147500 132750 36400 0.1 150000 15000 51400 0.39 3.21 4 Argentina Fishing trawler Finfishes nei 1 8.7 5275 4748 1331 0.1 50000 5000 6331 1.33 0.34 5 Argentina Fishing trawler Finfishes nei 1 5 2635 2372 2100 0.1 150000 15000 17100 7.21 0.0091 6 Argentina Fishing trawler Finfishes nei 1 1.5 819 737 642 0.1 200000 20000 20642 28.00 0.0024 259No. Arresting Country Vessel / Gear Illegal Catch / Fishery Number of vessels Catch (t) Catch value (USD) Expected Revenue (USD) Variable Cost (USD) ? Fine (USD) Expected Penalty (USD) Total Cost (USD) Total Cost / Expected revenue New Fine 7 Argentina Fishing trawler Finfishes nei 1 0.9 970 873 764 0.1 450000 45000 45764 52.42 0.0012 8 Argentina Fishing trawler Finfishes nei 1 4 4312 3881 3256 0.1 450000 45000 48256 12.43 0.007 9 Argentina Fishing trawler Finfishes nei 1 40 43120 38808 16000 0.1 450000 45000 61000 1.57 0.25 10 Argentina Fishing trawler Finfishes nei 1 0.03 35 32 23 0.1 850000 85000 85023 2699.14 0.00005 11 Argentina Fishing trawler Finfishes nei 1 0.3 275 248 207 0.1 450000 45000 45207 182.65 0.0005 12 Argentina Fishing trawler Hake 1 3.4 1791 1612 1426 0.1 150000 15000 16426 10.19 0.0062 13 Argentina Fishing trawler Hake 1 0.02 15 14 9 0.1 450000 45000 45009 3334.00 0.00005 14 Argentina Fishing trawler Squids 1 35 167895 151106 26635 0.1 50000 5000 31635 0.21 12.45 15 Argentina Fishing trawler Squids 1 50 239850 215865 25550 0.1 50000 5000 30550 0.14 19.03 16 Argentina Fishing trawler Squids 1 66 515922 464330 61776 0.1 15000 1500 63276 0.14 134.18 17 Argentina Fishing trawler Squids 1 150 1172550 1055295 134100 0.1 250000 25000 159100 0.15 18.42 18 Argentina Fishing trawler Squids 1 280 2188760 1969884 250320 0.1 350000 35000 285320 0.14 24.57 19 Argentina Fishing trawler Squids 1 205 1602485 1442237 235955 0.1 250000 25000 260955 0.18 24.13 20 Argentina Fishing trawler Squids 1 72 562824 506542 26064 0.1 250000 25000 51064 0.10 9.61 21 Argentina Fishing trawler Squids 1 62.6 377415 339674 55964 0.1 300000 30000 85964 0.25 4.73 22 Argentina Fishing trawler Squids 1 100 602900 542610 89400 0.1 400000 40000 129400 0.24 5.67 23 Argentina Fishing trawler Squids 1 75 452175 406958 56550 0.1 500000 50000 106550 0.26 3.50 24 Argentina Fishing trawler Squids 1 0.001 8 7 4 0.1 700000 70000 70004 9722.78 0.00002 25 Argentina Fishing trawler Squids 1 1.5 11878 10690 1141 0.1 700000 70000 71141 6.65 0.07 26 Argentina Fishing trawler Squids 1 41.5 328638 295774 6349 0.1 100000 10000 16349 0.06 14.47 27 Argentina Fishing trawler Squids 1 1.2 9502 8552 198 0.1 50000 5000 5198 0.61 0.84 28 Argentina Fishing trawler Squids 1 150 1041150 937035 172650 0.1 100000 10000 182650 0.19 38.22 29 Argentina Fishing trawler Squids 1 4 948 853 562 0.1 300000 30000 30562 35.82 0.005 30 Argentina Fishing trawler Squids 1 1 237 213 136 0.1 450000 45000 45136 211.61 0.001 31 Argentina Fishing trawler Squids 1 0.2 43 39 21 0.1 150000 15000 15021 388.14 0.0006 32 Argentina Fishing trawler Squids 1 0.1 23 21 12 0.1 450000 45000 45012 2174.49 0.0001 33 Argentina Squid jigger Squids 1 0.5 2046 1841 598 0.1 300000 30000 30598 16.62 0.02 260No. Arresting Country Vessel / Gear Illegal Catch / Fishery Number of vessels Catch (t) Catch value (USD) Expected Revenue (USD) Variable Cost (USD) ? Fine (USD) Expected Penalty (USD) Total Cost (USD) Total Cost / Expected revenue New Fine 34 Argentina Squid jigger Squids 1 1 7817 7035 1151 0.1 350000 35000 36151 5.14 0.08 35 Argentina Squid jigger Squids 1 0.8 265 239 142 0.1 500000 50000 50142 210.24 0.001 Peru 1 Peru Factory Trawler Mackerel 13 2200 906400 815760 540600 0.1 2600000 260000 800600 0.98 0.35 2 Peru Purse seiner Tuna 3 400 145600 131040 114200 0.1 102000 10200 124400 0.95 0.11 3 Peru Longliner Tuna 1 100 41200 37080 30000 0.1 200000 20000 50000 1.35 0.07 4 Peru Squid jigger Squids 4 100 26900 24210 16120 0.1 280000 28000 44120 1.82 0.10 Ecuador 1 Ecuador Purse Seiner Tuna 9 1500 1500000 1350000 1167000 0.1 901000 90100 1257100 0.93 1.02 Guyana 1 Guyana Fishing trawler Finfishes nei 6 12 15072 14318 5532 0.05 25083 1254.15 6786.15 0.47 1.75 Costa Rica 1 Costa Rica Purse Seiner Tuna 1 400 908000 862600 144000 0.05 250000 12500 156500 0.18 14.37 Nicaragua 1 Nicaragua Fishing vessel Red Snapper 2 9 40000 38000 4500 0.05 140000 7000 11500 0.30 1.20 Guatemala 1 Guatemala Fishing vessel Finfishes nei 2 12 95148 90391 3914 0.05 200 10 3924 0.04 2161.92 St. Vincent 1 St. Vincent Longliner Tuna 1 3 3252 3089 956 0.05 30000 1500 2456 0.79 0.36 Greenland 1 Greenland Fishing trawler Shrimps 1 36 90010 72008 26236 0.2 18002 3600 29836 0.41 12.71 Falkland Islands ? British Overseas Territory 1 UK Fishing trawler Finfishes nei 1 24 16344 14710 9894 0.1 176631 17663 27557 1.87 0.14 2 UK Fishing trawler Finfishes nei 1 100 243700 219330 32000 0.1 1779 178 32178 0.15 526.50 3 UK Fishing trawler Toothfish 1 20 35340 31806 8340 0.1 212355 21236 29576 0.93 0.55 4 UK Longliner Toothfish 1 2 3534 3181 482 0.1 45630 4563 5045 1.59 0.30 5 UK Squid Jigger Squids 1 100 898000 808200 115100 0.1 177872 17787 132887 0.16 19.48 261No. Arresting Country Vessel / Gear Illegal Catch / Fishery Number of vessels Catch (t) Catch value (USD) Expected Revenue (USD) Variable Cost (USD) ? Fine (USD) Expected Penalty (USD) Total Cost (USD) Total Cost / Expected revenue New Fine 6 UK Squid Jigger Squids 1 10 89800 80820 6900 0.1 88936 8894 15794 0.20 4.16 7 UK Squid Jigger Squids 1 10 89800 80820 6900 0.1 17787 1779 8679 0.11 20.78 8 UK Squid Jigger Squids 1 317 85273 76746 64264 0.1 82808 8281 72545 0.95 0.75 9 UK Squid Jigger Squids 1 3594 887784 799006 703684 0.1 1242897 124290 827974 1.04 0.38 10 UK Fishing trawler Squids 1 100 330400 297360 101500 0.1 2500 250 101750 0.34 391.72 South Georgia ? British Antarctic Territory 1 UK Longliner Toothfish 1 6 10602 10072 1920 0.05 110679 5534 7454 0.74 0.37 2 UK Longliner Toothfish 1 12 21204 20144 1484 0.05 107150 5358 6842 0.34 0.87 St. Paul Island ? French Antarctic Territory 1 France Fishing trawler Toothfish 1 3 6678 5342 900 0.1 9581 958 1858 0.31 2.67 Seychelles 1 Seychelles Longliner Tuna 1 442 126000 119700 80246 0.05 356000 17800 98046 0.82 0.47 2 Seychelles Longliner Tuna 1 24 6840 6498 2384 0.05 150000 7500 9884 1.52 0.13 Maldives 1 Maldives Fishing trawler Finfishes nei 1 100 206100 195795 83100 0.05 200000 10000 93100 0.48 2.82 2 Maldives Longliner Tuna 1 50 156200 148390 19000 0.05 1250000 62500 81500 0.55 0.52 Chagos Islands ? British Overseas Territory 1 UK Longliner Tuna 1 326 453792 431102 41000 0.05 1717000 85850 126850 0.29 1.14 2 UK Longliner Tuna 1 6 15864 15071 1026 0.05 15000 750 1776 0.12 4.68 Tunisia 1 Tunisia Fishing trawler Finfishes nei 12 60 65520 62244 10890 0.05 700000 35000 45890 0.74 0.37 2 Tunisia Fishing trawler Tuna 1 12 5420 5149 1264 0.05 100000 5000 6264 1.22 0.19 3 Tunisia Fishing vessel Tuna 1 100 28500 27075 17000 0.05 2400000 120000 137000 5.06 0.02 Somalia 1 Somalia Fishing trawler Finfishes nei 2 60 81060 77007 32040 0.05 300000 15000 47040 0.61 0.75 2 Somalia Fishing vessel Finfishes nei 1 12 13560 12882 9600 0.05 180 9 9609 0.75 91.17 262No. Arresting Country Vessel / Gear Illegal Catch / Fishery Number of vessels Catch (t) Catch value (USD) Expected Revenue (USD) Variable Cost (USD) ? Fine (USD) Expected Penalty (USD) Total Cost (USD) Total Cost / Expected revenue New Fine Namibia 1 Namibia Fishing trawler Hake 5 2400 6000000 5400000 269600 0.1 53660052 5366005 5635605 1.04 0.48 Congo 1 Congo Fishing vessel Finfishes nei 1 12 12228 11617 1204 0.05 270000 13500 14704 1.27 0.19 Nigeria 1 Nigeria Fishing trawler Shrimps 1 192 220000 209000 142894 0.05 20000 1000 143894 0.69 16.53 Guinea Bissau 1 G. Bissau Fishing trawler Finfishes nei 6 180 169340 160873 71000 0.05 4883664 244183 315183 1.96 0.09 Gambia 1 Gambia Fishing trawler Finfishes nei 1 207 273240 259578 88769 0.05 168000 8400 97169 0.37 5.08 2 Gambia Fishing trawler Finfishes nei 1 103 136586 129757 39000 0.05 432000 21600 60600 0.47 1.05 3 Gambia Fishing vessel Finfishes nei 53 636 805176 764917 145200 0.05 1210790 60540 205740 0.27 2.56 4 Gambia Fishing vessel Finfishes nei 1 12 15840 15048 7800 0.05 1000 50 7850 0.52 36.24 5 Gambia Fishing vessel Finfishes nei 1 30 36900 35055 19000 0.05 39215 1961 20961 0.60 2.05 Morocco 1 Morocco Fishing trawler Finfishes nei 1 30 30350 28833 6080 0.05 547899 27395 33475 1.16 0.21 Ireland 1 Ireland Fishing trawler Finfishes nei 1 7.5 19335 17402 4820 0.1 44723 4472 9292 0.53 1.41 2 Ireland Fishing trawler Finfishes nei 1 7.2 18706 16835 4739 0.1 43559 4356 9095 0.54 1.39 3 Ireland Fishing trawler Finfishes nei 1 7.3 18921 17029 5832 0.1 52483 5248 11080 0.65 1.07 4 Ireland Fishing trawler Finfishes nei 1 7.2 20000 18000 6739 0.1 34850 3485 10224 0.57 1.62 5 Ireland Fishing trawler Finfishes nei 1 2 5160 4644 2808 0.1 299 30 2838 0.61 30.70 6 Ireland Fishing trawler Finfishes nei 61 427 1101660 991494 369700 0.1 1495662 149566 519266 0.52 2.08 Latvia 1 Latvia Fishing boat Plaice 1 2 4956 4460 2040 0.1 14 1 2041 0.46 864.43 Bulgaria 1 Bulgaria Fishing trawler Turbot 1 8 23770 21393 8568 0.1 4260 426 8994 0.42 15.05 263No. Arresting Country Vessel / Gear Illegal Catch / Fishery Number of vessels Catch (t) Catch value (USD) Expected Revenue (USD) Variable Cost (USD) ? Fine (USD) Expected Penalty (USD) Total Cost (USD) Total Cost / Expected revenue New Fine 2 Bulgaria Fishing vessel Turbot 12 120 260400 234360 128520 0.1 51060 5106 133626 0.57 10.36 3 Bulgaria Fishing vessel Turbot 16 160 347200 312480 173120 0.1 68080 6808 179928 0.58 10.24 4 Bulgaria Fishing vessel Turbot 1 10 28524 25672 7800 0.1 1848428 184843 192643 7.50 0.05 United Kingdom 1 UK Fishing trawler Atlantic Cod 1 2.4 4331 3898 1242 0.1 5757 576 1818 0.47 2.31 2 UK Fishing trawler Atlantic Cod 1 6 10740 9666 3200 0.1 45000 4500 7700 0.80 0.72 3 UK Factory trawler Finfishes nei 1 12 25380 22842 6572 0.1 23670 2367 8939 0.39 3.44 4 UK Fishing trawler Finfishes nei 1 12 26748 24073 6572 0.1 16077 1608 8180 0.34 5.44 5 UK Fishing trawler Finfishes nei 1 2.7 6033 5430 1527 0.1 38183 3818 5345 0.98 0.51 6 UK Fishing trawler Finfishes nei 1 12 23736 21362 1800 0.1 45000 4500 6300 0.29 2.17 7 UK Fishing trawler Finfishes nei 1 3 5712 5141 4110 0.1 3334 333 4443 0.86 1.55 8 UK Fishing trawler Finfishes nei 1 50 104500 94050 70200 0.1 79484 7948 78148 0.83 1.50 9 UK Fishing trawler Finfishes nei 1 36 73332 65999 28800 0.1 19000 1900 30700 0.47 9.79 10 UK Fishing trawler Finfishes nei 1 36 73332 65999 28800 0.1 514439 51444 80244 1.22 0.36 11 UK Fishing trawler Finfishes nei 1 10.8 22849 20564 15163 0.1 78396 7840 23003 1.12 0.34 12 UK Fishing trawler Finfishes nei 1 7 32000 28800 9828 0.1 24000 2400 12228 0.42 3.95 13 UK Fishing vessel Finfishes nei 1 0.5 963 867 424 0.1 982 98 522 0.60 2.25 14 UK Fishing vessel Finfishes nei 1 0.4 1197 1077 374 0.1 1415 142 516 0.48 2.49 15 UK Fishing vessel Finfishes nei 70 840 1770720 1593648 756000 0.1 490837 49084 805084 0.51 8.53 Channel Islands 1 Channel Is. Fishing trawler Finfishes nei 1 12 24468 22021 15600 0.1 5500 550 16150 0.73 5.84 France 1 France Fishing trawler Tuna 2 11.2 26742 24068 10483 0.1 13731 1373 11856 0.49 4.95 2 France Fishing trawler Tuna 1 10 23480 21132 14040 0.1 57000 5700 19740 0.93 0.62 3 France Fishing trawler Tuna 1 10 23480 21132 14000 0.1 28000 2800 16800 0.80 1.27 Norway 1 Norway Fishing trawler Finfishes nei 2 24 24984 22486 18360 0.1 20096 2010 20370 0.91 1.03 264No. Arresting Country Vessel / Gear Illegal Catch / Fishery Number of vessels Catch (t) Catch value (USD) Expected Revenue (USD) Variable Cost (USD) ? Fine (USD) Expected Penalty (USD) Total Cost (USD) Total Cost / Expected revenue New Fine 2 Norway Purse Seiner Finfishes nei 2 2 916 824 546 0.1 22285 2229 2775 3.37 0.06 3 Norway Fishing trawler Atlantic Cod 1 50 55450 49905 40000 0.1 205365 20537 60537 1.21 0.24 4 Norway Fishing trawler Atlantic Cod 1 50 55450 49905 40000 0.1 279112 27911 67911 1.36 0.18 Myanmar 1 Myanmar Fishing trawler Finfishes nei 4 208 200000 180000 75504 0.1 126000 12600 88104 0.49 4.15 2 Myanmar Fishing boat Finfishes nei 22 11 38192 34372.8 5379 0.1 11400 1140 6519 0.19 12.72 3 Myanmar Fishing boat Finfishes nei 7 3.5 12152 10936.8 1711 0.1 17160 1716 3427 0.31 2.69 Palau 1 Palau Fishing vessel Giant Clams 1 10.2 12699 11429 5975 0.1 50000 5000 10975 0.96 0.55 2 Palau Fishing vessel Tuna 1 36 329184 296266 88812 0.1 8520 852 89664 0.30 121.75 Papua New Guinea 1 PNG Longliner Tuna 1 100 1102300 992070 80000 0.1 13000800 1300080 1380080 1.39 0.35 Vanuatu 1 Vanuatu Longliner Tuna 1 75 847125 762413 95000 0.1 1157842 115784 210784 0.28 2.88 Solomon Islands 1 Solomon Is. Purse Seiner Tuna 1 500 5511500 4960350 163000 0.1 280000 28000 191000 0.04 85.67 2 Solomon Is. Purse Seiner Tuna 1 550 6062650 5456385 237000 0.1 1072000 107200 344200 0.06 24.34 3 Solomon Is. Purse Seiner Tuna 6 1500 13357500 12021750 1467000 0.1 1000000 100000 1567000 0.13 52.77 4 Solomon Is. Fishing vessel Clams 1 4.5 5161 4645 1856 0.1 10403 1040 2896 0.62 1.34 Marshall Islands 1 Marshall Islands Live Reef Fish Carrier Finfishes nei 1 50 46400 41760 21000 0.1 250000 64000 85000 2.04 0.42 Nauru 1 Nauru Purse Seiner Tuna 2 200 2259000 2033100 155600 0.1 1000000 100000 255600 0.13 9.39 Japan 1 Japan Fishing vessel Sardines 1 20 14000 12600 8258 0.1 47730 4773 13031 1.03 0.45 265No. Arresting Country Vessel / Gear Illegal Catch / Fishery Number of vessels Catch (t) Catch value (USD) Expected Revenue (USD) Variable Cost (USD) ? Fine (USD) Expected Penalty (USD) Total Cost (USD) Total Cost / Expected revenue New Fine Russia 1 Russia Fishing trawler Pacific Cod 1 382 371686 334517.4 126772 0.1 470786 47079 173851 0.52 2.21 2 Russia Fishing vessel Finfishes nei 141 263000 318756000 286880400 71169000 0.1 335462988 33546299 104715299 0.37 3.22 3 Russia Fishing vessel Finfishes nei 15 99000 119988000 107989200 16116000 0.1 120054700 12005470 28121470 0.26 3.83 4 Russia Fishing vessel Red Crabs 1 10 70100 63090 9840 0.1 84926 8493 18333 0.29 3.14 Malaysia 1 Malaysia Fishing trawler Finfishes nei 3 120 206280 185652 43560 0.1 21456 2146 45706 0.25 33.11 2 Malaysia Fishing trawler Finfishes nei 7 210 340620 306558 56230 0.1 1190948 119095 175325 0.57 1.05 3 Malaysia Fishing trawler Finfishes nei 1 30 48750 43875 5890 0.1 310293 31029 36919 0.84 0.61 4 Malaysia Fishing trawler Finfishes nei 5 100 162500 146250 16300 0.1 1142081 114208 130508 0.89 0.57 5 Malaysia Fishing trawler Finfishes nei 6 240 390000 351000 17120 0.1 1913190 191319 208439 0.59 0.87 6 Malaysia Fishing trawler Finfishes nei 5 200 325000 292500 32600 0.1 1190583 119058 151658 0.52 1.09 7 Malaysia Fishing trawler Finfishes nei 1 40 59680 53712 4520 0.1 715680 71568 76088 1.42 0.34 8 Malaysia Fishing trawler Finfishes nei 9 180 268200 241380 65340 0.1 1830079 183008 248348 1.03 0.48 9 Malaysia Fishing trawler Finfishes nei 1 20 27020 24318 11560 0.1 3636 364 11924 0.49 17.54 10 Malaysia Fishing trawler Finfishes nei 1 30 40200 36180 10890 0.1 312150 31215 42105 1.16 0.41 11 Malaysia Fishing trawler Finfishes nei 1 40 53600 48240 42840 0.1 434330 43433 86273 1.79 0.06 12 Malaysia Fishing trawler Finfishes nei 2 60 114600 103140 8650 0.1 611932 61193 69843 0.68 0.77 13 Malaysia Fishing trawler Finfishes nei 4 160 305600 275040 58080 0.1 2257774 225777 283857 1.03 0.48 14 Malaysia Fishing vessel Finfishes nei 4 120 195000 175500 78280 0.1 342928 34293 112573 0.64 1.42 15 Malaysia Fishing vessel Finfishes nei 4 80 119360 107424 19040 0.1 1610336 161034 180074 1.68 0.27 16 Malaysia Fishing vessel Finfishes nei 1 30 44700 40230 8130 0.1 481700 48170 56300 1.40 0.33 17 Malaysia Fishing vessel Sharks 1 0.05 24 22 4 0.1 460000 46000 46004 2129.81 0.0002 Australia 1 Australia Fishing trawler Trochus 2 1 6000 5400 471 0.1 376680 37668 38139 7.06 0.07 2 Australia Fishing vessel Trochus 1 2 8000 7200 1256 0.1 22440 2244 3500 0.49 1.32 3 Australia Fishing boat Trochus 1 2 6000 5400 1256 0.1 256 26 1282 0.24 80.94 266No. Arresting Country Vessel / Gear Illegal Catch / Fishery Number of vessels Catch (t) Catch value (USD) Expected Revenue (USD) Variable Cost (USD) ? Fine (USD) Expected Penalty (USD) Total Cost (USD) Total Cost / Expected revenue New Fine 4 Australia Fishing boat Trochus 1 2 6000 5400 1256 0.1 256 26 1282 0.24 80.94 5 Australia Fishing boat Trochus 1 1 6000 5400 392 0.1 25000 2500 2892 0.54 1.00 6 Australia Fishing vessel Clams 1 4.5 56000 50400 4401 0.1 83983 8398 12799 0.25 2.74 7 Australia Fishing vessel Clams 1 3 45000 40500 2934 0.1 115767 11577 14511 0.36 1.62 8 Australia Fishing vessel Bluefin Tuna 1 298 1387488 1248739 47256 0.1 6016600 601660 648916 0.52 1.00 9 Australia Fishing vessel Gemfish 1 3 3441 3097 1969 0.1 3902 390 2359 0.76 1.45 10 Australia Fishing vessel Rock Lobsters 1 0.2 260 234 74 0.1 3183 318 392 1.68 0.25 11 Australia Fishing vessel Finfishes nei 1 5 58000 52200 3400 0.1 139286 13929 17329 0.33 1.75 12 Australia Fishing vessel Finfishes nei 2 8 48000 43200 6240 0.1 139536 13954 20194 0.47 1.32 13 Australia Fishing vessel Finfishes nei 1 12 72000 64800 9360 0.1 172965 17297 26657 0.41 1.60 14 Australia Fishing vessel Finfishes nei 1 0.4 2000 1800 359 0.1 3554 355 714 0.40 2.03 15 Australia Fishing vessel Finfishes nei 1 0.5 2500 2250 449 0.1 6900 690 1139 0.51 1.31 16 Australia Fishing vessel Finfishes nei 1 1 3480 3132 978 0.1 8383 838 1816 0.58 1.28 17 Australia Motorised Gillnetter Finfishes nei 1 0.5 2642 2378 449 0.1 6924 692 1141 0.48 1.39 18 Australia Gillnetter Finfishes nei 1 1.5 5220 4698 1347 0.1 7000 700 2047 0.44 2.39 19 Australia Gillnetter Finfishes nei 1 1.5 5220 4698 1347 0.1 7090 709 2056 0.44 2.36 20 Australia Longliner Finfishes nei 1 12 60000 54000 9864 0.1 68044 6804 16668 0.31 3.24 21 Australia Longliner Finfishes nei 1 6 30000 27000 4232 0.1 35745 3575 7807 0.29 3.18 22 Australia Longliner Tuna 1 60 126600 113940 56800 0.1 4596 460 57260 0.50 62.16 23 Australia Longliner Tuna 1 40 84400 75960 30200 0.1 123626 12363 42563 0.56 1.85 24 Australia Longliner Tuna 1 175 1028481 925633 602800 0.1 1505535 150554 753354 0.81 1.07 25 Australia Longliner Tuna 1 13.5 62856 56570 48816 0.1 66474 6647 55463 0.98 0.58 26 Australia Longliner Tuna 1 235 1092896 983606 319745 0.1 1246799 124680 444425 0.45 2.66 27 Australia Fishing boat Sharks 2 2.5 9750 8775 2160 0.1 13652 1365 3525 0.40 2.42 28 Australia Fishing boat Sharks 1 0.5 3984 3586 434 0.1 4916 492 926 0.26 3.21 29 Australia Fishing boat Sharks 1 0.1 36 32 16 0.1 1166 117 133 4.09 0.07 267No. Arresting Country Vessel / Gear Illegal Catch / Fishery Number of vessels Catch (t) Catch value (USD) Expected Revenue (USD) Variable Cost (USD) ? Fine (USD) Expected Penalty (USD) Total Cost (USD) Total Cost / Expected revenue New Fine 30 Australia Fishing boat Sharks 1 1.5 1720 1548 1246 0.1 3588 359 1605 1.04 0.42 31 Australia Fishing boat Sharks 5 0.5 2294 2065 409 0.1 4632 463 872 0.42 1.79 32 Australia Fishing boat Sharks 6 16 18000 16200 11408 0.1 37758 3776 15184 0.94 0.63 New Zealand 1 NewZealand Fishing trawler Finfishes nei 1 100 255400 229860 103400 0.1 617894 61789 165189 0.72 1.02 2 NewZealand Fishing trawler Finfishes nei 1 30 34410 30969 24326 0.1 1323689 132369 156695 5.06 0.03 3 NewZealand Fishing trawler Finfishes nei 1 50 67350 60615 48964 0.1 1500000 150000 198964 3.28 0.04 4 NewZealand Fishing trawler Finfishes nei 1 60 78820 70938 54696 0.1 1200000 120000 174696 2.46 0.07 5 NewZealand Fishing trawler Finfishes nei 1 60 78820 70938 54696 0.1 1345736 134574 189270 2.67 0.06 6 NewZealand Fishing trawler Finfishes nei 3 698 900000 810000 642000 0.1 3741970 374197 1016197 1.25 0.22 7 NewZealand Fishing trawler Finfishes nei 1 30 44410 39969 34070 0.1 1500000 150000 184070 4.61 0.020 8 NewZealand Fishing vessel Finfishes nei 1 30 76620 68958 46020 0.1 405338 40534 86554 1.26 0.28 9 NewZealand Fishing vessel Finfishes nei 1 50 144200 129780 53550 0.1 147907 14791 68341 0.53 2.58 10 NewZealand Fishing vessel Finfishes nei 1 50 144200 129780 53550 0.1 147907 14791 68341 0.53 2.58 11 NewZealand Fishing vessel Finfishes nei 1 50 144200 129780 53550 0.1 149637 14964 68514 0.53 2.55 12 NewZealand Longliner Tuna 2 20 220460 198414 46840 0.1 499949 49995 96835 0.49 1.52 No. Arresting Country Vessel / Gear Fishery Number of vessels Catch (t) Catch value (USD) Expected Revenue (USD) Variable Cost (USD) ? Fine (USD) Expected Penalty (USD) Total Cost (USD) Total Cost / Expected revenue New Fine Canada 1995-2009 1 Canada Fishing trawler Atlantic Cod 1 47.6 50087 40070 38956 0.2 69817 13963 52919 1.32 0.08 2 Canada Fishing vessel Atlantic Cod 1 0.02 7 6 4 0.2 2329 466 470 83.89 0.003 3 Canada Fishing boat Atlantic Cod 1 0.0008 2 2 1 0.2 408 82 83 51.63 0.01 4 Canada Fishing boat Atlantic Cod 1 0.01 54 43 19 0.2 2040 408 427 9.88 0.06 5 Canada Fishing vessel Sablefish 1 0.5 758 606 244 0.2 7697 1539 1783 2.94 0.24 6 Canada Fishing vessel Sablefish 1 1.9 2806 2245 904 0.2 6434 1287 2191 0.98 1.04 268No. Arresting Country Vessel / Gear Fishery Number of vessels Catch (t) Catch value (USD) Expected Revenue (USD) Variable Cost (USD) ? Fine (USD) Expected Penalty (USD) Total Cost (USD) Total Cost / Expected revenue New Fine 7 Canada Fishing vessel Sablefish 1 0.06 91 73 29 0.2 1274 255 284 3.90 0.17 8 Canada Fishing vessel Coho Salmon 1 0.05 179 161 22 0.1 1683 168 190 1.18 0.41 9 Canada Fishing vessel Coho Salmon 1 0.003 11 10 1.4 0.1 511 51 53 5.30 0.08 10 Canada Fishing boat Coho Salmon 1 0.005 19 17 2.4 0.1 319 32 34 2.01 0.23 11 Canada Fishing vessel Coho Salmon 1 0.3 1222 1100 278 0.1 4023 402 680 0.62 1.02 12 Canada Fishing vessel Chum Salmon 1 0.6 2230 2007 445 0.1 1892 189 634 0.32 4.13 13 Canada Fishing vessel Chum Salmon 1 1 3906 3515 890 0.1 2561 256 1146 0.33 5.13 14 Canada Fishing vessel Chinook Salmon 1 0.3 1171 1054 107 0.1 4987 499 606 0.57 0.95 15 Canada Fishing vessel Chinook Salmon 2 0.2 830 747 87 0.1 2713 271 358 0.48 1.22 16 Canada Fishing vessel Sockeye Salmon 1 0.3 1003 903 114 0.1 673 67 181 0.20 5.86 17 Canada Fishing boat Sockeye Salmon 1 2.8 6163 5547 954 0.1 3355 336 1290 0.23 6.84 18 Canada Fishing vessel Sockeye Salmon 1 1.2 4746 4271 868 0.1 7802 780 1648 0.39 2.18 19 Canada Fishing vessel Salmon 1 1 3906 3515 490 0.1 1720 172 662 0.19 8.79 20 Canada Fishing vessel Salmon 1 1 1633 1470 401 0.1 3807 381 782 0.53 1.40 21 Canada Fishing boat Salmon 1 0.7 2422 2180 323 0.1 2052 205 528 0.24 4.52 22 Canada Fishing vessel Salmon 1 0.09 295 266 60 0.1 912 91 151 0.57 1.13 23 Canada Fishing vessel Salmon 1 1 3906 3515 190 0.1 904 90 280 0.08 18.39 24 Canada Fishing boat Salmon 1 1 3460 3114 160 0.1 5746 575 735 0.24 2.57 25 Canada Fishing vessel Salmon 1 0.2 781 703 78 0.1 2041 204 282 0.40 1.53 26 Canada Fishing vessel Salmon 1 0.2 781 703 78 0.1 741 74 152 0.22 4.22 27 Canada Fishing vessel Salmon 2 0.1 390 351 49 0.1 1854 185 234 0.67 0.81 28 Canada Fishing vessel Salmon 1 0.1 390 351 49 0.1 1854 185 234 0.67 0.81 29 Canada Fishing vessel Salmon 1 0.3 1171 1054 97 0.1 2051 205 302 0.29 2.33 30 Canada Fishing vessel Salmon 1 2 7812 7031 380 0.1 6305 631 1011 0.14 5.27 31 Canada Fishing boat Salmon 1 0.004 15 14 1.9 0.1 468 47 49 3.61 0.12 32 Canada Fishing vessel Salmon 1 0.005 19 17 2.4 0.1 749 75 77 4.52 0.10 33 Canada Fishing vessel Salmon 1 0.02 78 70 16 0.1 5606 561 577 8.21 0.05 269No. Arresting Country Vessel / Gear Fishery Number of vessels Catch (t) Catch value (USD) Expected Revenue (USD) Variable Cost (USD) ? Fine (USD) Expected Penalty (USD) Total Cost (USD) Total Cost / Expected revenue New Fine 34 Canada Fishing vessel Salmon 1 0.58 2289 2060 83 0.1 5319 532 615 0.30 1.86 35 Canada Fishing vessel Rock fish 1 0.7 603 482 347 0.2 3367 673 1020 2.12 0.29 36 Canada Fishing vessel Rockfish 2 2.5 6437 5150 1222 0.2 5180 1036 2258 0.44 3.79 37 Canada Fishing vessel Rockfish 1 1.6 14960 11968 4436 0.2 18537 3707 8143 0.68 2.03 38 Canada Fishing vessel Lingcod 1 2.4 2410 1928 1124 0.2 2020 404 1528 0.79 1.99 39 Canada Fishing vessel Lingcod 1 10.3 10423 8338 8264 0.2 12319 2464 10728 1.29 0.03 40 Canada Fishing trawler Flounder 1 0.5 1341 1073 714 0.2 2586 517 1231 1.15 0.69 41 Canada Fishing vessel Finfishes nei 1 0.2 101 81 74 0.2 4710 942 1016 12.57 0.01 42 Canada Fishing vessel Finfishes nei 1 0.2 420 336 274 0.2 1696 339 613 1.83 0.18 43 Canada Fishing vessel Finfishes nei 5 0.2 470 376 134 0.2 3905 781 915 2.43 0.31 44 Canada Fishing vessel Skate 1 0.6 185 148 98 0.2 2624 525 623 4.21 0.10 45 Canada Fishing vessel Wolf fish 1 0.07 19 15 14 0.2 2457 491 505 33.25 0.002 46 Canada Fishing trawler Grey Cod 1 26 15895 12716 12684 0.2 60606 12121 24805 1.95 0.003 47 Canada Fishing vessel Lobsters 1 0.01 65 52 36 0.2 3135 627 663 12.75 0.03 48 Canada Fishing vessel Red Sea Urchins 1 1.7 2942 2648 831 0.1 1912 191 1022 0.39 4.75 49 Canada Fishing vessel Dungeness crab 1 0.8 3038 2734 697 0.1 1909 191 888 0.32 5.34 50 Canada Fishing vessel Dungeness crab 1 0.3 2589 2330 158 0.1 939 94 252 0.11 11.57 51 Canada Fishing vessel Dungeness crab 1 0.2 1925 1733 596 0.1 6661 666 1262 0.73 0.85 52 Canada Fishing vessel Tanner Crabs 1 1 2919 2627 489 0.1 6195 620 1109 0.42 1.73 53 Canada Crabber Crabs 1 1 7467 6720 489 0.1 1457 146 635 0.09 21.38 54 Canada Fishing vessel Crabs 1 4.5 11326 10193 3896 0.1 31488 3149 7045 0.69 1.00 55 Canada Fishing vessel Crabs 1 4.5 11326 10193 3896 0.1 6289 629 4525 0.44 5.01 56 Canada Fishing vessel Crabs 1 1 2098 1888 968 0.1 1148 115 1083 0.57 4.01 57 Canada Fishing vessel Crabs 1 1 7763 6987 489 0.1 1346 135 624 0.09 24.14 58 Canada Fishing boat Crabs 1 0.3 755 680 384 0.1 5275 528 912 1.34 0.28 59 Canada Fishing trawler Shrimps 1 3 23904 19123 3000 0.2 1453 291 3291 0.17 55.48 60 Canada Fishing vessel Shrimps 1 1 7763 6210 1200 0.2 774 155 1355 0.22 32.37 270No. Arresting Country Vessel / Gear Fishery Number of vessels Catch (t) Catch value (USD) Expected Revenue (USD) Variable Cost (USD) ? Fine (USD) Expected Penalty (USD) Total Cost (USD) Total Cost / Expected revenue New Fine 61 Canada Fishing vessel Shrimps 1 2 11756 9405 3414 0.2 10434 2087 5501 0.58 2.87 62 Canada Fishing vessel Shrimps 1 1 5878 4702 1707 0.2 9106 1821 3528 0.75 1.64 63 Canada Fishing vessel Shrimps 1 1.5 8817 7054 2560 0.2 7422 1484 4044 0.57 3.03 64 Canada Fishing vessel Shrimps 1 0.009 71 57 15 0.2 1616 323 338 5.95 0.13 65 Canada Fishing vessel Shrimps 1 0.001 7.9 6 1.7 0.2 1542 308 310 49.07 0.01 66 Canada Fishing vessel Shrimps 1 5 29390 23512 8535 0.2 14145 2829 11364 0.48 5.29 67 Canada Fishing vessel Shrimps 1 1 5878 4702 1707 0.2 6118 1224 2931 0.62 2.45 68 Canada Fishing vessel Shrimps 1 0.6 3526 2821 1024 0.2 3331 666 1690 0.60 2.70 69 Canada Fishing vessel Shrimps 1 0.2 1175 940 341 0.2 749 150 491 0.52 4.00 70 Canada Dive Gear Abalone 0 0.4 488 439 349 0.1 800 80 429 0.98 0.56 71 Canada Dive Gear Abalone 0 0.1 714 643 133 0.1 1362 136 269 0.42 1.87 72 Canada Dive Gear Abalone 0 0.3 785 707 332 0.1 3622 362 694 0.98 0.52 73 Canada Dive Gear Abalone 0 1.7 2052 1847 1632 0.1 101396 10140 11772 6.37 0.01 74 Canada Dive Gear Abalone 0 0.1 131 118 101 0.1 5355 536 637 5.40 0.02 75 Canada Dive Gear Abalone 0 0.1 66 59 46 0.1 2008 201 247 4.15 0.03 76 Canada Dive Gear Abalone 0 0.1 250 225 111 0.1 20523 2052 2163 9.61 0.03 77 Canada Dive Gear Abalone 0 0.1 133 120 53 0.1 30466 3047 3100 25.89 0.01 USA 1 USA Fishing trawler Finfishes nei 1 1 243 194 119 0.2 760276 152055 152174 782.79 0.0005 2 USA Fishing trawler Finfishes nei 1 3 7689 6151 3116 0.2 6000 1200 4316 0.70 2.53 3 USA Fishing trawler Finfishes nei 1 3 7767 6214 3116 0.2 5000 1000 4116 0.66 3.10 4 USA Fishing trawler Alaska Pollack 1 0.02 3 2 1.2 0.2 180000 36000 36001 15000.50 0.00003 5 USA Fishing vessel Red Snapper 1 0.6 3265 2939 495 0.1 49500 4950 5445 1.85 0.25 6 USA Fishing vessel Red Snapper 1 0.6 3265 2939 495 0.1 46500 4650 5145 1.75 0.26 7 USA Fishing vessel Red Snapper 1 0.6 3265 2939 495 0.1 39000 3900 4395 1.50 0.31 8 USA Fishing vessel Red Snapper 1 0.6 3265 2939 495 0.1 38750 3875 4370 1.49 0.32 9 USA Fishing vessel Red Snapper 1 0.6 3265 2939 495 0.1 35500 3550 4045 1.38 0.34 271No. Arresting Country Vessel / Gear Fishery Number of vessels Catch (t) Catch value (USD) Expected Revenue (USD) Variable Cost (USD) ? Fine (USD) Expected Penalty (USD) Total Cost (USD) Total Cost / Expected revenue New Fine 10 USA Fishing vessel Red Snapper 1 0.6 3265 2939 495 0.1 30000 3000 3495 1.19 0.41 11 USA Fishing vessel Red Snapper 1 0.6 3265 2939 495 0.1 28000 2800 3295 1.12 0.44 12 USA Fishing vessel Red Snapper 1 0.6 3265 2939 495 0.1 27500 2750 3245 1.10 0.44 13 USA Fishing vessel Red Snapper 1 0.6 3265 2939 495 0.1 26500 2650 3145 1.07 0.46 14 USA Fishing vessel Red Snapper 1 0.6 3265 2939 495 0.1 22500 2250 2745 0.93 0.54 15 USA Fishing vessel Red Snapper 1 0.6 3265 2939 495 0.1 16645 1665 2160 0.73 0.73 16 USA Fishing vessel Red Snapper 1 0.6 3265 2939 495 0.1 15000 1500 1995 0.68 0.81 17 USA Fishing vessel Red Snapper 1 0.6 3265 2939 495 0.1 8950 895 1390 0.47 1.37 18 USA Fishing vessel Red Snapper 1 0.6 3265 2939 495 0.1 7500 750 1245 0.42 1.63 19 USA Fishing vessel Red Snapper 1 0.6 3265 2939 495 0.1 7190 719 1214 0.41 1.70 20 USA Fishing vessel Red Snapper 1 0.6 3265 2939 495 0.1 6750 675 1170 0.40 1.81 21 USA Fishing vessel Red Snapper 1 0.6 3265 2939 495 0.1 4500 450 945 0.32 2.72 22 USA Fishing vessel Red Snapper 1 0.6 3265 2939 495 0.1 4140 414 909 0.31 2.95 23 USA Fishing vessel Red Snapper 1 0.6 3265 2939 495 0.1 3750 375 870 0.30 3.26 24 USA Fishing vessel Red Snapper 1 0.6 3265 2939 495 0.1 3000 300 795 0.27 4.07 25 USA Fishing vessel Red Snapper 1 0.6 3265 2939 495 0.1 3000 300 795 0.27 4.07 26 USA Fishing vessel Red Snapper 1 0.6 3265 2939 495 0.1 3000 300 795 0.27 4.07 27 USA Fishing vessel Red Snapper 1 0.6 3265 2939 495 0.1 2500 250 745 0.25 4.89 28 USA Fishing vessel Red Snapper 1 0.6 3265 2939 495 0.1 1500 150 645 0.22 8.15 29 USA Fishing vessel Red Snapper 1 0.6 3265 2939 495 0.1 1310 131 626 0.21 9.33 30 USA Fishing vessel Red Snapper 1 0.6 3265 2939 495 0.1 1000 100 595 0.20 12.22 31 USA Fishing vessel Red Snapper 5 4.3 24156 21740 5885 0.1 800000 80000 85885 3.95 0.10 32 USA Fishing vessel Red Snapper 1 0.2 1268 1141 294 0.1 18000 1800 2094 1.83 0.24 33 USA Fishing vessel Red Snapper 2 0.5 2949 2654 686 0.1 12500 1250 1936 0.73 0.79 34 USA Fishing vessel Red Snapper 1 0.01 56 50 17 0.1 4000 400 417 8.27 0.04 35 USA Fishing vessel Red Snapper 1 0.01 56 50 17 0.1 1500 150 167 3.31 0.11 36 USA Fishing vessel Red Snapper 1 0.01 59 53 17 0.1 4500 450 467 8.79 0.04 272No. Arresting Country Vessel / Gear Fishery Number of vessels Catch (t) Catch value (USD) Expected Revenue (USD) Variable Cost (USD) ? Fine (USD) Expected Penalty (USD) Total Cost (USD) Total Cost / Expected revenue New Fine 37 USA Fishing vessel Red Snapper 1 0.3 1812 1631 411 0.1 3000 300 711 0.44 2.03 38 USA Fishing vessel Red Snapper 1 0.2 1125 1013 274 0.1 1980 198 472 0.47 1.86 39 USA Fishing vessel Red Snapper 1 0.4 2303 2073 1093 0.1 1500 150 1243 0.60 3.27 40 USA Fishing vessel Red Snapper 1 0.1 562 506 277 0.1 1500 150 427 0.84 0.76 41 USA Sport fishing vessel Red Snapper 1 0.2 1161 1045 546 0.1 750 75 621 0.59 3.33 42 USA Refrigerated Freighter vessel Yellow fin Sole 1 12 1224 1102 896 0.1 150000 15000 15896 14.43 0.01 43 USA Fishing vessel Rock fish 1 2.7 2782 2504 2108 0.1 40000 4000 6108 2.44 0.05 44 USA Fishing vessel Sharks 1 600 714600 643140 420000 0.1 620000 62000 482000 0.75 1.80 45 USA Fishing vessel Black Cod 3 3 9084 8176 4116 0.1 24899 2490 6606 0.81 0.82 46 USA Sport fishing vessel Halibut 1 3.2 11462 10316 8608 0.1 3000 300 8908 0.86 2.85 47 USA Fishing vessel Halibut 1 3.8 27000 24300 5268 0.1 52000 5200 10468 0.43 1.83 48 USA Fishing vessel Vermillion Snapper 1 0.01 64 58 15 0.1 2044 204 219 3.81 0.10 49 USA Fishing vessel Chinook Salmon 1 0.02 60 54 16 0.1 11000 1100 1116 20.67 0.02 50 USA Fishing vessel Salmon 1 3 4761 4285 2058 0.1 10000 1000 3058 0.71 1.11 51 USA Fishing vessel Black tip Sharks 1 5 4905 4415 2842 0.1 380000 38000 40842 9.25 0.02 52 USA Fishing vessel Amberjack 1 1.4 2654 2389 2100 0.1 10100 1010 3110 1.30 0.14 53 USA Fishing vessel Bluefin Tuna 1 100 483100 434790 97800 0.1 280000 28000 125800 0.29 6.02 54 USA Longliner Tuna 1 42 205000 184500 108612 0.1 105000 10500 119112 0.65 3.61 55 USA Longliner Finfishes nei 1 2.9 7500 6750 5484 0.1 4000 400 5884 0.87 1.58 56 USA Longliner Finfishes nei 1 0.003 8 7 6 0.1 32098 3210 3216 446.64 0.0002 57 USA Longliner Finfishes nei 1 0.07 170 153 132 0.1 41069 4107 4239 27.71 0.0026 58 USA Longliner Red Grouper 1 1.9 11192 10073 5192 0.1 21092 2109 7301 0.72 1.16 59 USA Fishing vessel Grouper 1 0.6 3396 3056 1639 0.1 23000 2300 3939 1.29 0.31 60 USA Fishing vessel Grouper 1 0.01 566 509 27 0.1 30000 3000 3027 5.94 0.08 61 USA Fishing vessel Herring 1 6803 1204131 1083718 887894 0.1 510000 51000 938894 0.87 1.92 62 USA Fishing vessel Finfishes nei 1 1.5 3901 3511 2058 0.1 25000 2500 4558 1.30 0.29 273No. Arresting Country Vessel / Gear Fishery Number of vessels Catch (t) Catch value (USD) Expected Revenue (USD) Variable Cost (USD) ? Fine (USD) Expected Penalty (USD) Total Cost (USD) Total Cost / Expected revenue New Fine 63 USA Fishing vessel Finfishes nei 1 15 66555 59900 20580 0.1 269000 26900 47480 0.79 0.73 64 USA Fishing vessel Finfishes nei 1 0.05 130 117 68 0.1 2000 200 268 2.29 0.12 65 USA Fishing vessel Finfishes nei 1 0.3 1127 1014 444 0.1 22000 2200 2644 2.61 0.13 66 USA Fishing vessel Finfishes nei 1 0.1 358 322 145 0.1 2100 210 355 1.10 0.42 67 USA Fishing vessel Finfishes nei 1 2.9 7644 6880 4033 0.1 15000 1500 5533 0.80 0.95 68 USA Fishing vessel Finfishes nei 1 3 7539 6785 4116 0.1 250000 25000 29116 4.29 0.05 69 USA Fishing vessel Finfishes nei 1 4.4 12000 10800 6036 0.1 37500 3750 9786 0.91 0.64 70 USA Fishing vessel Finfishes nei 1 2.2 9693 8724 1990 0.1 25000 2500 4490 0.51 1.35 71 USA Fishing vessel Finfishes nei 1 3 7767 6990 4116 0.1 11500 1150 5266 0.75 1.25 72 USA Fishing trawler Finfishes nei 1 3 4458 4012 3284 0.1 190000 19000 22284 5.55 0.02 73 USA Fishing trawler Shrimps 1 1.4 6122 5510 2389 0.1 10122 1012 3401 0.62 1.54 74 USA Fishing trawler Shrimps 1 1 10124 9112 1637 0.1 18424 1842 3479 0.38 2.03 75 USA Fishing trawler Shrimps 1 3.8 30433 27390 11600 0.1 45433 4543 16143 0.59 1.74 76 USA Fishing trawler Shrimps 1 18.9 78399 70559 32296 0.1 78399 7840 40136 0.57 2.44 77 USA Fishing vessel Lobsters 1 0.3 3846 3461 1124 0.1 10000 1000 2124 0.61 1.17 78 USA Fishing vessel Lobsters 1 10 111410 100269 5600 0.1 68000 6800 12400 0.12 6.96 79 USA Fishing vessel Lobsters 1 0.3 3044 2740 826 0.1 68000 6800 7626 2.78 0.14 80 USA Fishing vessel Dungeness crab 1 0.3 439 417 94 0.05 9965 498 592 1.42 0.16 81 USA Fishing vessel Dungeness crab 1 0.1 218 207 75 0.05 7311 366 441 2.13 0.09 82 USA Fishing vessel Dungeness crab 1 3 4329 4113 1087 0.05 16994 850 1937 0.47 0.89 83 USA Fishing vessel Dungeness crab 1 1.5 2638 2506 998 0.05 6741 337 1335 0.53 1.12 84 USA Fishing vessel Dungeness crab 1 1 1586 1507 784 0.05 14565 728 1512 1.00 0.25 85 USA Fishing vessel Dungeness crab 1 1 1589 1510 848 0.05 13150 658 1506 1.00 0.25 86 USA Fishing vessel Red King Crabs 1 33 30618 27556 14564 0.1 30000 3000 17564 0.64 2.17 87 USA Crab catcher / Processor Red King Crabs 1 21 282597 254337 69426 0.1 19100 1910 71336 0.28 48.41 88 USA Fishing vessel Stone crabs 1 0.6 919 827 546 0.1 4500 450 996 1.20 0.31 274No. Arresting Country Vessel / Gear Fishery Number of vessels Catch (t) Catch value (USD) Expected Revenue (USD) Variable Cost (USD) ? Fine (USD) Expected Penalty (USD) Total Cost (USD) Total Cost / Expected revenue New Fine Howland & Baker Islands 1 USA Purse Seiner Skipjack Tuna 1 500 350000 315000 196000 0.1 850000 85000 281000 0.89 0.70 Marianas Islands 1 USA Longliner Tuna 1 50 5511150 4960035 117000 0.1 152000 15200 132200 0.03 159.31 2 USA Longliner Tuna 2 10 110230 99207 11420 0.1 260000 26000 37420 0.38 1.69 3 USA Longliner Tuna 1 25 275575 248018 38550 0.1 130000 13000 51550 0.21 8.06 4 USA Longliner Sharks 1 10 18050 16245 9880 0.1 500000 50000 59880 3.69 0.06 5 USA Fishing Catamaran Finfishes nei 1 0.05 80 72 16 0.1 100000 10000 10016 139.11 0.003 Guam 1 USA Longliner Sharks 1 1.4 11000 9900 1130 0.1 31000 3100 4230 0.43 1.41 2 USA Longliner Sharks 1 68 77996 70196 28984 0.1 10000 1000 29984 0.43 20.61 American Samoa 1 USA Longliner Tuna 1 18.3 200000 160000 22563 0.2 300000 60000 82563 0.52 2.29 2 USA Longliner Tuna 1 3 32622 26098 3513 0.2 61000 12200 15713 0.60 1.85 3 USA Longliner Tuna 1 18.8 205000 164000 13180 0.2 310000 62000 75180 0.46 2.43 4 USA Longliner Albacore Tuna 1 40 434960 347968 39320 0.2 105000 21000 60320 0.17 14.70 5 USA Fishing vessel Albacore Tuna 1 0.5 5437 4350 489 0.2 5000 1000 1489 0.34 3.86 6 USA Fishing vessel Albacore Tuna 1 28 44569 35655 22000 0.2 120000 24000 46000 1.29 0.57 7 USA Fishing vessel Finfishes nei 1 9.4 18000 14400 4209 0.2 100000 20000 24209 1.68 0.51 8 USA Fishing Catamaran Lobsters 1 0.09 185 148 72 0.2 3500 700 772 5.22 0.11 Guyana 1 Guyana Fishing trawler Finfishes nei 3 18 44280 39852 8298 0.1 16844 1684 9982 0.25 9.37 2 Guyana Fishing trawler Finfishes nei 4 12 28092 25283 5532 0.1 5263 526 6058 0.24 18.76 Brazil 1 Brazil Fishing trawlers Finfishes nei 4 18 39456 37483 4476 0.05 290787 14539 19015 0.51 0.57 2 Brazil Fishing vessel Finfishes nei 1 1.2 2630 2499 304 0.05 10590 530 834 0.33 1.04 275No. Arresting Country Vessel / Gear Fishery Number of vessels Catch (t) Catch value (USD) Expected Revenue (USD) Variable Cost (USD) ? Fine (USD) Expected Penalty (USD) Total Cost (USD) Total Cost / Expected revenue New Fine 3 Brazil Fishing vessel Sardines 2 39 205301 195036 10338 0.05 280848 14042 24380 0.13 3.29 4 Brazil Fishing vessel Catfish 1 5 7290 6926 1910 0.05 67266 3363 5273 0.76 0.37 5 Brazil Fishing vessel Yellow Croaker 1 6 13566 12888 2092 0.05 72000 3600 5692 0.44 0.75 6 Brazil Fishing vessel Lobsters 2 0.1 1682 1598 38 0.05 11806 590 628 0.39 0.66 7 Brazil Fishing vessel Lobsters 2 0.05 841 799 19 0.05 36000 1800 1819 2.28 0.11 8 Brazil Fishing vessel Lobsters 4 0.3 5516 5240 114 0.05 24363 1218 1332 0.25 1.05 9 Brazil Fishing vessel Lobsters 3 0.2 3364 3196 77 0.05 26000 1300 1377 0.43 0.60 10 Brazil Fishing vessel Lobsters 1 0.006 109 104 9 0.05 6200 310 319 3.08 0.08 11 Brazil Fishing vessel Lobsters 5 0.4 6728 6392 104 0.05 28000 1400 1504 0.24 1.12 Peru 1 Peru Fishing vessel Finfishes nei 1 0.2 190 171 62 0.1 13000 1300 1362 7.96 0.04 2 Peru Squid jigger Squids 6 690 185610 167049 85380 0.1 600000 60000 145380 0.87 0.68 Argentina 1 Argentina Fishing trawler Finfishes nei 1 22 24926 19941 15864 0.2 200000 40000 55864 2.80 0.10 2 Argentina Fishing trawler Finfishes nei 1 163 191000 152800 101126 0.2 1350000 270000 371126 2.43 0.19 3 Argentina Fishing trawler Finfishes nei 1 50 59100 47280 23600 0.2 1500000 300000 323600 6.84 0.08 4 Argentina Fishing trawler Finfishes nei 1 24 28994 23195 17960 0.2 2400000 480000 497960 21.47 0.01 5 Argentina Fishing trawler Finfishes nei 1 25 30698 24558 11525 0.2 1200000 240000 251525 10.24 0.05 6 Argentina Fishing trawler Finfishes nei 1 22 26312 21050 14084 0.2 563500 112700 126784 6.02 0.06 7 Argentina Fishing trawler Finfishes nei 1 50 59800 47840 36700 0.2 647284 129456.8 166156 3.47 0.09 8 Argentina Fishing trawler Finfishes nei 1 39 50000 40000 28808 0.2 1549237 309847.4 338655 8.47 0.04 9 Argentina Fishing trawler Finfishes nei 1 22 25268 20214 10142 0.2 275268 55053.6 65195 3.23 0.18 10 Argentina Fishing trawler Hake 1 150 143100 114480 49150 0.2 487581 97516.2 146666 1.28 0.67 11 Argentina Fishing trawler Squids 1 20 6740 5392 4000 0.2 57000 11400 15400 2.86 0.12 12 Argentina Squid jigger Squids 1 60 416460 333168 107240 0.2 600000 120000 227240 0.68 1.88 13 Argentina Squid jigger Squids 1 50 11850 9480 6890 0.2 350000 70000 76890 8.11 0.04 14 Argentina Squid jigger Squids 1 100 23700 18960 13200 0.2 400000 80000 93200 4.92 0.07 276No. Arresting Country Vessel / Gear Fishery Number of vessels Catch (t) Catch value (USD) Expected Revenue (USD) Variable Cost (USD) ? Fine (USD) Expected Penalty (USD) Total Cost (USD) Total Cost / Expected revenue New Fine 15 Argentina Squid jigger Squids 1 0.5 123 98 58 0.2 300000 60000 60058 610.35 0.0007 16 Argentina Squid jigger Squids 1 0.5 130 104 51 0.2 700000 140000 140051 1346.64 0.0004 17 Argentina Squid jigger Squids 1 0.4 106 85 41 0.2 700000 140000 140041 1651.43 0.0003 18 Argentina Squid jigger Squids 1 190 45030 36024 26004 0.2 700000 140000 166004 4.61 0.07 19 Argentina Squid jigger Squids 1 200 1388200 1110560 236600 0.2 700000 140000 376600 0.34 6.24 20 Argentina Squid jigger Squids 1 8 55528 44422 10288 0.2 700000 140000 150288 3.38 0.24 21 Argentina Squid jigger Squids 1 5 34705 27764 1035 0.2 700000 140000 141035 5.08 0.19 22 Argentina Squid jigger Squids 1 12 2844 2275 1452 0.2 500000 100000 101452 44.59 0.008 23 Argentina Squid jigger Squids 1 3 2133 1706 306 0.2 510000 102000 102306 59.95 0.01 24 Argentina Squid jigger Squids 1 0.8 189 151 58 0.2 450000 90000 90058 595.62 0.001 25 Argentina Squid jigger Squids 1 3 711 569 220 0.2 450000 90000 90220 158.61 0.004 26 Argentina Squid jigger Squids 1 0.5 124 99 45 0.2 650000 130000 130045 1310.94 0.0004 Panama 1 Panama Shrimp trawler Shrimps 1 0.5 500 450 198 0.1 1000 100 298 0.66 1.26 Costa Rica 1 Costa Rica Purse Seiner Tuna 1 230 471270 424143 124840 0.1 668000 66800 191640 0.45 2.24 2 Costa Rica Fishing vessel Tuna 1 100 204900 184410 38200 0.1 331500 33150 71350 0.39 2.21 Nicaragua 1 Nicaragua Fishing vessel Finfishes nei 2 0.3 1035 932 106 0.1 4000 400 506 0.54 1.03 2 Nicaragua Fishing boat Finfishes nei 3 0.1 283 255 47 0.1 18000 1800 1847 7.25 0.06 3 Nicaragua Fishing boat Finfishes nei 12 1 2838 2554 478 0.1 9600 960 1438 0.56 1.08 4 Nicaragua Fishing vessel Lobsters 4 0.8 7260 6534 722 0.1 200000 20000 20722 3.17 0.15 5 Nicaragua Fishing vessel Lobsters 4 0.8 6292 5663 520 0.1 5000 500 1020 0.18 5.14 El Salvador 1 El Salvador Fishing vessel Finfishes nei 1 0.2 618 556 108 0.1 8008 801 909 1.63 0.28 2 El Salvador Fishing vessel Finfishes nei 1 3.2 8689 7820 1463 0.1 16589 1659 3122 0.40 1.92 277No. Arresting Country Vessel / Gear Fishery Number of vessels Catch (t) Catch value (USD) Expected Revenue (USD) Variable Cost (USD) ? Fine (USD) Expected Penalty (USD) Total Cost (USD) Total Cost / Expected revenue New Fine 3 El Salvador Tuna vessel Tuna 3 8.2 16728 15055 7984 0.1 24000 2400 10384 0.69 1.47 Belize 1 Belize Fishing boat Finfishes nei 9 4.5 9049 8597 1074 0.05 70070 3504 4578 0.53 0.54 British Virgin Islands 1 UK Fishing vessel Finfishes nei 1 3 6549 5894 2219 0.1 15000 1500 3719 0.63 1.23 2 UK Fishing trawler Finfishes nei 1 0.5 1091 982 364 0.1 1000 100 464 0.47 3.09 Cuba 1 Cuba Fishing vessel Lobsters & Finfishes nei 34 16 118572 112643 8416 0.05 970000 48500 56916 0.51 0.54 2 Cuba Fishing vessel Lobsters & Finfishes nei 26 8.5 16677 15843 3533 0.05 307000 15350 18883 1.19 0.20 Bahamas 1 Bahamas Fishing vessel Finfishes nei 1 1.2 2727 2591 872 0.05 50000 2500 3372 1.30 0.17 2 Bahamas Fishing vessel Finfishes nei 1 1.2 2871 2727 872 0.05 29850 1493 2365 0.87 0.31 3 Bahamas Fishing vessel Finfishes nei 1 3 4443 4221 1430 0.05 29700 1485 2915 0.69 0.47 4 Bahamas Fishing vessel Nassau Grouper 1 1.09 9710 9225 825 0.05 37695 1885 2710 0.29 1.11 5 Bahamas Fishing vessel Groupers 1 0.001 2 2 0.7 0.05 52613 2631 2631 1384.92 0.0001 6 Bahamas Fishing vessel Lobsters & Finfishes nei 1 0.2 515 489 75 0.05 8955 448 523 1.07 0.23 7 Bahamas Fishing vessel Lobsters & Finfishes nei 1 0.2 540 513 75 0.05 56715 2836 2911 5.67 0.04 8 Bahamas Fishing vessel Lobsters & Finfishes nei 1 30 71831 68239 11300 0.05 155560 7778 19078 0.28 1.83 Jamaica 1 Jamaica Fishing vessel Conch 1 1 2193 2083 778 0.05 54000 2700 3478 1.67 0.12 2 Jamaica Fishing vessel Conch & Lobsters 1 0.5 1009 959 395 0.05 153475 7674 8069 8.42 0.02 3 Jamaica Fishing vessel Conch & Lobsters 1 0.3 695 660 310 0.05 21272 1064 1374 2.08 0.08 Trinidad & Tobago 1 Trinidad & Tobago Fishing vessel Flying fish 1 1.7 1035 983 584 0.05 420 21 605 0.62 4.75 2 Trinidad & Tobago Fishing vessel Flying fish 1 1.7 1035 983 584 0.05 1600 80 664 0.68 1.25 278No. Arresting Country Vessel / Gear Fishery Number of vessels Catch (t) Catch value (USD) Expected Revenue (USD) Variable Cost (USD) ? Fine (USD) Expected Penalty (USD) Total Cost (USD) Total Cost / Expected revenue New Fine 3 Trinidad & Tobago Fishing vessel Flying fish 1 1.7 1035 983 584 0.05 1600 80 664 0.68 1.25 4 Trinidad & Tobago Fishing vessel Finfishes nei 1 1 2285 2171 461 0.05 1123 56 517 0.24 7.61 5 Trinidad & Tobago Fishing vessel Finfishes nei 2 0.2 371 352 14 0.05 2234 112 126 0.36 0.76 6 Trinidad & Tobago Fishing vessel Finfishes nei 1 1 2294 2179 461 0.05 1889 94 555 0.25 4.55 7 Trinidad & Tobago Fishing trawler Finfishes nei 1 3 5544 5267 1383 0.05 2500 125 1508 0.29 7.77 Greenland 1 Greenland Purse seiner Capelin 3 1020 2100000 1680000 406000 0.2 300408 60082 466082 0.28 21.20 Falkland Islands ? British Overseas territory 1 UK Fishing trawler Rays 1 85 59965 53969 36584 0.1 114500 11450 48034 0.89 0.76 2 UK Fishing trawler Rays 1 85 60000 54000 36584 0.1 39937 3994 40578 0.75 2.18 3 UK Longliner Toothfish 1 2 3534 3181 796 0.1 13163 1316 2112 0.66 0.91 4 UK Longliner Toothfish 1 3 5301 4771 1984 0.1 37470 3747 5731 1.20 0.37 5 UK Squid Jigger Squids 1 469 254000 228600 200104 0.1 68575 6858 206962 0.91 2.08 South Georgia ? British Antarctic Territory 1 UK Longliner Toothfish 1 75 132525 119273 32475 0.1 135000 13500 45975 0.39 3.21 2 UK Longliner Toothfish 1 80 141360 127224 12600 0.1 3700000 370000 382600 3.01 0.15 3 UK Longliner Toothfish 1 40 70680 63612 5800 0.1 560000 56000 61800 0.97 0.52 4 UK Longliner Toothfish 1 73 129125 116213 8842 0.1 570870 57087 65929 0.57 0.94 5 UK Longliner Toothfish 1 15 26505 23855 10000 0.1 146848 14685 24685 1.03 0.47 6 UK Longliner Toothfish 1 10 17670 15903 7084 0.1 4589 459 7543 0.47 9.61 Kerguelen Islands ? French Antarctic Territory 1 France Fishing Vessel Toothfish 1 170 300390 240312 56300 0.2 538474 107695 173995 0.72 0.81 2 France Fishing vessel Toothfish 1 80 163760 131008 31000 0.2 245942 49188 81188 0.62 1.01 3 France Fishing Vessel Toothfish 1 158 340806 272645 170956 0.2 177873 35575 206531 0.76 1.43 4 France Longliner Toothfish 1 45 92115 73692 16000 0.2 500000 100000 118000 1.60 0.28 279No. Arresting Country Vessel / Gear Fishery Number of vessels Catch (t) Catch value (USD) Expected Revenue (USD) Variable Cost (USD) ? Fine (USD) Expected Penalty (USD) Total Cost (USD) Total Cost / Expected revenue New Fine 5 France Longliner Toothfish 1 6 12942 10354 2400 0.2 1200000 240000 242400 23.41 0.02 6 France Longliner Toothfish 1 60 327000 261600 42720 0.2 8957680 1791536 1864256 7.13 0.05 Crozet islands ? French Antarctic Territory 1 France Fishing trawler Toothfish 1 3 6048 4838 2212 0.2 78023 15605 17817 3.68 0.17 2 France Longliner Toothfish 1 200 409400 327520 90284 0.2 8000000 1600000 1690284 5.16 0.15 3 France Longliner Toothfish 1 2.3 4634 3707 1684 0.2 78670 15734 17418 4.70 0.13 St. Paul Island ? French Antarctic territory 1 France Longliner Toothfish 1 1.5 3022 2720 1556 0.1 2400 240 1796 0.66 2.42 Heard & Mc Donald Islands ? Australian Antarctic territory 1 Australia Longliner Toothfish 1 116 813760 732384 104000 0.1 3069169 306917 410917 0.56 0.51 2 Australia Longliner Toothfish 1 80 480222 432200 80000 0.1 3053358 305336 385336 0.89 0.29 3 Australia Longliner Toothfish 1 21 90300 81270 5720 0.1 5869600 586960 592680 7.29 0.03 4 Australia Longliner Toothfish 1 25 100000 90000 7000 0.1 732976 73298 80298 0.89 0.28 5 Australia Longliner Toothfish 1 145 930000 837000 199500 0.1 564660 56466 255966 0.31 2.82 6 Australia Longliner Toothfish 1 122 524600 472140 168400 0.1 212932 21293 189693 0.40 3.57 7 Australia Longliner Toothfish 1 500 3000000 2700000 491000 0.1 69500 6950 497950 0.18 79.46 8 Australia Longliner Toothfish 1 4 24000 21600 2408 0.1 62962 6296 8704 0.40 0.76 Seychelles 1 Seychelles Fishing vessel Finfishes nei 1 0.6 337 303 98 0.1 100000 10000 10098 33.29 0.01 2 Seychelles Fishing vessel Finfishes nei 1 0.5 431 388 84 0.1 12000 1200 1284 3.31 0.13 3 Seychelles Fishing vessel Finfishes nei 1 0.5 431 388 84 0.1 25000 2500 2584 6.66 0.06 4 Seychelles Fishing vessel Finfishes nei 1 1 863 777 246 0.1 25000 2500 2746 3.54 0.11 5 Seychelles Fishing vessel Finfishes nei 1 0.5 530 477 112 0.1 45285 4529 4641 9.73 0.04 6 Seychelles Longliner Finfishes nei 1 0.1 106 95 22 0.1 95000 9500 9522 99.81 0.004 7 Seychelles Longliner Finfishes nei 1 0.8 976 878 164 0.1 100000 10000 10164 11.57 0.04 8 Seychelles Fishing vessel Sea Cucumbers 1 150 172050 154845 122300 0.1 24384 2438 124738 0.81 6.67 9 Seychelles Fishing vessel Sharks 1 32.5 2860 2574 1100 0.1 50892 5089 6189 2.40 0.14 280No. Arresting Country Vessel / Gear Fishery Number of vessels Catch (t) Catch value (USD) Expected Revenue (USD) Variable Cost (USD) ? Fine (USD) Expected Penalty (USD) Total Cost (USD) Total Cost / Expected revenue New Fine 10 Seychelles Longliner Sharks 1 0.3 26 23 7 0.1 460000 46000 46007 1966.11 0.0002 11 Seychelles Purse seiner Tuna 4 1156 329460 296514 136876 0.1 200000 20000 156876 0.53 3.99 12 Seychelles Purse seiner Tuna 1 262 74670 67203 18962 0.1 50000 5000 23962 0.36 4.82 13 Seychelles Purse seiner Tuna 1 1 300 270 136 0.1 2981 298 434 1.61 0.22 14 Seychelles Longliner Tuna 1 6 1710 1539 812 0.1 1828 183 995 0.65 1.99 15 Seychelles Longliner Tuna 1 24 6840 6156 3214 0.1 100000 10000 13214 2.15 0.15 16 Seychelles Longliner Tuna 1 24 6888 6199 3214 0.1 33170 3317 6531 1.05 0.45 17 Seychelles Longliner Tuna 1 6 1722 1550 826 0.1 175021 17502 18328 11.83 0.02 Comoros Islands 1 Comoros Is. Longliner Tuna 1 36 10260 9234 6894 0.2 59944 5994 12888 1.40 0.20 Madagascar 1 Madagascar Fishing vessel Sharks 1 30 2640 2376 1486 0.1 121140 12114 13600 5.72 0.04 2 Madagascar Fishing vessel Sharks 1 34.6 16246 3284 2980 0.1 122685 12269 15249 4.64 0.47 Tromelin 1 France Fishing trawler Tuna 2 886 254540 229086 74986 0.1 528171 52817 127803 0.56 1.46 Chagos Islands ? British Indian Ocean territory 1 UK Fishing vessel Finfishes nei 1 20 22940 20646 10894 0.1 14705 1471 12365 0.60 3.32 2 UK Drift netter Finfishes nei 1 30 22640 20376 12899 0.1 29720 2972 15871 0.78 1.26 3 UK Longliner Tuna 1 100 264400 237960 87100 0.1 1600000 160000 247100 1.04 0.47 4 UK Longliner Tuna 1 10 2850 2565 886 0.1 17668 1767 2653 1.03 0.48 5 UK Tuna vessel Tuna 1 3 23112 20801 2493 0.1 18606 1861 4354 0.21 4.92 6 UK Tuna vessel Tuna 1 1.5 115556 104000 2308 0.1 35212 3521 5829 0.06 14.44 7 UK Fishing vessel Sharks 1 2 176 158 82 0.1 29410 2941 3023 19.08 0.01 8 UK Longliner Sharks 1 2 176 158 82 0.1 126871 12687 12769 80.61 0.003 9 UK Longliner Sharks 1 3.2 1609 1448 394 0.1 6955 696 1090 0.75 0.76 10 UK Longliner Sharks 1 5.5 2766 2489 894 0.1 6955 696 1590 0.64 1.15 11 UK Fishing vessel Sea Cucumbers 1 20 22940 20646 4894 0.1 22015 2202 7096 0.34 3.58 281No. Arresting Country Vessel / Gear Fishery Number of vessels Catch (t) Catch value (USD) Expected Revenue (USD) Variable Cost (USD) ? Fine (USD) Expected Penalty (USD) Total Cost (USD) Total Cost / Expected revenue New Fine 12 UK Fishing vessel Sea Cucumbers 1 20 22940 20646 4894 0.1 18364 1836 6730 0.33 4.29 Sri Lanka 1 Sri Lanka Fishing trawler Finfishes nei 1 20 34480 32756 10680 0.05 39480 1974 12654 0.39 2.80 2 Sri Lanka Fishing boat Finfishes nei 1 0.1 204 194 36 0.05 73 4 40 0.20 10.85 3 Sri Lanka Fishing boat Finfishes nei 1 0.1 282 268 18 0.05 5400 270 288 1.08 0.23 4 Sri Lanka Fishing boat Finfishes nei 5 0.5 1412 1341 98 0.05 8550 428 526 0.39 0.73 5 Sri Lanka Fishing boat Finfishes nei 2 0.2 565 537 55 0.05 1500 75 130 0.24 1.61 6 Sri Lanka Fishing boat Finfishes nei 3 0.6 1695 1610 135 0.05 600 30 165 0.10 12.29 7 Sri Lanka Fishing boat Finfishes nei 3 0.6 1695 1610 135 0.05 3450 173 308 0.19 2.14 Egypt 1 Egypt Fishing vessel Shrimps 1 0.04 46 44 24 0.05 10 1 25 0.56 9.85 2 Egypt Fishing vessel Shrimps 1 0.02 25 24 5 0.05 85 4 9 0.39 1.10 3 Egypt Fishing vessel Shrimps 1 0.003 4 4 2 0.05 128 6 8 2.08 0.09 4 Egypt Fishing vessel Shrimps 1 0.02 18 17 9 0.05 15 1 10 0.57 2.70 Eritrea 1 Eritrea Fishing boat Finfishes nei 1 1.2 4003 3603 1285 0.1 2573 257 1542 0.43 4.50 Somalia 1 Somalia Fishing trawler Skipjack tuna 1 100 28500 25650 11894 0.1 1200000 120000 131894 5.14 0.06 2 Somalia Fishing trawler Finfishes nei 2 60 90780 81702 34000 0.1 130000 13000 47000 0.58 1.83 3 Somalia Fishing trawler Finfishes nei 1 30 40800 36720 12894 0.1 230000 23000 35894 0.98 0.52 4 Somalia Fishing trawler Finfishes nei 1 30 27210 24489 12894 0.1 230000 23000 35894 1.47 0.25 5 Somalia Fishing trawler Finfishes nei 1 50 45600 41040 22846 0.1 850000 85000 107846 2.63 0.11 6 Somalia Fishing trawler Finfishes nei 3 3 3348 3013 1600 0.1 450000 45000 46600 15.47 0.02 7 Somalia Fishing trawler Finfishes nei 1 50 55800 50220 22890 0.1 800000 80000 102890 2.05 0.17 8 Somalia Fishing trawler Finfishes nei 3 60 66960 60264 34896 0.1 503065 50307 85203 1.41 0.25 9 Somalia Fishing boat Finfishes nei 4 4 7348 6613 986 0.1 21000 2100 3086 0.47 1.34 282No. Arresting Country Vessel / Gear Fishery Number of vessels Catch (t) Catch value (USD) Expected Revenue (USD) Variable Cost (USD) ? Fine (USD) Expected Penalty (USD) Total Cost (USD) Total Cost / Expected revenue New Fine 10 Somalia Deep-sea Longliner Sharks 1 50 88400 79560 16550 0.1 300000 30000 46550 0.59 1.05 11 Somalia Deep-sea trawler Sharks 1 2500 1257500 1131750 485000 0.1 867000 86700 571700 0.51 3.73 Tanzania 1 Tanzania Fishing vessels Finfishes nei 15 150 172050 163448 69500 0.05 300000 15000 84500 0.52 1.57 Mozambique 1 Mozambique Shrimp trawler Finfishes nei 4 130 150000 142500 47190 0.05 333500 16675 63865 0.45 1.43 2 Mozambique Fishing vessel Tuna 1 12.3 18869 17926 5894 0.05 400000 20000 25894 1.44 0.15 3 Mozambique Purse seiner Guitar fish 1 2030 1021090 970036 315340 0.05 1333500 66675 382015 0.39 2.45 4 Mozambique Fishing trawler Sharks 2 70 300000 285000 50510 0.05 660000 33000 83510 0.29 1.78 5 Mozambique Longliner Sharks 1 145 5000000 4750000 190870 0.05 4500000 225000 415870 0.09 5.07 South Africa 1 South Africa Fishing vessel Finfishes nei 1 30 25470 22923 6846 0.1 142000 14200 21046 0.92 0.57 2 South Africa Fishing vessel Finfishes nei 1 53 87537 78783 21896 0.1 90170 9017 30913 0.39 3.15 3 South Africa Fishing vessel Tuna 1 49.3 14068 12661 11095 0.1 58587 5859 16954 1.34 0.13 4 South Africa Fishing trawler Hake 1 2225 1751820 1576638 807450 0.1 346000 34600 842050 0.53 11.12 5 South Africa Fishing boat Brindle Bass Fish 1 0.1 32 29 11 0.1 26704 2670 2681 93.10 0.003 6 South Africa Squid Jigger Squids 1 10 9540 8586 2894 0.1 74339 7434 10328 1.20 0.38 7 South Africa Longliner Sharks 1 10 880 792 684 0.1 7500 750 1434 1.81 0.07 8 South Africa Fishing trawler Lobsters 2 200 2172200 1954980 196400 0.1 4000000 400000 596400 0.31 2.20 9 South Africa Carrier Fishing Vessel Lobsters 1 100 1086100 977490 71900 0.1 885640 88564 160464 0.16 5.11 10 South Africa Dive gear Abalone 0 2.8 3211 2569 1294 0.2 4464 893 2187 0.85 1.43 11 South Africa Dive gear Abalone 0 1.5 5161 4129 1467 0.2 5623 1125 2592 0.63 2.37 12 South Africa Dive gear Abalone 0 3 12312 9850 1934 0.2 73795 14759 16693 1.69 0.54 Namibia 1 Namibia Fishing trawler Finfishes nei 1 1 1623 1298 760 0.2 7741 1548 2308 1.78 0.35 2 Namibia Fishing trawler Finfishes nei 1 1 1623 1298 760 0.2 4644 929 1689 1.30 0.58 283No. Arresting Country Vessel / Gear Fishery Number of vessels Catch (t) Catch value (USD) Expected Revenue (USD) Variable Cost (USD) ? Fine (USD) Expected Penalty (USD) Total Cost (USD) Total Cost / Expected revenue New Fine 3 Namibia Fishing trawler Finfishes nei 1 3 4869 3895 2106 0.2 464 93 2199 0.56 19.28 4 Namibia Fishing trawler Finfishes nei 1 3 4869 3895 2246 0.2 4644 929 3175 0.82 1.78 5 Namibia Fishing trawler Finfishes nei 1 12 19476 15581 11600 0.2 3488 698 12298 0.79 5.71 6 Namibia Fishing trawler Finfishes nei 1 12 17160 13728 11600 0.2 1548 310 11910 0.87 6.87 7 Namibia Fishing trawler Finfishes nei 1 3 4290 3432 2486 0.2 7815 1563 4049 1.18 0.61 8 Namibia Fishing trawler Finfishes nei 1 12 20184 16147 11689 0.2 19686 3937 15626 0.97 1.13 9 Namibia Factory Fishing trawler Finfishes nei 1 12 19476 15581 9842 0.2 464 93 9935 0.64 61.84 10 Namibia Longliner Finfishes nei 1 6.2 2378 1902 1289 0.2 51816 10363 11652 6.13 0.06 11 Namibia Fishing vessel Finfishes nei 1 35 33950 27160 18940 0.2 7501 1500 20440 0.75 5.48 12 Namibia Fishing vessel Finfishes nei 7 168 47880 38304 17896 0.2 2400000 480000 497896 13.00 0.04 13 Namibia Fishing vessel Finfishes nei 4 4 5816 4653 4076 0.2 1114 223 4299 0.92 2.59 Angola 1 Angola Fishing trawler Finfishes nei 1 100 71800 64620 52146 0.1 4000000 400000 452146 7.00 0.02 2 Angola Fishing trawler Finfishes nei 2 36 34884 31396 10890 0.1 40000 4000 14890 0.47 2.56 3 Angola Fishing trawler Finfishes nei 4 72 70920 63828 32894 0.1 60000 6000 38894 0.61 2.58 4 Angola Fishing trawler Finfishes nei 18 324 319140 287226 210894 0.1 600000 60000 270894 0.94 0.64 5 Angola Fishing trawler Finfishes nei 1 24 23640 21276 9896 0.1 150000 15000 24896 1.17 0.38 6 Angola Fishing trawler Finfishes nei 2 36 35460 31914 11890 0.1 40000 4000 15890 0.50 2.50 7 Angola Pair trawler Finfishes nei 2 24 23640 21276 9896 0.1 138000 13800 23696 1.11 0.41 8 Angola Purse seiners Finfishes nei 3 36 35460 31914 11890 0.1 120000 12000 23890 0.75 0.83 Equatorial Guinea 1 Equatorial Guinea Refrigerated Cargo Ship Finfishes nei 1 2789 2041548 1939471 965600 0.05 500000 25000 990600 0.51 9.74 Cameroon 1 Cameroon Fishing trawler Finfishes nei 2 100 136500 129675 70300 0.05 98000 4900 75200 0.58 3.03 Ghana 1 Ghana Fishing trawler Finfishes nei 2 30 24210 21789 6896 0.1 20000 2000 8896 0.41 3.72 284No. Arresting Country Vessel / Gear Fishery Number of vessels Catch (t) Catch value (USD) Expected Revenue (USD) Variable Cost (USD) ? Fine (USD) Expected Penalty (USD) Total Cost (USD) Total Cost / Expected revenue New Fine 2 Ghana Fishing trawler Finfishes nei 2 30 24210 21789 6896 0.1 48000 4800 11696 0.54 1.55 3 Ghana Fishing trawler Finfishes nei 2 30 24210 21789 6896 0.1 20000 2000 8896 0.41 3.72 4 Ghana Fishing trawler Finfishes nei 2 30 24210 21789 6896 0.1 100000 10000 16896 0.78 0.74 5 Ghana Fishing trawler Finfishes nei 2 30 24210 21789 6896 0.1 100000 10000 16896 0.78 0.74 Liberia 1 Liberia Fishing trawler Finfishes nei 1 30 25800 24510 4324 0.05 327000 16350 20674 0.84 0.31 Sierra Leone 1 Sierra Leone Fishing trawler Finfishes nei 3 36 34164 32456 7954 0.05 200000 10000 17954 0.55 0.61 2 Sierra Leone Fishing trawler Finfishes nei 1 12 11256 10693 2840 0.05 30000 1500 4340 0.41 1.31 3 Sierra Leone Fishing trawler Finfishes nei 1 12 11256 10693 2840 0.05 35000 1750 4590 0.43 1.12 4 Sierra Leone Fishing trawler Finfishes nei 1 12 11256 10693 2840 0.05 30000 1500 4340 0.41 1.31 5 Sierra Leone Fishing vessel Finfishes nei 2 24 22512 21386 6896 0.05 11000 550 7446 0.35 6.59 6 Sierra Leone Fishing vessel Finfishes nei 1 18 16884 16040 4846 0.05 2600000 130000 134846 8.41 0.02 7 Sierra Leone Fishing trawler Finfishes nei 1 18 16884 16040 4846 0.05 40000 2000 6846 0.43 1.40 8 Sierra Leone Fishing trawler Finfishes nei 4 21 9000 8550 6192 0.05 2145000 107250 113442 13.27 0.005 9 Sierra Leone Purse Seiner Tuna 1 220 300000 285000 58000 0.05 600000 30000 88000 0.31 1.89 Guinea Bissau 1 Guinea Bissau Reefer fishing vessel Finfishes nei 1 1295 1160320 1102304 78200 0.05 234703 11735 89935 0.08 21.82 2 Guinea Bissau Fishing trawler Finfishes nei 4 48 65184 61925 6000 0.05 1505980 75299 81299 1.31 0.19 3 Guinea Bissau Fishing trawler Finfishes nei 5 60 81480 77406 10234 0.05 3187350 159368 169602 2.19 0.11 4 Guinea Bissau Fishing trawler Finfishes nei 20 120 107520 102144 34890 0.05 1530000 76500 111390 1.09 0.22 5 Guinea Bissau Fishing trawler Finfishes nei 5 60 53760 51072 12891 0.05 2500000 125000 137891 2.70 0.08 6 Guinea Bissau Fishing trawler Finfishes nei 1 12 11760 11172 1244 0.05 315865 15793 17037 1.52 0.16 7 Guinea Bissau Fishing trawler Finfishes nei 44 528 473088 449434 220410 0.05 7000000 350000 570410 1.27 0.16 8 Guinea Bissau Fishing trawler Finfishes nei 1 3 2688 2554 872 0.05 150000 7500 8372 3.28 0.06 285No. Arresting Country Vessel / Gear Fishery Number of vessels Catch (t) Catch value (USD) Expected Revenue (USD) Variable Cost (USD) ? Fine (USD) Expected Penalty (USD) Total Cost (USD) Total Cost / Expected revenue New Fine 9 Guinea Bissau Fishing trawler Finfishes nei 2 24 21504 20429 9892 0.05 400000 20000 29892 1.46 0.13 10 Guinea Bissau Fishing vessel Finfishes nei 4 48 65184 61925 21000 0.05 1075700 53785 74785 1.21 0.19 11 Guinea Bissau Fishing Canoes Finfishes nei 80 16 14336 13619 424 0.05 60000 3000 3424 0.25 1.10 Gambia 1 Gambia Fishing trawler Finfishes nei 1 30 35880 34086 6200 0.05 1320000 66000 72200 2.12 0.11 2 Gambia Fishing trawler Finfishes nei 3 18 22014 20913 8890 0.05 147644 7382 16272 0.78 0.41 3 Gambia Fishing trawler Finfishes nei 4 24 28080 26676 6300 0.05 98900 4945 11245 0.42 1.03 4 Gambia Fishing vessel Finfishes nei 6 180 215280 204516 13200 0.05 805432 40272 53472 0.26 1.19 5 Gambia Fishing vessel Finfishes nei 1 12 14352 13634 1942 0.05 46979 2349 4291 0.31 1.24 6 Gambia Fishing vessel Finfishes nei 1 30 34680 32946 4000 0.05 126529 6326 10326 0.31 1.14 7 Gambia Fishing vessel Finfishes nei 4 48 55488 52714 4286 0.05 241375 12069 16355 0.31 1.00 8 Gambia Fishing vessel Finfishes nei 3 18 22014 20913 1896 0.05 216780 10839 12735 0.61 0.44 9 Gambia Fishing vessel Finfishes nei 1 12 14040 13338 1942 0.05 2259 113 2055 0.15 25.22 Mauritania 1 Mauritania Fishing trawler Hake 1 100 81800 73620 32890 0.1 62593 6259 39149 0.53 3.25 2 Mauritania Fishing trawler Finfishes nei 1 12 9816 8834 1612 0.1 28451 2845 4457 0.50 1.27 Morocco 1 Morocco Fishing trawler Finfishes nei 4 120 159240 151278 118480 0.05 120000 6000 124480 0.82 1.37 2 Morocco Fishing trawler Finfishes nei 1 12 16356 15538 6204 0.05 150000 7500 13704 0.88 0.31 3 Morocco Fishing trawler Finfishes nei 1 30 42390 40271 13852 0.05 37368 1868 15720 0.39 3.53 4 Morocco Fishing vessel Finfishes nei 1 30 34980 33231 13852 0.05 33000 1650 15502 0.47 2.94 5 Morocco Freezer vessel Octopus 1 100 95400 90630 22895 0.05 653940 32697 55592 0.61 0.52 6 Morocco Fishing vessel Clams 1 0.03 45 43 9 0.05 28219 1411 1420 33.22 0.006 Sudan 1 Sudan Fishing vessel Finfishes nei 1 2 1772 1683 482 0.05 3759 188 670 0.40 3.20 2 Sudan Fishing boat Finfishes nei 1 0.5 253 240 19 0.05 2300 115 134 0.56 0.96 286No. Arresting Country Vessel / Gear Fishery Number of vessels Catch (t) Catch value (USD) Expected Revenue (USD) Variable Cost (USD) ? Fine (USD) Expected Penalty (USD) Total Cost (USD) Total Cost / Expected revenue New Fine 3 Sudan Fishing boat Finfishes nei 5 2.5 1267 1204 88 0.05 34570 1729 1817 1.51 0.32 Yemen 1 Yemen Fishing vessel Finfishes nei 1 140 308280 292866 111480 0.05 1150000 57500 168980 0.58 0.79 2 Yemen Fishing boat Finfishes nei 3 36 89064 84610.8 26684 0.05 150000 7500 34184 0.40 1.93 Qatar 1 Qatar Fishing boat Finfishes nei 7 3.5 5260 4734 911 0.1 96064 9606 10517 2.22 0.20 2 Qatar Fishing boat Finfishes nei 6 3 4509 4058.1 867 0.1 82340 8234 9101 2.24 0.19 3 Qatar Fishing Dhow Finfishes nei 8 2 3006 2705.4 678 0.1 45000 4500 5178 1.91 0.23 Bahrain 1 Bahrain Fishing vessel Finfishes nei 2 24 55440 49896 15968 0.1 130000 13000 28968 0.58 1.30 2 Bahrain Fishing boat Finfishes nei 1 1 2310 2079 489 0.1 795 79.5 568.5 0.27 10.00 Malta 1 Malta Fishing trawler Shrimps 1 3.6 75763 60610 10108 0.2 35356 7071 17179 0.28 7.14 2 Malta Fishing vessel Finfishes nei 1 0.6 894 715 410 0.2 49000 9800 10210 14.28 0.03 Croatia 1 Croatia Fishing trawler Pilchards 2 5.6 10378 9340 4200 0.1 18368 1837 6037 0.65 1.40 2 Croatia Fishing trawler Finfishes nei 1 10 19980 17982 9896 0.1 12600 1260 11156 0.62 3.21 Spain 1 Spain Drift netter Tuna 1 6 6990 6291 4214 0.1 2731 273 4487 0.71 3.80 2 Spain Fishing vessel Finfishes nei 1 100 278600 250740 181300 0.1 38758 3876 185176 0.74 8.96 3 Spain Fishing vessel Finfishes nei 1 40 224280 201852 18440 0.1 15614 1561 20001 0.10 58.73 4 Spain Fishing vessel Finfishes nei 1 1100 3088800 2779920 1002300 0.1 3153861 315386 1317686 0.47 2.82 Ukraine 1 Ukraine Fishing Schooner Finfishes nei 1 12 28608 25747 6984 0.1 115542 11554 18538 0.72 0.81 2 Ukraine Fishing Schooner Finfishes nei 2 3 7152 6437 1513 0.1 40000 4000 5513 0.86 0.62 3 Ukraine Fishing Schooner Finfishes nei 1 1.5 3576 3218 906 0.1 9306 931 1837 0.57 1.24 287No. Arresting Country Vessel / Gear Fishery Number of vessels Catch (t) Catch value (USD) Expected Revenue (USD) Variable Cost (USD) ? Fine (USD) Expected Penalty (USD) Total Cost (USD) Total Cost / Expected revenue New Fine 4 Ukraine Fishing Schooner Turbot 1 0.8 1973 1776 586 0.1 10721 1072 1658 0.93 0.55 Ireland 1 Ireland Tuna vessel Bluefin Tuna 1 8.5 96000 76800 4120 0.2 244723 48945 53065 0.69 1.48 2 Ireland Tuna vessel Bluefin Tuna 1 80 960000 768000 57600 0.2 1090960 218192 275792 0.36 3.26 3 Ireland Fishing trawler Finfishes nei 1 8 20224 16179 5120 0.2 326540 65308 70428 4.35 0.17 4 Ireland Fishing trawler Finfishes nei 1 8 19016 15213 6464 0.2 71167 14233 20697 1.36 0.61 5 Ireland Fishing trawler Mackerel 1 180 417060 333648 80200 0.2 138504 27701 107901 0.32 9.15 6 Ireland Fishing trawler Hake 1 7 34965 27972 12315 0.2 138 28 12343 0.44 567.28 7 Ireland Fishing trawler Monkfish 2 3 10980 8784 3705 0.2 122538 24508 28213 3.21 0.21 Sweden 1 Sweden Fishing trawler Atlantic Cod 1 6 11286 9029 1800 0.2 213 43 1843 0.20 169.69 2 Sweden Fishing trawler Atlantic Cod 1 1 2040 1632 325 0.2 213 43 368 0.23 30.68 3 Sweden Fishing vessel Herring 4 403 106800 85440 44863 0.2 107969 21594 66457 0.78 1.88 Georgia 1 Georgia Fishing vessel Anchovies 1 6.8 2502 2252 1296 0.1 62808 6281 7577 3.36 0.08 2 Georgia Fishing Seiner Finfishes nei 1 12 13392 12053 2852 0.1 120000 12000 14852 1.23 0.38 3 Georgia Fishing Seiner Finfishes nei 1 6 6696 6026 4926 0.1 28000 2800 7726 1.28 0.20 4 Georgia Fishing vessel Finfishes nei 1 23 33442 30098 24633 0.1 92000 9200 33833 1.12 0.30 5 Georgia Fishing vessel Finfishes nei 13 600 872400 785160 342600 0.1 380000 38000 380600 0.48 5.82 6 Georgia Fishing vessel Finfishes nei 1 46 51336 46202 14642 0.1 120000 12000 26642 0.58 1.32 7 Georgia Fishing vessel Finfishes nei 1 46 51336 46202 14642 0.1 156527 15653 30295 0.66 1.01 8 Georgia Fishing vessel Finfishes nei 1 46 51336 46202 14642 0.1 125000 12500 27142 0.59 1.26 9 Georgia Fishing vessel Finfishes nei 1 6 6696 6026 2214 0.1 125000 12500 14714 2.44 0.15 10 Georgia Fishing vessel Finfishes nei 3 180 200880 180792 92780 0.1 260000 26000 118780 0.66 1.69 11 Georgia Fishing vessel Finfishes nei 1 6 6696 6026 3214 0.1 27000 2700 5914 0.98 0.52 12 Georgia Fishing vessel Finfishes nei 2 90 100440 90396 40852 0.1 135656 13566 54418 0.60 1.83 288No. Arresting Country Vessel / Gear Fishery Number of vessels Catch (t) Catch value (USD) Expected Revenue (USD) Variable Cost (USD) ? Fine (USD) Expected Penalty (USD) Total Cost (USD) Total Cost / Expected revenue New Fine 13 Georgia Fishing vessel Finfishes nei 1 6 6696 6026 1226 0.1 23148 2315 3541 0.59 1.04 14 Georgia Fishing vessel Finfishes nei 4 24 26784 24106 8814 0.1 109588 10959 19773 0.82 0.70 15 Georgia Fishing vessel Finfishes nei 1 24 26784 24106 8814 0.1 27397 2740 11554 0.48 2.79 16 Georgia Fishing vessel Finfishes nei 1 6 6696 6026 3120 0.1 27272 2727 5847 0.97 0.53 17 Georgia Fishing vessel Finfishes nei 2 0.5 558 502 412 0.1 69 7 419 0.83 6.54 18 Georgia Fishing vessel Finfishes nei 1 24 26784 24106 9864 0.1 23148 2315 12179 0.51 3.08 19 Georgia Fishing vessel Finfishes nei 1 12 13392 12053 4842 0.1 23500 2350 7192 0.60 1.53 20 Georgia Fishing vessel Finfishes nei 1 6 6696 6026 3120 0.1 23500 2350 5470 0.91 0.62 21 Georgia Fishing vessel Finfishes nei 3 150 167400 150660 120650 0.1 88495 8850 129500 0.86 1.70 22 Georgia Fishing vessel Finfishes nei 1 50 55800 50220 23550 0.1 42373 4237 27787 0.55 3.15 23 Georgia Fishing vessel Finfishes nei 1 2.3 2589 2330 1896 0.1 17751 1775 3671 1.58 0.12 United Kingdom 1 UK Fishing trawler Hake 1 14 64358 51486 17600 0.2 146666 29333 46933 0.91 1.16 2 UK Fishing trawler Hake 1 3 13791 11033 4705 0.2 2415 483 5188 0.47 13.10 3 UK Fishing trawler Hake 1 2 9623 7698 2526 0.2 38082 7616 10142 1.32 0.68 4 UK Fishing trawler Atlantic Cod 1 12 28176 22541 13808 0.2 13401 2680 16488 0.73 3.26 5 UK Fishing trawler Atlantic Cod 1 12 28176 22541 13808 0.2 29472 5894 19702 0.87 1.48 6 UK Fishing trawler Atlantic Cod 1 4.8 11285 9028 8956 0.2 43854 8771 17727 1.96 0.01 7 UK Fishing trawler Atlantic Cod 1 2.9 6869 5495 5396 0.2 27467 5493 10889 1.98 0.02 8 UK Fishing trawler Atlantic Cod 1 36 84528 67622 52460 0.2 75387 15077 67537 1.00 1.01 9 UK Beam trawler Atlantic Cod 1 12 304864 243891 34584 0.2 47181 9436 44020 0.18 22.18 10 UK Beam trawler Atlantic Cod 1 12 32664 26131 13452 0.2 75696 15139 28591 1.09 0.84 11 UK Fishing trawler Anglerfish 1 24 89088 71270 70080 0.2 400736 80147 150227 2.11 0.01 12 UK Fishing trawler Monk fish 1 3 10137 8110 8024 0.2 20500 4100 12124 1.50 0.02 13 UK Fishing trawler Megrim 1 5.2 15431 12345 4834 0.2 17664 3533 8367 0.68 2.13 14 UK Fishing trawler Flatfish 6 167 518456 414765 402733 0.2 23928 4786 407519 0.98 2.51 15 UK Fishing trawler Sole 1 36 111456 89165 79620 0.2 40154 8031 87651 0.98 1.19 289No. Arresting Country Vessel / Gear Fishery Number of vessels Catch (t) Catch value (USD) Expected Revenue (USD) Variable Cost (USD) ? Fine (USD) Expected Penalty (USD) Total Cost (USD) Total Cost / Expected revenue New Fine 16 UK Beam trawler Sole 1 100 309600 247680 224500 0.2 54369 10874 235374 0.95 2.13 17 UK Beam trawler Sole 1 0.2 758 606 284 0.2 41765 8353 8637 14.24 0.04 18 UK Beam trawler Sole 1 2.2 6894 5515 3416 0.2 47408 9482 12898 2.34 0.22 19 UK Scallop dragger Sole 1 0.6 1857 1486 933 0.2 48995 9799 10732 7.22 0.06 20 UK Scallop dragger Sole 1 25 77400 61920 38050 0.2 96619 19324 57374 0.93 1.24 21 UK Scallop dragger Finfishes nei 1 4.6 29880 23904 10221 0.2 47648 9530 19751 0.83 1.44 22 UK Fishing trawler Finfishes nei 6 55.3 176694 141355 138250 0.2 261303 52261 190511 1.35 0.06 23 UK Fishing trawler Finfishes nei 1 12 23340 18672 17432 0.2 24234 4847 22279 1.19 0.26 24 UK Fishing trawler Finfishes nei 1 36 70020 56016 46800 0.2 36013 7203 54003 0.96 1.28 25 UK Fishing trawler Finfishes nei 1 12 23136 18509 18024 0.2 1569 314 18338 0.99 1.54 26 UK Fishing trawler Finfishes nei 1 12 23136 18509 17584 0.2 45055 9011 26595 1.44 0.10 27 UK Fishing trawler Finfishes nei 1 3 5595 4476 3028 0.2 5200 1040 4068 0.91 1.39 28 UK Fishing trawler Finfishes nei 1 5.3 10000 8000 4892 0.2 44820 8964 13856 1.73 0.35 29 UK Fishing trawler Finfishes nei 1 36 102456 81965 33752 0.2 7576 1515 35267 0.43 31.82 30 UK Fishing trawler Finfishes nei 1 24 44760 35808 14640 0.2 27077 5415 20055 0.56 3.91 31 UK Fishing trawler Finfishes nei 1 12 22380 17904 7540 0.2 35005 7001 14541 0.81 1.48 32 UK Beam trawler Finfishes nei 1 36 66708 53366 32620 0.2 20221 4044 36664 0.69 5.13 33 UK Fishing vessel Finfishes nei 2 216 423144 338515 108800 0.2 365112 73022 181822 0.54 3.15 34 UK Fishing vessel Finfishes nei 1 21 38856 31085 20945 0.2 47165 9433 30378 0.98 1.07 35 UK Crabber Crabs 1 50 88500 70800 49750 0.2 101409 20282 70032 0.99 1.04 Isle of Man ? British Territory 1 UK Fishing trawler Scallops 1 0.1 203 183 82 0.1 2248 225 307 1.68 0.22 2 UK Fishing trawler Scallops 1 0.5 783 705 410 0.1 11184 1118 1528 2.17 0.13 3 UK Scallop dragger Scallops 1 0.1 187 168 136 0.1 1627 163 299 1.77 0.10 4 UK Scallop dragger Scallops 1 0.2 250 225 152 0.1 3658 366 518 2.30 0.10 5 UK Scallop dragger Scallops 1 0.001 2 1 1 0.1 2362 236 237 175.33 0.002 6 UK Scallop dragger Scallops 2 2 3132 2819 1346 0.1 23178 2318 3664 1.30 0.32 290No. Arresting Country Vessel / Gear Fishery Number of vessels Catch (t) Catch value (USD) Expected Revenue (USD) Variable Cost (USD) ? Fine (USD) Expected Penalty (USD) Total Cost (USD) Total Cost / Expected revenue New Fine 7 UK Fishing trawler Nephrops 1 0.5 3000 2700 1031 0.1 2403 240 1271 0.47 3.47 Shetland Islands- British Territory 1 UK Factory trawler Finfishes nei 1 12 26352 23717 9572 0.1 23670 2367 11939 0.50 2.99 2 UK Fishing trawler Finfishes nei 1 12 24492 22043 11400 0.1 8407 841 12241 0.56 6.33 3 UK Fishing trawler Monkfish 1 13 28496 25646 16800 0.1 9973 997 17797 0.69 4.44 Channel Islands 1 Channel Is. Fishing trawler Finfishes nei 1 6 13854 22021 12600 0.1 6000 550 13150 0.60 8.56 France 1 France Fishing trawler Finfishes nei 1 1 2324 1859 912 0.2 32439 6488 7400 3.98 0.15 2 France Fishing trawler Finfishes nei 1 0.3 639 511 372 0.2 26084 5217 5589 10.93 0.03 3 France Fishing trawler Finfishes nei 1 6.8 10525 8420 3022 0.2 19736 3947 6969 0.83 1.37 4 France Fishing trawler Finfishes nei 1 9.7 33510 26808 13536 0.2 10252 2050 15586 0.58 6.47 5 France Fishing trawler Burbot 1 0.5 704 563 342 0.2 41089 8218 8560 15.20 0.03 6 France Fishing trawler Monkfish 1 3.3 9477 7582 7028 0.2 65677 13135 20163 2.66 0.04 7 France Fishing trawler Hake 1 1.5 2343 1874 1642 0.2 8705 1741 3383 1.80 0.13 8 France Fishing trawler Nephrops 1 0.2 172 138 104 0.2 7041 1408 1512 10.99 0.02 9 France Tuna vessel Anchovies 2 2 562 450 326 0.2 3970 794 1120 2.49 0.16 10 France Scallop dragger Scallops 1 14 21868 17494 10108 0.2 13706 2741 12849 0.73 2.69 11 France Scallop dragger Scallops 2 28 21118 16894 13216 0.2 30010 6002 19218 1.14 0.61 Madeira Islands ? Portuguese Islands Territory 1 Portugal Fishing vessel Tuna 1 2 2370 2133 1484 0.1 1565 157 1641 0.77 2.07 Azores Islands ? Portuguese Islands Territory 1 Portugal Tuna Seiner Tuna 1 21 30681 27613 14876 0.1 976 98 14974 0.54 65.25 Norway 1 Norway Factory trawler Finfishes nei 1 81 130256 104205 93303 0.2 13025 2605 95908 0.92 4.18 2 Norway Fishing trawler Finfishes nei 1 12 20160 16128 7524 0.2 9262 1852 9376 0.58 4.64 3 Norway Fishing trawler Finfishes nei 2 36 60480 48384 25896 0.2 330000 66000 91896 1.90 0.34 291No. Arresting Country Vessel / Gear Fishery Number of vessels Catch (t) Catch value (USD) Expected Revenue (USD) Variable Cost (USD) ? Fine (USD) Expected Penalty (USD) Total Cost (USD) Total Cost / Expected revenue New Fine 4 Norway Fishing trawler Finfishes nei 1 48.5 81480 65184 31755 0.2 100000 20000 51755 0.79 1.67 5 Norway Fishing trawler Finfishes nei 1 24 40320 32256 18312 0.2 60000 12000 30312 0.94 1.16 6 Norway Fishing trawler Finfishes nei 1 12 20160 16128 15852 0.2 19529 3906 19758 1.23 0.07 7 Norway Fishing trawler Finfishes nei 2 12 37096 29677 16852 0.2 46370 9274 26126 0.88 1.38 8 Norway Fishing trawler Atlantic Cod 1 18 30240 24192 19984 0.2 36646 7329 27313 1.13 0.57 9 Norway Fishing trawler Atlantic Cod 1 36 40644 32515 29852 0.2 156641 31328 61180 1.88 0.09 10 Norway Fishing trawler Atlantic Cod 1 55 62095 49676 48112 0.2 97528 19506 67618 1.36 0.08 11 Norway Fishing trawler Atlantic Cod 1 100 186100 148880 126300 0.2 1500000 300000 426300 2.86 0.08 12 Norway Fishing trawler Atlantic Cod 2 36 60480 48384 45896 0.2 786000 157200 203096 4.20 0.02 13 Norway Fishing trawler Atlantic Cod 1 207 755000 604000 268441 0.2 1614000 322800 591241 0.98 1.04 14 Norway Fishing trawler Atlantic Cod 1 100 186100 148880 126300 0.2 60081 12016 138316 0.93 1.88 15 Norway Fishing trawler Atlantic Cod 1 3 5583 4466 3124 0.2 6500 1300 4424 0.99 1.03 16 Norway Fishing trawler Atlantic Cod 1 12 22332 17866 11532 0.2 8612 1722 13254 0.74 3.68 17 Norway Fishing trawler Herring 1 400 96400 77120 50000 0.2 100625 20125 70125 0.91 1.35 18 Norway Fishing trawler Herring 1 220 38720 30976 24874 0.2 233731 46746 71620 2.31 0.13 19 Norway Fishing trawler Herring 1 160 28160 22528 19852 0.2 83968 16794 36646 1.63 0.16 20 Norway Pelagic Stern trawler Herring 1 1902 334752 267802 162800 0.2 451989 90398 253198 0.95 1.16 21 Norway Fishing trawler Halibut 1 36 44748 35798 24852 0.2 260000 52000 76852 2.15 0.21 22 Norway Fishing trawler Halibut 1 363 1975809 1580647 1019304 0.2 1999500 399900 1419204 0.90 1.40 23 Norway Fishing trawler Halibut 1 283 1540369 1232295 794664 0.2 1770000 354000 1148664 0.93 1.24 India 1 India Longliners Tuna 1 1 1601 1441 374 0.1 56605 5661 6035 4.19 0.09 2 India Longliners Tuna 1 0.2 320 288 36 0.1 1560 156 192 0.67 0.81 3 India Longliners Tuna 6 12 10140 9126 5160 0.1 1645 165 5325 0.58 12.05 4 India Longliners Tuna 12 12 4152 3737 2894 0.1 12097 1210 4104 1.10 0.35 5 India Fishing trawler Finfishes nei 2 111 100000 90000 78599 0.1 7395 740 79339 0.88 7.71 292No. Arresting Country Vessel / Gear Fishery Number of vessels Catch (t) Catch value (USD) Expected Revenue (USD) Variable Cost (USD) ? Fine (USD) Expected Penalty (USD) Total Cost (USD) Total Cost / Expected revenue New Fine 6 India Fishing vessel Finfishes nei 11 33 31515 28364 17090 0.1 1125951 112595 129685 4.57 0.05 7 India Fishing trawler Finfishes nei 1 9.2 6171 5554 4079 0.1 35428 3543 7622 1.37 0.21 8 India Fishing trawler Finfishes nei 1 1 1000 900 178 0.1 205550 20555 20733 23.04 0.02 9 India Fishing boat Finfishes nei 1 2 1934 1741 312 0.1 11777 1178 1490 0.86 0.61 Bangladesh 1 Bangladesh Fishing trawler Finfishes nei 1 57 50000 45000 8691 0.1 162000 16200 24891 0.55 1.12 2 Bangladesh Fishing trawler Finfishes nei 3 91.5 150000 135000 23214 0.1 80640 8064 31278 0.23 6.93 Myanmar 1 Myanmar Fishing trawler Finfishes nei 2 12 41568 37411 12852 0.1 10560 1056 13908 0.37 11.63 2 Myanmar Fishing vessel Finfishes nei 1 25 57650 51885 42000 0.1 6720 672 42672 0.82 7.35 3 Myanmar Longliner Tuna 4 40 15920 14328 8312 0.1 4001520 400152 408464 28.51 0.008 New Caledonia ? French Overseas Territory 1 France Longliner Yellow fin tuna 1 8 68432 54746 4136 0.2 272100 54420 58556 1.07 0.93 2 France Longliner Tuna 1 10 60850 48680 9420 0.2 192100 38420 47840 0.98 1.02 3 France Longliner Tuna 1 33 633247 506598 77286 0.2 91370 18274 95560 0.19 23.49 4 France Fishing vessel Sharks 1 40 2294000 1835200 138160 0.2 120000 24000 162160 0.09 70.71 Tonga 1 Tonga Longliner Sharks 1 6 23398 21058 6052 0.1 100000 10000 16052 0.76 0.23 2 Tonga Longliner Sharks 1 14.8 90053 81048 24661 0.1 22500 2250 26911 0.33 8.31 3 Tonga Fishing vessel Finfishes nei 1 26 158210 142389 30892 0.1 245000 24500 55392 0.39 1.34 Fiji 1 Fiji Fishing vessel Tuna 1 2.2 25000 23750 5427 0.05 31600 1580 7007 0.30 2.90 2 Fiji Fishing vessel Tuna 1 6 66138 62831 18052 0.05 1894 95 18147 0.29 118.21 3 Fiji Longliner Tuna 1 3.4 9000 8550 5842 0.05 226509 11325 17167 2.01 0.06 4 Fiji Longliner Tuna 1 3 33069 31416 9613 0.05 2000 100 9713 0.31 54.51 5 Fiji Longliner Tuna 1 6.2 68362 64944 15295 0.05 4000 200 15495 0.24 62.06 293No. Arresting Country Vessel / Gear Fishery Number of vessels Catch (t) Catch value (USD) Expected Revenue (USD) Variable Cost (USD) ? Fine (USD) Expected Penalty (USD) Total Cost (USD) Total Cost / Expected revenue New Fine 6 Fiji Longliner Finfishes nei 1 12 132276 125662 12104 0.05 231200 11560 23664 0.19 2.46 7 Fiji Longliner Sharks 1 10 11470 10897 4820 0.05 247127 12356 17176 1.58 0.12 French Polynesia 1 France Purse seiner Tuna 2 1600 17636800 14109440 796800 0.2 205128 41026 837826 0.06 324.50 2 France Purse seiner Tuna 1 658 7253134 5802507 112518 0.2 810000 162000 274518 0.05 35.12 3 France Fishing trawler Tuna 1 4 44092 35274 1744 0.2 102564 20513 22257 0.63 1.63 Kiribati 1 Kiribati Longliner Tuna 1 6.1 32104 28894 3521 0.1 756000 75600 79121 2.74 0.17 2 Kiribati Longliner Tuna 1 16.6 86427 77784 9438 0.1 329000 32900 42338 0.54 1.04 3 Kiribati Longliner Tuna 1 12 130488 117439 3600 0.1 2070000 207000 210600 1.79 0.27 4 Kiribati Longliner Tuna 1 9.9 109127 98214 9423 0.1 700000 70000 79423 0.81 0.63 5 Kiribati Longliner Sharks 1 12 132276 119048 12104 0.1 1022475 102248 114352 0.96 0.52 6 Kiribati Purse Seiner Tuna 1 20 217480 195732 19560 0.1 126 13 19573 0.10 6990.95 7 Kiribati Purse Seiner Tuna 1 40 440920 396828 39120 0.1 100000 10000 49120 0.12 17.89 Federated States of Micronesia 1 Micronesia Longliner Tuna 4 40 309120 278208 24000 0.1 160000 16000 40000 0.14 7.94 2 Micronesia Longliner Tuna 6 70 771610 694449 83940 0.1 717000 71700 155640 0.22 4.26 3 Micronesia Longliner Tuna 3 150 1653450 1488105 170050 0.1 310000 31000 201050 0.14 21.26 4 Micronesia Longliner Tuna 1 12 132276 119048 18104 0.1 200000 20000 38104 0.32 2.52 Cook Islands 1 Cook Islands Longliner Tuna 1 2.2 24330 21897 1520 0.1 163000 16300 17820 0.81 0.63 2 Cook Islands Longliner Tuna 1 25 275575 248018 40400 0.1 300000 30000 70400 0.28 3.46 3 Cook Islands Longliner Tuna 1 18 198414 178573 30156 0.1 69000 6900 37056 0.21 10.75 4 Cook Islands Longliner Tuna 1 20 262500 236250 34840 0.1 250000 25000 59840 0.25 4.03 5 Cook Islands Longliner Albacore Tuna 1 22 242506 218255 40524 0.1 181726 18173 58697 0.27 4.89 6 Cook Islands Fishing vessel Tuna 2 36 396828 357145 58812 0.1 439000 43900 102712 0.29 3.40 294No. Arresting Country Vessel / Gear Fishery Number of vessels Catch (t) Catch value (USD) Expected Revenue (USD) Variable Cost (USD) ? Fine (USD) Expected Penalty (USD) Total Cost (USD) Total Cost / Expected revenue New Fine Clipperton Island ? French Overseas Territory 1 France Purse seiner Tuna 2 1600 17636800 15873120 1564800 0.1 205128 20513 1585313 0.10 348.77 2 France Fishing vessel Tuna 1 4 44092 39683 2912 0.1 101000 10100 13012 0.33 1.82 Palau 1 Palau Fishing vessel Finfishes nei 1 10 247250 222525 8710 0.1 25000 2500 11210 0.05 42.76 2 Palau Fishing vessel Tuna 1 2600 28659800 25793820 6414200 0.1 40000 4000 6418200 0.25 2422.45 3 Palau Longliner Tuna 1 12 130488 117439 28104 0.1 18000 1800 29904 0.25 24.82 4 Palau Longliner Sharks 1 50 320000 288000 117100 0.1 13000 1300 118400 0.41 65.73 5 Palau Longliner Sharks 1 31 21483 19335 10562 0.1 10000 1000 11562 0.60 4.39 6 Palau Longliner Sharks 1 57 5643 5079 4116 0.1 189035 18904 23020 4.53 0.03 Papua New Guinea 1 PNG Fishing trawler Finfishes nei 3 36 159804 143824 11556 0.1 610686 61069 72625 0.50 1.08 2 PNG Fishing trawler Finfishes nei 2 24 106536 95882 8728 0.1 544000 54400 63128 0.66 0.80 3 PNG Mother ship Finfishes nei 1 45 51615 46454 18195 0.1 452000 45200 63395 1.36 0.31 4 PNG Fishing boat Finfishes nei 1 0.8 917 825 339 0.1 585 59 398 0.48 4.16 5 PNG Fishing boat Finfishes nei 4 0.4 458 412 259 0.1 16947 1695 1954 4.74 0.05 6 PNG Fishing vessel Finfishes nei 1 10 11470 10323 6794 0.1 3176 318 7112 0.69 5.56 7 PNG Motorised outrigger canoe Finfishes nei 1 0.6 688 619 138 0.1 1149 115 253 0.41 2.09 8 PNG Outrigger canoe Finfishes nei 3 1.8 2064 1858 716 0.1 5419 542 1258 0.68 1.05 9 PNG Fishing vessel Tuna 1 36 186732 168059 27600 0.1 115162 11516 39116 0.23 6.10 10 PNG Longliner Tuna 2 72 556416 500774 45200 0.1 2077182 207718 252918 0.51 1.10 11 PNG Longliner Tuna 3 45 496035 446432 162720 0.1 468180 46818 209538 0.47 3.03 12 PNG Refrigerated Mother ship Tuna 1 1190 13117370 11805633 908670 0.1 1340000 134000 1042670 0.09 40.66 13 PNG Longliner Sharks 2 12 13764 12388 3002 0.1 447700 44770 47772 3.86 0.10 14 PNG Longliner Sharks 1 1 1147 1032 531 0.1 16000 1600 2131 2.06 0.16 15 PNG Longliner Sharks 1 1.2 1376 1238 497 0.1 16000 1600 2097 1.69 0.23 295No. Arresting Country Vessel / Gear Fishery Number of vessels Catch (t) Catch value (USD) Expected Revenue (USD) Variable Cost (USD) ? Fine (USD) Expected Penalty (USD) Total Cost (USD) Total Cost / Expected revenue New Fine 16 PNG Fishing vessel Sharks 3 7.5 8602 7742 3232 0.1 10900 1090 4322 0.56 2.07 17 PNG Fishing vessel Sharks 1 5 5735 5162 3455 0.1 42399 4240 7695 1.49 0.20 18 PNG Fishing boat Sharks 5 250 286750 258075 147750 0.1 39132 3913 151663 0.59 14.10 19 PNG Outrigger motor boat Sea Cucumbers 1 0.1 114 103 21 0.1 1323 132 153 1.49 0.31 Vanuatu 1 Vanuatu Fishing vessel Finfishes nei 3 30 34410 30969 14000 0.1 18000 1800 15800 0.51 4.71 2 Vanuatu Longliner Sharks 1 12 13764 12388 1972 0.1 45000 4500 6472 0.52 1.16 3 Vanuatu Longliner Sharks 1 12 13764 12388 1972 0.1 50000 5000 6972 0.56 1.04 Tuvalu 1 Tuvalu Purse Seiner Tuna 1 50 457200 411480 48900 0.1 122000 12200 61100 0.15 14.86 2 Tuvalu Purse Seiner Tuna 1 25 228600 205740 24500 0.1 40000 4000 28500 0.14 22.66 3 Tuvalu Purse Seiner Tuna 1 20 171080 153972 21560 0.1 167208 16721 38281 0.25 3.96 4 Tuvalu Fishing vessel Tuna 1 10 85540 76986 24670 0.1 10000 1000 25670 0.33 26.16 Solomon Islands 1 Solomon Is. Purse Seiner Tuna 1 250 16660250 14994225 244500 0.1 212500 21250 265750 0.02 347.05 2 Solomon Is. Purse Seiner Tuna 1 250 16660250 14994225 244500 0.1 600000 60000 304500 0.02 122.91 3 Solomon Is. Purse Seiner Tuna 1 50 259350 233415 48900 0.1 130000 13000 61900 0.27 7.10 4 Solomon Is. Purse Seiner Tuna 1 250 2286000 2057400 244500 0.1 200000 20000 264500 0.13 45.32 5 Solomon Is. Purse Seiner Tuna 1 25 271850 244665 24450 0.1 75000 7500 31950 0.13 14.68 6 Solomon Is. Purse Seiner Tuna 2 300 3306900 2976210 293400 0.1 52320 5232 298632 0.10 256.38 7 Solomon Is. Purse Seiner Tuna 1 100 1102300 992070 97800 0.1 11660 1166 98966 0.10 383.48 8 Solomon Is. Pole & Line Vessel Tuna 1 50 457200 411480 48900 0.1 100000 10000 58900 0.14 18.13 9 Solomon Is. Fish Carrier Vessel Tuna 1 250 2174800 1957320 571000 0.1 869145 86915 657915 0.34 7.98 10 Solomon Is. Fish Carrier Vessel Tuna 1 200 2174800 1957320 456800 0.1 433109 43311 500111 0.26 17.32 11 Solomon Is. Fishing vessel Tuna 7 350 2324350 2091915 819700 0.1 2884350 288435 1108135 0.53 2.21 12 Solomon Is. Fishing vessel Tuna 1 50 543700 489330 114200 0.1 548000 54800 169000 0.35 3.42 296No. Arresting Country Vessel / Gear Fishery Number of vessels Catch (t) Catch value (USD) Expected Revenue (USD) Variable Cost (USD) ? Fine (USD) Expected Penalty (USD) Total Cost (USD) Total Cost / Expected revenue New Fine 13 Solomon Is. Fishing vessel Tuna 1 12 130488 117439 29604 0.1 47000 4700 34304 0.29 9.34 14 Solomon Is. Longliner Tuna 2 24 260976 234878 11568 0.1 180000 18000 29568 0.13 6.20 15 Solomon Is. Longliner Tuna 1 50 551150 496035 24100 0.1 88000 8800 32900 0.07 26.81 16 Solomon Is. Longliner Tuna 1 400 4409200 3968280 986800 0.1 300000 30000 1016800 0.26 49.69 Marshall Islands 1 Marshall Is. Live Reef Fish Carrier Finfishes nei 1 50 46400 41760 24560 0.1 1000000 100000 124560 2.98 0.09 2 Marshall Is. Fishing vessel Sharks 1 25 28175 25358 11000 0.1 200000 20000 31000 1.22 0.36 Niue 1 Niue Longliner Tuna 1 25 271850 244665 38550 0.1 296850 29685 68235 0.28 3.47 Philippines 1 Philippines Fishing trawler Finfishes nei 3 36 52308 49693 20808 0.05 7090 354.5 21162.5 0.43 20.37 2 Philippines Fishing vessel Finfishes nei 1 50 65000 61750 48000 0.05 2019 100.95 48100.95 0.78 34.05 3 Philippines Fishing vessel Finfishes nei 4 100 140700 133665 34200 0.05 300242 15012.1 49212.1 0.37 1.66 4 Philippines Fishing vessel Finfishes nei 1 10 14070 13367 9620 0.05 3600 180 9800 0.73 5.20 5 Philippines Fishing vessel Finfishes nei 14 28 39732 37745 13692 0.05 110645 5532.25 19224.25 0.51 1.09 6 Philippines Fishing vessel Finfishes nei 1 0.3 425 404 112 0.05 50000 2500 2612 6.47 0.03 7 Philippines Fishing vessel Finfishes nei 1 10 8320 7904 6612 0.05 12000 600 7212 0.91 0.54 8 Philippines Fishing boat Finfishes nei 1 10 10560 10032 6984 0.05 1312 65.6 7049.6 0.70 11.62 9 Philippines Fishing boat Finfishes nei 1 0.3 363 345 122 0.05 89 4.45 126.45 0.37 12.52 10 Philippines Fishing boat Finfishes nei 1 0.5 1453 1380 344 0.05 29 1.45 345.45 0.25 178.68 11 Philippines Fishing boat Finfishes nei 1 0.1 141 134 48 0.05 172 8.6 56.6 0.42 2.50 12 Philippines Fishing boat Finfishes nei 2 0.5 1453 1380 244 0.05 138 6.9 250.9 0.18 41.17 13 Philippines Pump boat Finfishes nei 4 2 2906 2761 400 0.05 117 5.85 405.85 0.15 100.88 14 Philippines Pump boat Finfishes nei 3 0.1 141 134 20 0.05 267 13.35 33.35 0.25 2.13 15 Philippines Longliner Finfishes nei 1 1 17785 16896 842 0.05 100000 5000 5842 0.35 0.80 16 Philippines Fishing vessel Bluefin Tuna 1 25 34425 32704 21540 0.05 30000 1500 23040 0.70 1.86 297No. Arresting Country Vessel / Gear Fishery Number of vessels Catch (t) Catch value (USD) Expected Revenue (USD) Variable Cost (USD) ? Fine (USD) Expected Penalty (USD) Total Cost (USD) Total Cost / Expected revenue New Fine 17 Philippines Fishing vessel Tuna 1 12 14136 13429 9869 0.05 25000 1250 11119 0.83 0.71 18 Philippines Fishing vessel Sharks 1 0.3 390 371 104 0.05 115000 5750 5854 15.80 0.01 19 Philippines Fishing vessel Sharks 1 0.8 723 687 396 0.05 200000 10000 10396 15.14 0.007 China 1 China Fishing vessel Finfishes nei 1 2 2918 2626 1832 0.1 38316 3831.6 5663.6 2.16 0.10 2 China Fishing vessel Finfishes nei 1 2 4708 4237 2068 0.1 8622 862.2 2930.2 0.69 1.26 3 China Fishing vessel Finfishes nei 5 2.5 5885 5297 2632 0.1 7820 782 3414 0.64 1.70 4 China Fishing vessel Tuna 1 1.7 7587 6828 4193 0.1 13042 1304.2 5497.2 0.81 1.01 Japan 1 Japan Fishing vessel Finfishes nei 1 25 7525 6020 4894 0.2 4640 928 5822 0.97 1.21 2 Japan Fishing vessel Finfishes nei 1 12 69924 55939 8104 0.2 35228 7046 15150 0.27 6.79 3 Japan Fishing vessel Finfishes nei 1 8 9408 7526 4120 0.2 34164 6833 10953 1.46 0.50 4 Japan Fishing vessel Finfishes nei 1 4 4800 3840 2060 0.2 46632 9326 11386 2.97 0.19 Republic of Korea 1 South Korea Fishing trawler Finfishes nei 2 4 6828 6145 3172 0.1 4334 433 3605 0.59 3.43 2 South Korea Fishing vessel Finfishes nei 5 5 32055 28850 4465 0.1 48000 4800 9265 0.32 2.54 3 South Korea Fishing boat Finfishes nei 165 330 625020 562518 206690 0.1 996962 99696 306386 0.54 1.78 4 South Korea Fishing trawler Marine Crabs 3 6 38466 34619 2758 0.1 120000 12000 14758 0.43 1.33 5 South Korea Fishing vessel Marine Crabs 11 36 230796 207716 20548 0.1 269296 26930 47478 0.23 3.48 6 South Korea Fishing vessel Marine Crabs 8 27 173097 155787 14911 0.1 203423 20342 35253 0.23 3.46 Russia 1 Russia Deep Sea Fishing trawler Finfishes nei 3 2500 3372500 3035250 795000 0.1 2800000 280000 1075000 0.35 4.00 2 Russia Transportation Reefer Finfishes nei 2 44.3 99255 89330 18896 0.1 592274 59227 78123 0.87 0.59 3 Russia Transportation Reefer Finfishes nei 1 100 105000 94500 78988 0.1 17005 1701 80689 0.85 4.56 4 Russia Refrigerat. Fish Transporter Finfishes nei 1 2 1428 1285 690 0.1 5000 500 1190 0.93 0.60 5 Russia Mother ship Finfishes nei 1 500 858000 772200 528500 0.1 415601 41560 570060 0.74 2.93 298No. Arresting Country Vessel / Gear Fishery Number of vessels Catch (t) Catch value (USD) Expected Revenue (USD) Variable Cost (USD) ? Fine (USD) Expected Penalty (USD) Total Cost (USD) Total Cost / Expected revenue New Fine 6 Russia Freezer trawler Finfishes nei 1 50 63100 56790 42890 0.1 6865 687 43577 0.77 10.12 7 Russia Fishing trawler Finfishes nei 1 50 62300 56070 41960 0.1 865300 86530 128490 2.29 0.08 8 Russia Fishing trawler Finfishes nei 1 0.4 700 630 460 0.1 15000 1500 1960 3.11 0.06 9 Russia Fishing trawler Finfishes nei 7 14 18270 16443 10986 0.1 2500 250 11236 0.68 10.91 10 Russia Fishing trawler Finfishes nei 1 6 7800 7020 5894 0.1 1000 100 5994 0.85 5.63 11 Russia Fishing trawler Finfishes nei 1 10 12620 11358 9890 0.1 1700 170 10060 0.89 4.32 12 Russia Fishing trawler Finfishes nei 1 16 16800 15120 7600 0.1 33930 3393 10993 0.73 1.11 13 Russia Fishing trawler Finfishes nei 1 48 33000 29700 17100 0.1 33650 3365 20465 0.69 1.87 14 Russia Fishing trawler Finfishes nei 1 2.4 3585 3227 2481 0.1 18985 1899 4380 1.36 0.20 15 Russia Fishing trawler Finfishes nei 1 24 25200 22680 13312 0.1 24171 2417 15729 0.69 1.94 16 Russia Fishing trawler Finfishes nei 1 12 12600 11340 8156 0.1 8978 898 9054 0.80 1.77 17 Russia Fishing trawler Finfishes nei 1 100 105000 94500 79856 0.1 3896 390 80246 0.85 18.79 18 Russia Fishing trawler Finfishes nei 1 19 19950 17955 14146 0.1 53801 5380 19526 1.09 0.35 19 Russia Fishing Schooner Finfishes nei 7 14 15652 14087 9541 0.1 107695 10770 20311 1.44 0.21 20 Russia Fishing Schooner Finfishes nei 1 6 2274 2047 1294 0.1 9694 969 2263 1.11 0.39 21 Russia Fishing vessel Finfishes nei 3 15 27735 24962 8860 0.1 46164 4616 13476 0.54 1.74 22 Russia Fishing vessel Finfishes nei 1 6 2274 2047 1796 0.1 10000 1000 2796 1.37 0.13 23 Russia Fishing vessel Finfishes nei 7 21 14994 13495 10523 0.1 4365 437 10960 0.81 3.40 24 Russia Fishing vessel Finfishes nei 600 900 1121400 1009260 694000 0.1 1106655 110666 804666 0.80 1.42 25 Russia Fishing vessel Finfishes nei 1500 1800 2349000 2114100 1111200 0.1 1311000 131100 1242300 0.59 3.82 26 Russia Fishing vessel Finfishes nei 626 751 980316 882284 699513 0.1 462156 46216 745729 0.85 1.98 27 Russia Fishing vessel Finfishes nei 41 2871 3500000 3150000 1403919 0.1 400000 40000 1443919 0.46 21.83 28 Russia Fishing vessel Finfishes nei 800 1023 1291026 1161923 196120 0.1 2611026 261103 457223 0.39 1.85 29 Russia Fishing vessel Finfishes nei 268 643 804393 723954 455109 0.1 409207 40921 496030 0.69 3.28 30 Russia Fishing vessel Finfishes nei 2 20 25020 22518 14980 0.1 130000 13000 27980 1.24 0.29 31 Russia Fishing vessel Finfishes nei 1 75 78750 70875 51246 0.1 1269 127 51373 0.72 77.34 299No. Arresting Country Vessel / Gear Fishery Number of vessels Catch (t) Catch value (USD) Expected Revenue (USD) Variable Cost (USD) ? Fine (USD) Expected Penalty (USD) Total Cost (USD) Total Cost / Expected revenue New Fine 32 Russia Fishing vessel Finfishes nei 4 16 29584 26626 7840 0.1 16468 1647 9487 0.36 5.70 33 Russia Fishing vessel Finfishes nei 4 20 38961 35065 9780 0.1 16333 1633 11413 0.33 7.74 34 Russia Fishing boat Finfishes nei 11 100 380600 342540 48900 0.1 94716 9472 58372 0.17 15.50 35 Russia Fishing trawler Arctic Pollack 1 94 286000 257400 214396 0.1 1086000 108600 322996 1.25 0.20 36 Russia Fishing trawler Alaska Pollack 1 124 75000 67500 31236 0.1 175000 17500 48736 0.72 1.04 37 Russia Fishing trawler Alaska Pollack 1 33 34650 31185 16502 0.1 9500 950 17452 0.56 7.73 38 Russia Fishing trawler Alaska Pollack 1 50 92500 83250 24602 0.1 1200500 120050 144652 1.74 0.24 39 Russia Fishing trawler Alaska Pollack 1 20 21000 18900 12260 0.1 6676050 667605 679865 35.97 0.005 40 Russia Fishing trawler Alaska Pollack 1 230 241500 217350 180490 0.1 1507070 150707 331197 1.52 0.12 41 Russia Fishing trawler Alaska Pollack 1 1 8494 7645 2263 0.1 16988 1699 3962 0.52 1.58 42 Russia Fishing trawler Alaska Pollack 1 115 382263 344037 110245 0.1 390757 39076 149321 0.43 2.99 43 Russia Fishing trawler Pollack 5 250 262500 236250 205020 0.1 122500 12250 217270 0.92 1.27 44 Russia Fishing trawler Pollack 1 122 128100 115290 91648 0.1 88000 8800 100448 0.87 1.34 45 Russia Fishing trawler Walleye Pollack 1 6 6300 5670 2100 0.1 15900 1590 3690 0.65 1.12 46 Russia Transportation Reefer Atlantic Cod 1 100 145000 130500 112300 0.1 13814 1381 113681 0.87 6.59 47 Russia Transportation Reefer Atlantic Cod 1 100 145000 130500 112300 0.1 1524 152 112452 0.86 59.71 48 Russia Transportation Reefer Atlantic Cod 1 100 145000 130500 112300 0.1 20071 2007 114307 0.88 4.53 49 Russia Transportation Reefer Atlantic Cod 1 100 145000 130500 112300 0.1 10150 1015 113315 0.87 8.97 50 Russia Fishing trawler Atlantic Cod 1 50 52500 47250 24450 0.1 20000 2000 26450 0.56 5.70 51 Russia Fishing trawler Atlantic Cod 1 133 139650 125685 100979 0.1 83364 8336 109315 0.87 1.48 52 Russia Fishing trawler Atlantic Cod 2 150 157500 141750 125964 0.1 66799 6680 132644 0.94 1.18 53 Russia Fishing trawler Atlantic Cod 1 75 98750 88875 61964 0.1 1534 153 62117 0.70 87.72 54 Russia Fishing trawler Atlantic Cod 1 75 98750 88875 61964 0.1 1524 152 62116 0.70 88.29 55 Russia Fishing trawler Atlantic Cod 1 75 98750 88875 61964 0.1 75688 7569 69533 0.78 1.78 56 Russia Fishing trawler Atlantic Cod 1 50 98750 88875 61964 0.1 9980 998 62962 0.71 13.48 57 Russia Fishing trawler Atlantic Cod 1 50 98750 88875 61964 0.1 10358 1036 63000 0.71 12.99 300No. Arresting Country Vessel / Gear Fishery Number of vessels Catch (t) Catch value (USD) Expected Revenue (USD) Variable Cost (USD) ? Fine (USD) Expected Penalty (USD) Total Cost (USD) Total Cost / Expected revenue New Fine 58 Russia Fishing trawler Atlantic Cod 1 50 98750 88875 61964 0.1 11987 1199 63163 0.71 11.23 59 Russia Fishing trawler Pacific Saury 1 6 17496 15746 8704 0.1 15000 1500 10204 0.65 2.35 60 Russia Fishing trawler Pacific Saury 1 0.2 583 525 206 0.1 5386 539 745 1.42 0.30 61 Russia Fishing trawler Flounder 2 10 23840 21456 12580 0.1 30000 3000 15580 0.73 1.48 62 Russia Fishing trawler Shrimps 1 0.3 784 706 312 0.1 2512 251 563 0.80 0.78 63 Russia Fishing trawler Shrimps 1 15 118396 106556 38250 0.1 8500 850 39100 0.37 40.18 64 Russia Fishing vessel Salmon 1 13.5 2376 2138 1486 0.1 15000 1500 2986 1.40 0.22 65 Russia Fishing vessel Halibut 1 0.3 715 644 360 0.1 888 89 449 0.70 1.60 66 Russia Fishing vessel Squids 1 50 157250 141525 114150 0.1 15380 1538 115688 0.82 8.90 67 Russia Fishing vessel Squids 1 50 157250 141525 114150 0.1 5600 560 114710 0.81 24.44 68 Russia Squid Jigger Squids 2 20 62900 56610 41440 0.1 3400 340 41780 0.74 22.31 69 Russia Transportation Reefer King Crabs 1 17 31433 29861 12207 0.05 55433 2772 14979 0.50 1.59 70 Russia Fishing trawler Red King Crabs 1 5.2 9614 9133 5569 0.05 9000 450 6019 0.66 1.98 71 Russia Fishing trawler Kamchatka Crab 1 0.2 8000 7600 384 0.05 9200 460 844 0.11 3.92 72 Russia Fishing vessel King Crabs 1 5.5 10169 9661 3070 0.05 31890 1595 4665 0.48 1.03 73 Russia Fishing vessel King Crabs 1 1 1849 1757 1095 0.05 30251 1513 2608 1.48 0.11 74 Russia Fishing vessel King Crabs 1 40 73960 70262 38800 0.05 491936 24597 63397 0.90 0.32 75 Russia Fishing vessel King Crabs 1 8.4 15531 14754 7113 0.05 22910 1146 8259 0.56 1.67 76 Russia Fishing vessel Snow Crabs 1 6 126083 119779 11970 0.05 18304 915 12885 0.11 29.45 77 Russia Fishing trawler Crabs 1 13 24037 22835 13923 0.05 28037 1402 15325 0.67 1.59 78 Russia Fishing trawler Crabs 1 23.3 43081 40927 11393 0.05 17371 869 12262 0.30 8.50 79 Russia Fishing vessel Crabs 6 45 83205 79045 20500 0.05 9615 481 20981 0.27 30.44 80 Russia Fishing vessel Crabs 1 60 110940 105393 38000 0.05 215000 10750 48750 0.46 1.57 81 Russia Fishing vessel Crabs 1 57 105393 100123 21047 0.05 237893 11895 32942 0.33 1.66 82 Russia Fishing vessel Crabs 1 1.5 2773 2634 886 0.05 38320 1916 2802 1.06 0.23 83 Russia Fishing vessel Crabs 1 3.5 6471 6147 1982 0.05 10365 518 2500 0.41 2.01 301No. Arresting Country Vessel / Gear Fishery Number of vessels Catch (t) Catch value (USD) Expected Revenue (USD) Variable Cost (USD) ? Fine (USD) Expected Penalty (USD) Total Cost (USD) Total Cost / Expected revenue New Fine Malaysia 1 Malaysia Fishing trawler Finfishes nei 1 30 57300 51570 1890 0.1 606300 60630 62520 1.21 0.41 2 Malaysia Fishing trawler Finfishes nei 1 40 76400 68760 1320 0.1 336737 33674 34994 0.51 1.00 3 Malaysia Fishing trawler Finfishes nei 1 40 74800 67320 4520 0.1 122723 12272 16792 0.25 2.56 4 Malaysia Fishing trawler Finfishes nei 1 30 55320 49788 2130 0.1 576590 57659 59789 1.20 0.41 5 Malaysia Fishing trawler Finfishes nei 1 30 55320 49788 3890 0.1 441619 44162 48052 0.97 0.52 6 Malaysia Fishing trawler Finfishes nei 2 1 1813 1632 163 0.1 707536 70754 70917 43.46 0.01 7 Malaysia Fishing trawler Finfishes nei 2 0.5 963 867 481 0.1 621368 62137 62618 72.25 0.003 8 Malaysia Fishing trawler Finfishes nei 1 0.001 14 13 1 0.1 101724 10172 10173 807.41 0.001 9 Malaysia Fishing trawler Finfishes nei 1 0.001 143 129 0 0.1 203250 20325 20325 157.93 0.003 10 Malaysia Fishing trawler Finfishes nei 1 40 66520 59868 4520 0.1 501406 50141 54661 0.91 0.55 11 Malaysia Fishing trawler Finfishes nei 1 15 24945 22451 1670 0.1 201281 20128 21798 0.97 0.52 12 Malaysia Fishing trawler Finfishes nei 30 3 815 734 489 0.1 3946 395 884 1.20 0.31 13 Malaysia Fishing trawler Finfishes nei 17 2.8 4736 4262 1618 0.1 5867590 586759 588377 138.04 0.002 14 Malaysia Fishing trawler Finfishes nei 2 1.5 2631 2368 544 0.1 349822 34982 35526 15.00 0.03 15 Malaysia Fishing trawler Finfishes nei 1 2 3600 3240 726 0.1 103360 10336 11062 3.41 0.12 16 Malaysia Fishing trawler Finfishes nei 1 6 10800 9720 126 0.1 47367 4737 4863 0.50 1.01 17 Malaysia Fishing trawler Finfishes nei 1 10 18000 16200 710 0.1 42104 4210 4920 0.30 1.84 18 Malaysia Fishing trawler Finfishes nei 2 6 11268 10141 2178 0.1 755216 75522 77700 7.66 0.05 19 Malaysia Fishing trawler Finfishes nei 1 0.2 526 473 72 0.1 318791 31879 31951 67.49 0.01 20 Malaysia Fishing trawler Finfishes nei 1 6 11022 9920 2178 0.1 320986 32099 34277 3.46 0.12 21 Malaysia Fishing trawler Finfishes nei 3 18 33066 29759 6534 0.1 1315100 131510 138044 4.64 0.09 22 Malaysia Fishing trawler Turtles 1 45 80000 72000 13984 0.1 145895 14590 28574 0.40 1.99 23 Malaysia Fishing trawler Turtles 1 137 275000 247500 87141 0.1 447387 44739 131880 0.53 1.79 24 Malaysia Fishing vessel Turtles 1 80 163400 147060 39120 0.1 230263 23026 62146 0.42 2.34 25 Malaysia Fishing vessel Turtles 1 1.5 3000 2700 733 0.1 14300 1430 2163 0.80 0.69 26 Malaysia Fishing vessel Turtles 2 146 260000 234000 188778 0.1 545736 54574 243352 1.04 0.41 302No. Arresting Country Vessel / Gear Fishery Number of vessels Catch (t) Catch value (USD) Expected Revenue (USD) Variable Cost (USD) ? Fine (USD) Expected Penalty (USD) Total Cost (USD) Total Cost / Expected revenue New Fine 27 Malaysia Fishing vessel Tuna 2 0.6 634 571 194 0.1 105270 10527 10721 18.79 0.02 28 Malaysia Fishing vessel Tuna 1 10 10580 9522 8394 0.1 208561 20856 29250 3.07 0.03 29 Malaysia Fishing vessel Finfishes nei 31 310 579700 521730 112530 0.1 15814 1581 114111 0.22 129.38 30 Malaysia Fishing vessel Finfishes nei 19 190 355300 319770 68970 0.1 5151 515 69485 0.22 243.45 31 Malaysia Fishing vessel Finfishes nei 3 0.01 247 222 3 0.1 2279272 227927 227930 1025.33 0.0005 32 Malaysia Fishing vessel Finfishes nei 3 60 112200 100980 21780 0.1 311284 31128 52908 0.52 1.27 33 Malaysia Fishing vessel Finfishes nei 1 0.1 294 265 189 0.1 435006 43501 43690 165.12 0.001 34 Malaysia Fishing vessel Finfishes nei 12 24 39912 35921 25704 0.1 103061 10306 36010 1.00 0.50 35 Malaysia Fishing vessel Finfishes nei 1 3 5091 4582 3213 0.1 94724 9472 12685 2.77 0.07 36 Malaysia Fishing vessel Finfishes nei 17 34 61200 55080 19652 0.1 20000 2000 21652 0.39 8.86 37 Malaysia Fishing vessel Finfishes nei 2 36 67608 60847 13068 0.1 1262990 126299 139367 2.29 0.19 38 Malaysia Fishing vessel Finfishes nei 4 10 18780 16902 13660 0.1 539459 53946 67606 4.00 0.03 39 Malaysia Fishing vessel Finfishes nei 2 8 15024 13522 8568 0.1 710499 71050 79618 5.89 0.03 40 Malaysia Fishing vessel Finfishes nei 16 128 240384 216346 46464 0.1 736823 73682 120146 0.56 1.15 41 Malaysia Fishing vessel Finfishes nei 1 3 5500 4950 3213 0.1 203829 20383 23596 4.77 0.04 42 Malaysia Fishing vessel Finfishes nei 4 6 11022 9920 5388 0.1 253000 25300 30688 3.09 0.09 43 Malaysia Fishing vessel Finfishes nei 1 0.1 184 166 16 0.1 326256 32626 32642 197.11 0.00 44 Malaysia Fishing vessel Finfishes nei 1 6 10980 9882 1934 0.1 157733 15773 17707 1.79 0.25 45 Malaysia Fishing vessel Finfishes nei 1 6 10980 9882 1934 0.1 126004 12600 14534 1.47 0.32 46 Malaysia Fishing vessel Finfishes nei 1 12 21960 19764 5868 0.1 139130 13913 19781 1.00 0.50 47 Malaysia Fishing vessel Finfishes nei 1 6 10980 9882 2934 0.1 52631 5263 8197 0.83 0.66 48 Malaysia Fishing vessel Finfishes nei 1 40 10527 9474 4890 0.1 76323 7632 12522 1.32 0.30 49 Malaysia Fishing vessel Finfishes nei 3 0.1 343 309 90 0.1 529195 52920 53010 171.72 0.00 50 Malaysia Fishing vessel Finfishes nei 1 30 53190 47871 41860 0.1 286000 28600 70460 1.47 0.11 51 Malaysia Fishing vessel Finfishes nei 1 6 10638 9574 2934 0.1 136564 13656 16590 1.73 0.24 52 Malaysia Fishing vessel Finfishes nei 3 690 1221980 1099782 946780 0.1 187500 18750 965530 0.88 4.08 53 Malaysia Fishing vessel Finfishes nei 1 6 10638 9574 2934 0.1 224450 22445 25379 2.65 0.15 303No. Arresting Country Vessel / Gear Fishery Number of vessels Catch (t) Catch value (USD) Expected Revenue (USD) Variable Cost (USD) ? Fine (USD) Expected Penalty (USD) Total Cost (USD) Total Cost / Expected revenue New Fine 54 Malaysia Fishing vessel Finfishes nei 1 0.5 918 826 244 0.1 131707 13171 13415 16.24 0.02 55 Malaysia Fishing boat Finfishes nei 2 12 22536 20282 12852 0.1 321046 32105 44957 2.22 0.12 56 Malaysia Fishing boat Finfishes nei 2 18 33804 30424 1534 0.1 143012 14301 15835 0.52 1.01 57 Malaysia Fishing boat Finfishes nei 1 0.3 531 478 23 0.1 2813 281 304 0.64 0.81 58 Malaysia Fishing boat Finfishes nei 12 6 9978 8980 4356 0.1 94728 9473 13829 1.54 0.24 Indonesia 1 Indonesia Fishing trawler Finfishes nei 5 22.5 12937 12290 5167 0.05 294000 14700 19867 1.62 0.12 2 Indonesia Fishing trawler Finfishes nei 40 800 468800 445360 160400 0.05 10549400 527470 687870 1.54 0.14 3 Indonesia Fishing trawler Finfishes nei 6 300 145800 138510 108900 0.05 3920 196 109096 0.79 37.77 4 Indonesia Fishing trawler Finfishes nei 6 240 140640 133608 108040 0.05 14400 720 108760 0.81 8.88 5 Indonesia Fishing trawler Finfishes nei 1 40 22000 20900 14520 0.05 5995 300 14820 0.71 5.32 6 Indonesia Fishing trawler Finfishes nei 2 26 14300 13585 5438 0.05 18090 905 6343 0.47 2.25 7 Indonesia Fishing vessel Finfishes nei 1 3 1842 1750 1067 0.05 1000 50 1117 0.64 3.41 8 Indonesia Fishing vessel Finfishes nei 16 480 276480 262656 220640 0.05 80640 4032 224672 0.86 2.61 9 Indonesia Fishing vessel Finfishes nei 1 30 17280 16416 9890 0.05 4200 210 10100 0.62 7.77 10 Indonesia Fishing vessel Finfishes nei 5 100 58700 55765 26300 0.05 582284 29114 55414 0.99 0.25 11 Indonesia Fishing vessel Finfishes nei 1 12 7044 6692 5168 0.05 2520 126 5294 0.79 3.02 12 Indonesia Fishing vessel Finfishes nei 2 16 9392 8922 2321 0.05 20160 1008 3329 0.37 1.64 13 Indonesia Fishing vessel Finfishes nei 1 6 3504 3329 1592 0.05 6720 336 1928 0.58 1.29 14 Indonesia Fishing vessel Finfishes nei 9 36 19800 18810 9568 0.05 17100 855 10423 0.55 2.70 15 Indonesia Fishing vessel Finfishes nei 1 0.1 5 5 1 0.05 232940 11647 11648 2452.27 0.00007 16 Indonesia Fishing vessel Finfishes nei 6 240 132000 125400 102080 0.05 15319 766 102846 0.82 7.61 17 Indonesia Fishing vessel Finfishes nei 7 100 55000 52250 26300 0.05 537735 26887 53187 1.02 0.24 18 Indonesia Fishing vessel Finfishes nei 5 75 41250 39188 30325 0.05 265000 13250 43575 1.11 0.17 19 Indonesia Fishing vessel Tuna 10 10 4480 4256 2984 0.05 92400 4620 7604 1.79 0.07 Cambodia 1 Cambodia Fishing trawler Finfishes nei 7 70 142380 135261 29410 0.05 105000 5250 34660 0.26 5.04 304No. Arresting Country Vessel / Gear Fishery Number of vessels Catch (t) Catch value (USD) Expected Revenue (USD) Variable Cost (USD) ? Fine (USD) Expected Penalty (USD) Total Cost (USD) Total Cost / Expected revenue New Fine 2 Cambodia Fishing trawler Finfishes nei 2 24 59184 56225 12704 0.05 203400 10170 22874 0.41 1.07 Vietnam 1 Vietnam Fishing trawler Finfishes nei 5 64 128000 121600 82752 0.05 17500 875 83627 0.69 11.10 2 Vietnam Fishing trawler Finfishes nei 4 4 9600 9120 1352 0.05 14000 700 2052 0.23 2.77 3 Vietnam Fishing trawler Finfishes nei 6 72 172800 164160 93096 0.05 6000 300 93396 0.57 59.22 4 Vietnam Fishing trawler Finfishes nei 4 48 96000 91200 17424 0.05 57150 2858 20282 0.22 6.45 5 Vietnam Fishing trawler Finfishes nei 8 96 230400 218880 34848 0.05 250000 12500 47348 0.22 3.68 6 Vietnam Fishing trawler Finfishes nei 4 88 132000 125400 31944 0.05 84375 4219 36163 0.29 5.54 7 Vietnam Fishing vessel Finfishes nei 6 24 48000 45600 8104 0.05 85000 4250 12354 0.27 2.21 8 Vietnam Fishing boat Finfishes nei 1 6 12000 11400 2934 0.05 6350 318 3252 0.29 6.67 Australia 1 Australia Fishing trawler Shrimps 1 5 40572 32458 6840 0.2 46049 9210 16050 0.49 2.78 2 Australia Fishing trawler Finfishes nei 1 1 6040 4832 363 0.2 69606 13921 14284 2.96 0.32 3 Australia Fishing trawler Finfishes nei 1 0.2 1204 963 193 0.2 34425 6885 7078 7.35 0.11 4 Australia Fishing vessel Prawns 1 0.2 230 184 124 0.2 1655 331 455 2.47 0.18 5 Australia Fishing vessel Finfishes nei 4 12 13764 11011 6878 0.2 1000000 200000 206878 18.79 0.02 6 Australia Fishing vessel Finfishes nei 1 3 18000 14400 2070 0.2 31655 6331 8401 0.58 1.95 7 Australia Fishing vessel Finfishes nei 1 1 5128 4102 898 0.2 512120 102424 103322 25.19 0.03 8 Australia Fishing vessel Finfishes nei 1 0.4 2315 1852 368 0.2 100113 20023 20391 11.01 0.07 9 Australia Fishing vessel Finfishes nei 1 0.3 1694 1355 269 0.2 105600 21120 21389 15.78 0.05 10 Australia Fishing boat Finfishes nei 31 9.3 10667 8534 6364 0.2 71807 14361 20725 2.43 0.15 11 Australia Fishing boat Finfishes nei 1 3 12441 9953 2694 0.2 30645 6129 8823 0.89 1.18 12 Australia Fishing boat Finfishes nei 1 0.3 1694 1355 269 0.2 50910 10182 10451 7.71 0.11 13 Australia Fishing boat Trochus 1 0.1 600 480 97 0.2 15100 3020 3117 6.49 0.13 14 Australia Fishing boat Trochus 1 1.5 1720 1376 1047 0.2 7462 1492 2539 1.85 0.22 15 Australia Fishing boat Trochus 5 1.2 7200 5760 973 0.2 9427 1885 2858 0.50 2.54 16 Australia Fishing boat Trochus 1 3 11612 9290 2934 0.2 200516 40103 43037 4.63 0.16 305No. Arresting Country Vessel / Gear Fishery Number of vessels Catch (t) Catch value (USD) Expected Revenue (USD) Variable Cost (USD) ? Fine (USD) Expected Penalty (USD) Total Cost (USD) Total Cost / Expected revenue New Fine 17 Australia Fishing vessel Sharks 1 0.7 800 640 581 0.2 89898 17980 18561 29.00 0.00 18 Australia Fishing vessel Sharks 3 9 10232 8186 6479 0.2 22503 4501 10980 1.34 0.38 19 Australia Fishing vessel Sharks 1 0.7 802 642 581 0.2 10000 2000 2581 4.02 0.03 20 Australia Fishing vessel Sharks 1 0.9 1032 826 755 0.2 158509 31702 32457 39.31 0.002 21 Australia Fishing vessel Sharks 1 0.3 344 275 249 0.2 174374 34875 35124 127.63 0.001 22 Australia Fishing vessel Sharks 1 0.08 92 74 49 0.2 12570 2514 2563 34.82 0.010 23 Australia Fishing vessel Sharks 1 0.5 573 458 194 0.2 162002 32400 32594 71.10 0.008 24 Australia Fishing vessel Sharks 1 0.5 573 458 194 0.2 164449 32890 33084 72.17 0.008 25 Australia Fishing vessel Sharks 1 0.5 573 458 194 0.2 167246 33449 33643 73.39 0.008 26 Australia Fishing vessel Sharks 1 0.5 573 458 194 0.2 164100 32820 33014 72.02 0.008 27 Australia Fishing vessel Sharks 1 0.5 573 458 194 0.2 167246 33449 33643 73.39 0.008 28 Australia Fishing vessel Sharks 1 0.5 573 458 194 0.2 167246 33449 33643 73.39 0.008 29 Australia Fishing vessel Sharks 1 0.5 573 458 215 0.2 294678 58936 59151 129.04 0.004 30 Australia Fishing boat Sharks 1 1 1147 918 831 0.2 2326 465 1296 1.41 0.19 31 Australia Fishing boat Sharks 1 2.5 2867 2294 1677 0.2 5094 1019 2696 1.18 0.61 32 Australia Fishing boat Sharks 1 2.3 2638 2110 1545 0.2 26356 5271 6816 3.23 0.11 33 Australia Gillnetter Sharks 1 0.6 688 550 456 0.2 106300 21260 21716 39.45 0.004 34 Australia Fishing boat Eels 1 0.07 80 64 46 0.2 794 159 205 3.20 0.11 35 Australia Fishing boat Eels 1 0.01 12 10 6 0.2 4808 962 968 100.79 0.004 36 Australia Fishing boat Sea Bass 1 0.03 330 264 39 0.2 2243 449 488 1.85 0.50 37 Australia Fishing boat Sea Cucumbers 1 0.4 460 368 212 0.2 3625 725 937 2.55 0.22 38 Australia Fishing boat Sea Cucumbers 1 0.5 573 458 210 0.2 3074 615 825 1.80 0.40 39 Australia Fishing boat Sea Cucumbers 1 1 1092 874 420 0.2 26297 5259 5679 6.50 0.09 40 Australia Fishing boat Rock Lobsters 1 0.3 344 275 202 0.2 1123 225 427 1.55 0.33 41 Australia Fishing boat Rock Lobsters 1 2.2 2523 2018 1646 0.2 9536 1907 3553 1.76 0.20 42 Australia Fishing boat Rock Lobsters 1 0.03 33 26 16 0.2 439 88 104 3.93 0.12 43 Australia Fishing boat Rock Lobsters 1 1.3 1491 1193 984 0.2 21091 4218 5202 4.36 0.05 306No. Arresting Country Vessel / Gear Fishery Number of vessels Catch (t) Catch value (USD) Expected Revenue (USD) Variable Cost (USD) ? Fine (USD) Expected Penalty (USD) Total Cost (USD) Total Cost / Expected revenue New Fine 44 Australia Fishing boat Rock Lobsters 1 1.1 1261 1009 880 0.2 11114 2223 3103 3.08 0.06 45 Australia Fishing boat Rock Lobsters 1 0.3 344 275 146 0.2 9197 1839 1985 7.21 0.07 46 Australia Fishing boat Rock Lobsters 1 0.2 229 183 124 0.2 3385 677 801 4.37 0.09 47 Australia Fishing boat Abalone 1 1 31720 22204 978 0.3 470000 141000 141978 6.39 0.23 48 Australia Fishing boat Abalone 1 0.06 3277 2294 58 0.3 73391 22017 22075 9.62 0.15 49 Australia Dinghy boat Abalone 1 0.1 8220 5754 132 0.3 19593 5878 6010 1.04 1.43 50 Australia Dive Gear Abalone - 0.05 2592 1814 47 0.3 8135 2441 2488 1.37 1.09 51 Australia Dive Gear Abalone - 0.01 810 567 13 0.3 2628 788 801 1.41 1.05 52 Australia Dive Gear Abalone - 0.009 518 363 9 0.3 952 286 295 0.81 1.86 53 Australia Dive Gear Abalone - 0.008 432 302 7 0.3 769 231 238 0.79 1.92 54 Australia Dive Gear Abalone - 0.01 810 567 13 0.3 1663 499 512 0.90 1.67 55 Australia Dive Gear Abalone - 0.03 1458 1021 25 0.3 3065 920 945 0.93 1.62 56 Australia Dive Gear Abalone - 0.04 2460 1722 39 0.3 4543 1363 1402 0.81 1.85 57 Australia Dive Gear Abalone - 0.01 836 585 8 0.3 3470 1041 1049 1.79 0.83 58 Australia Dive Gear Abalone - 0.12 7200 5040 117 0.3 108725 32618 32735 6.49 0.23 59 Australia Dive Gear Abalone - 0.06 3600 2520 58 0.3 22045 6614 6672 2.65 0.56 60 Australia Dive Gear Abalone - 0.07 4080 2856 61 0.3 18505 5552 5613 1.97 0.76 61 Australia Dive Gear Abalone - 0.06 3420 2394 55 0.3 6300 1890 1945 0.81 1.86 62 Australia Dive Gear Abalone - 0.003 192 134 3 0.3 1316 395 398 2.96 0.50 63 Australia Dive Gear Abalone - 0.6 38207 26745 486 0.3 81875 24563 25049 0.94 1.60 64 Australia Dive Gear Abalone - 0.01 600 420 9 0.3 8943 2683 2692 6.41 0.23 65 Australia Dive Gear Abalone - 0.04 3354 2348 12 0.3 13900 4170 4182 1.78 0.84 66 Australia Dive Gear Abalone - 0.3 5828 4080 300 0.3 6605 1982 2282 0.56 2.86 67 Australia Dive Gear Abalone - 0.03 2264 1585 31 0.3 18118 5435 5466 3.45 0.43 68 Australia Dive Gear Abalone - 0.06 2909 2036 165 0.3 24900 7470 7635 3.75 0.38 307No. Arresting Country Vessel / Gear Fishery Number of vessels Catch (t) Catch value (USD) Expected Revenue (USD) Variable Cost (USD) ? Fine (USD) Expected Penalty (USD) Total Cost (USD) Total Cost / Expected revenue New Fine New Zealand 1 New Zealand Fishing trawler Hoki 3 500 397822 318258 200500 0.2 54369 10874 211374 0.66 10.83 2 New Zealand Fishing trawler Hoki 1 36.3 41669 33335 12894 0.2 93655 18731 31625 0.95 1.09 3 New Zealand Fishing trawler Hoki 1 44 48451 38761 18496 0.2 2358115 471623 490119 12.64 0.04 4 New Zealand Fishing trawler Hoki 1 12 13764 11011 5123 0.2 2429517 485903 491026 44.59 0.01 5 New Zealand Fishing trawler Hake 2 433 496651 397321 174222 0.2 1821541 364308 538530 1.36 0.61 6 New Zealand Fishing trawler Hake 1 208 203503 162802 75888 0.2 606269 121254 197142 1.21 0.72 7 New Zealand Fishing trawler Oreo Dory 1 290 332630 266104 151010 0.2 1404486 280897 431907 1.62 0.41 8 New Zealand Fishing trawler Dogfish Shark 1 6 6882 5506 3264 0.2 2366566 473313 476577 86.56 0.005 9 New Zealand Fishing trawler Ling 2 700 980000 784000 562000 0.2 4875580 975116 1537116 1.96 0.23 10 New Zealand Fishing trawler Scallops & Rock Lobsters 1 0.5 612 490 406 0.2 8540 1708 2114 4.32 0.05 11 New Zealand Fishing trawler Scallops 1 0.1 324 259 202 0.2 28165 5633 5835 22.51 0.01 12 New Zealand Factory trawler Blue Whiting 1 150 192050 153640 102600 0.2 34529 6906 109506 0.71 7.39 13 New Zealand Surimi Ship Blue Whiting 1 770 883190 706552 412864 0.2 8403000 1680600 2093464 2.96 0.17 14 New Zealand Fishing trawler Finfishes nei 1 0.1 114 91 84 0.2 2401 480 564 6.19 0.01 15 New Zealand Fishing vessel Finfishes nei 1 10.4 11723 9378 7264 0.2 5249 1050 8314 0.89 2.01 16 New Zealand Fishing vessel Finfishes nei 1 2.5 6000 4800 2355 0.2 125663 25133 27488 5.73 0.10 17 New Zealand Fishing vessel Finfishes nei 1 0.3 289 231 192 0.2 1890 378 570 2.47 0.10 18 New Zealand Fishing vessel Finfishes nei 1 0.7 757 606 494 0.2 26794 5359 5853 9.66 0.02 19 New Zealand Fishing vessel Finfishes nei 1 272 313000 250400 205568 0.2 682310 136462 342030 1.37 0.33 20 New Zealand Fishing vessel Snappers 1 0.1 207 166 114 0.2 18266 3653 3767 22.75 0.014 21 New Zealand Fishing vessel Snappers 1 5.1 5849 4679 2444 0.2 28000 5600 8044 1.72 0.40 308No. Arresting Country Vessel / Gear Fishery Number of vessels Catch (t) Catch value (USD) Expected Revenue (USD) Variable Cost (USD) ? Fine (USD) Expected Penalty (USD) Total Cost (USD) Total Cost / Expected revenue New Fine 22 New Zealand Fishing vessel Snappers 1 0.01 200 160 23 0.2 4223 845 868 5.42 0.16 23 New Zealand Fish Carrier Orange Roughy 1 50 67350 53880 31200 0.2 64650 12930 44130 0.82 1.75 24 New Zealand Squid Jigger Squids 1 77 142065 113652 64112 0.2 335020 67004 131116 1.15 0.74 25 New Zealand Purse Seiner Skipjack Tuna 1 100 1102300 881840 401800 0.2 11500 2300 404100 0.46 208.71 26 New Zealand Fishing vessel Rock Lobsters 1 4.1 4702 3762 2824 0.2 23544 4709 7533 2.00 0.20 27 New Zealand Fishing vessel Rock Lobsters 1 4.8 95486 76389 17962 0.2 84899 16980 34942 0.46 3.44 28 New Zealand Fishing vessel Rock Lobsters 1 0.1 138 110 31 0.2 14056 2811 2842 25.74 0.03 29 New Zealand Fishing vessel Rock Lobsters 1 0.1 66 53 21 0.2 1426 285 306 5.80 0.11 30 New Zealand Fishing boat Abalone 1 0.9 43214 34571 774 0.2 16677 3335 4109 0.12 10.13 31 New Zealand Fishing boat Abalone 1 0.2 206 165 72 0.2 4687 937 1009 6.13 0.10 32 New Zealand Dinghy boat Abalone 1 0.5 18303 14642 389 0.2 119720 23944 24333 1.66 0.60 33 New Zealand Outboard Dinghy Abalone 6 0.02 300 240 19 0.2 18000 3600 3619 15.08 0.06 34 New Zealand Dive gear Abalone - 0.2 36000 28800 195 0.2 37803 7561 7756 0.27 3.78 35 New Zealand Dive gear Abalone - 0.5 13600 10880 489 0.2 35148 7030 7519 0.69 1.48 36 New Zealand Dive gear Abalone - 2.1 119352 95482 1753 0.2 144000 28800 30553 0.32 3.25 37 New Zealand Dive gear Abalone - 4.5 96800 77440 3701 0.2 36000 7200 10901 0.14 10.24 38 New Zealand Dive gear Abalone - 0.3 8952 7162 293 0.2 13181 2636 2929 0.41 2.61 39 New Zealand Dive gear Abalone - 1.8 56326 45061 4560 0.2 8000 1600 6160 0.14 25.31 40 New Zealand Dive gear Abalone - 0.03 4569 3655 30 0.2 4700 940 970 0.27 3.86 41 New Zealand Dive gear Abalone - 0.1 3600 2880 145 0.2 7100 1420 1565 0.54 1.93 42 New Zealand Dive gear Abalone - 0.7 30000 24000 670 0.2 36878 7376 8046 0.34 3.16 309Appendix B: Questionnaire for the study evaluating monitoring control and surveillance in 41 fishing countries. Rapid appraisal of compliance with international laws and related aspects of monitoring control and surveillance in global fisheries. Specific clauses in the international laws are indicated. Each question is scored on a scale of 0 to 10; 0 to 4 represent ?fail? scores; Scores 7 and above were considered as ?good? scores. Sources of information to justify each score are provided. For each question best estimate of score and upper and lower score range are provided. Guidelines for the analysis were derived from (Framework modified from Pitcher and Preikshot (2001). Questions and relevant attributes were designed by the author (Pramod Ganapathiraju). Evaluation Field 1: MCS Infrastructure Scores Intentions of MCS Management Reference Points Clauses from International Fisheries Laws Attributes Worst Best 1 Does the country have adequate surveillance infrastructure (patrol aircraft, sea based patrol vessels and coastal patrols) to effectively patrol fisheries resources within its EEZ? None (0); Plans / projects to improve MCS infrastructure (1.5) Limited patrolling near to the coast (3.5); Can patrol effectively up to 12 nautical miles from the shore (4.5); Regular patrolling within 12 nm and MCS operations to check fishing vessels on a regular basis (5); Regular patrolling of the domestic and foreign fishing vessels operating within the entire EEZ, including exclusive fishery patrols (10). 0 10 IPOA-IUU (Paragraph 24 ? 24.10) FAO-CCRF (Article 7.7.3) 2 Does the country have adequate trained officers to conduct MCS operations? None (0); Limited manpower (3.5); Adequate for enforcement of all major commercial fishing vessels exploiting fish stocks (10) 0 10 FAO-CCRF 3 Does the country have adequate management plans to monitor their fishing vessels in the high seas? None (0); Limited plans through legally binding national laws (1.5); Signatory to FAO Compliance Agreement (2.5); All vessels are required to report their catches, positions in high seas on a continuous basis and are required to be licensed for such operations (10) 0 10 UNCLOS (Articles 94.2, 117, 118, 217.1, 217.6, 217.8) IPOA-IUU (Paragraph15) UNFSA (Articles 7, 16, 19) FAO-CCRF (Articles 7.6.2, 8.1.4) 310Scores Intentions of MCS Management & Action Reference Points Clauses from International Fisheries Laws Attributes Worst Best 4 What proportion of fishing vessels is equipped with vessel monitoring system (VMS) to monitor their movements on a continuous basis? None (0); 10-20% of total fishing vessels are monitored through VMS (2.5); Half of the legal vessels are monitored through VMS (5); More than 70% of vessels are covered through VMS for major commercial fisheries (8); All fishing vessels, including reefers and fish transporting vessels are required to report on a continuous basis within and outside the EEZ (10) 0 10 IPOA-IUU (Paragraph 17, 47.1) FAO-CCRF (Article 7.7.3) 5 What percentage of fishing vessels (>20 m OAL) are monitored through onboard observers at sea (for major commercial fish stocks)? None (0); 10-20% of total fishing vessels are covered through observers (3.5); Half of the legal vessels have observers during fishing trips (5); More than 70% of vessels are covered through observers for major commercial fisheries (10) 0 10 IPOA-IUU (Paragraph 24.4, 47.4) FAO-CCRF (Article 7.7.3) Evaluation Field 2: Vessel Inspections Scores Intentions of MCS Management & Action Reference Points Clauses from International Fisheries Laws Attributes Worst Best 6 How often fishing vessels are inspected at sea (Identification by sight and boarding for inspections)? None (0); Occasionally, two to three boarding?s at sea per month (3.5); a great deal ? half of the legal vessels are inspected (5); almost all the licensed vessels are inspected at least once every year (10) 0 10 IPOA-IUU (Paragraph 24.10) FAO-CCRF (Article 7.7.3) 7 How often fishing vessels are inspected by air? None (0); Occasionally, more so during the peak fishing seasons (2.5) Often, one to two times per month (5) Monitoring of all contacts in the fishing area through radar, satellites and aircraft (10) 0 10 IPOA-IUU (Paragraph 24) 8 How often are fishing vessels inspected at landing centers and docks for foreign and domestic vessels (Dockside monitoring)? None (0); Limited measures through national laws for monitoring fishing vessels using its ports (1.5); 1-2 times per fishing season (2.5); Advance notification is required before using its ports (3); 20-30% of catch is monitored (3.5); half of legal vessels operating within EEZ (5); Signatory to the FAO Agreement on Port State Measures to Prevent, Deter and Eliminate IUU Fishing, with regular inspections of foreign and domestic fishing vessels at ports (7.5); Almost all the vessels for every trip are monitored, including foreign fishing vessels (10) 0 10 UNFSA (Article 23.1) IPOA-IUU (Paragraphs 52 to 64) PSMA (Article 9) FAO-CCRF (Article 8.3) 311Scores Intentions of MCS Management & Action Reference Points Clauses from International Fisheries Laws Attributes Worst Best 9 Are there adequate plans to monitor catches in coastal areas through coastal patrols (beach patrols, small-scale fishing gear and catches inspections) on a regular basis? None (0); Half of the legal vessels operating within the EEZ (5) Almost all the vessels are inspected (10) 0 10 FAO-CCRF (Articles 7.7.3 & 7.4.4) 10 Are all the catches that are caught in this jurisdiction at sea accounted for (i.e., unreported Trans-shipments at sea)? None (0); Signatory to the UN Fish Stocks Agreement (2.5); Some transshipments are landed at ports and checked before being exported (3.5); Half of all the legal transshipments at sea are checked and verified before offloading to reefers, and required to report fish onboard on entry and exit (5); All transshipments at sea are monitored before being allowed to leave the EEZ (10) 0 10 IPOA-IUU (Paragraph 47.3, 49.1, 49.2, 49.3, 51.6) UNFSA (Article 23) PSMA (Article 11) FAO-CCRF (Article 7.7.5) 11 Are vessels required to undergo inspection of equipment and fishing gear for every fishing trip? None (0); Routine inspections of fishing gear (3.5); Regularly, 50% of trips are monitored through random inspections (5); All vessels need to undergo inspection before leaving on each fishing trip (10) 0 10 FAO-CCRF (Articles 7.6.4, 8.2.4) 312Appendix C: List of countries scored for MCS analysis: Catches and rank order Table shows 2005 reported marine catch in tonnes (rounded), catch rank, percentage of world total, number of pages and number of references. Country 2005 catch, tonnes72 % World Total Rank Pages References cited Angola 217,000 0.2 51 5 12 Argentina 895,884 1.1 22 8 23 Australia 231,207 0.2 49 6 14 Bangladesh 474,597 0.5 32 4 12 Brazil 506,827 0.6 31 5 14 Cambodia 60,000 0.07 78 5 8 Cameroon 67,333 0.08 77 3 0 Canada 1,087,713 1.3 18 9 30 Chile 4,328,627 5.4 5 5 18 China 9,776,280 12.2 1 6 14 Ecuador 407,116 0.5 34 4 5 France 567,380 0.7 26 4 11 Ghana 316,852 0.3 38 4 11 Guinea 92,571 0.1 72 4 10 Iceland 1,660,812 2.0 13 4 12 India 3,344,484 4.1 7 6 17 Indonesia 4,389,998 5.5 4 6 25 Japan 4,020,685 5.0 6 6 16 Madagascar 104,859 0.1 70 5 15 Malaysia 1,203,269 1.5 17 5 12 Mauritania 291,878 0.3 40 5 9 72 Source: Sea Around Us Project, Fisheries Centre, UBC. 313Country 2005 catch, tonnes % World Total Rank Pages References cited Mexico 1,204,822 1.5 16 6 15 Morocco 1,023,594 1.2 19 5 6 Myanmar 1,226,734 1.5 15 4 6 Namibia 551,177 0.6 28 7 14 New Zealand 543,897 0.6 30 6 18 Nigeria 284,182 0.3 41 4 7 Norway 2,391,578 2.9 10 5 16 Peru 9,317,690 11.6 2 4 14 Philippines 2,102,302 2.6 11 6 17 Russia 2,979,682 3.7 8 7 21 Sierra Leone 131,778 0.1 63 4 7 South Africa 816,256 1.0 24 5 20 South Korea 1,632,265 2.0 14 5 9 Sri Lanka 133,027 0.1 61 4 6 Sweden 254,198 0.3 46 5 4 Taiwan 996,361 1.2 20 4 12 Thailand 2,578,854 3.2 9 4 5 UK 672,215 0.8 25 5 18 USA 4,724,111 5.9 3 6 27 Vietnam 1,791,100 2.2 12 4 8 Total 69,268,165 87 41 209 538 314Appendix D: Ease of access to data for monitoring, control and surveillance in 41 fishing countries Monitoring Control and Surveillance access to data index Access to MCS information through internet, public domains, government publications, journals and books was assessed using the flowing criteria. (MCS ease of access to information) Score Criteria 0 No information is available through most government or academic sources 1 Very little or scanty information is available through internet or any other government publications / journals / public resources. 2 Little to moderate information is available for some MCS aspects. 3 Moderate to good information is available for major issues related to monitoring, control and surveillance in the fisheries sector. 4 Good information is available, including detailed estimates of extent of MCS by region, sub-regions, fisheries etc. for better understanding of relevant issues. 5 Complete and comprehensive information relevant to MCS are available for performance evaluation and comparison on an annual basis for at least for 3 -10 years for analysis of long-term trends. Country Ease of access to MCS Information Score Angola 2 Argentina 3 Australia 4 Bangladesh 1 Brazil 1 Cambodia 1 Cameroon 0 Canada 4 Chile 2 China 1 Ecuador 1 France 3 Ghana 1 Guinea 0 Iceland 3 India 2 Indonesia 2 Japan 3 Madagascar 3 Malaysia 3 Mauritania 2 315Country Ease of access to MCS Information Score Mexico 3 Morocco 2 Myanmar 0 Namibia 4 New Zealand 5 Nigeria 0 Norway 3 Peru 2 Philippines 1 Russia 2 Sierra Leone 1 South Africa 3 South Korea 2 Sri Lanka 0 Sweden 3 Taiwan 1 Thailand 1 United Kingdom 4 USA 4 316Appendix E: Indian trawlers arrested for illegal fishing in Orissa?s territorial waters and marine sanctuaries. Date / Year Target species Number of illegal vessels Action taken 1997 - 98 Shrimps 78 During the period 13.12.1997 to 26.1.1998, 55 trawlers and 23 gillnetters were apprehended from Gahirmatha sanctuary. January 30, 1998 Shrimps and Finfishes 9 6 trawlers and 3 gillnetters were apprehended from the core area of the Garhirmatha (Marine) Wildlife Sanctuary. January 19, 2000 Shrimps and Finfishes 5 Orissa Forest Department in collaboration with the Coast Guard arrested 15 people and seized 5 trawlers for illegal fishing inside the Gahirmatha Marine sanctuary. 2000 Shrimps and Finfishes 64 64 trawlers and gillnetters were seized for illegal fishing by the Forest Department. 2002 Shrimps and Finfishes 44 Up to 44 fishing boats have been seized here by the Orissa Forest Dept. officials; 12 fishing trawlers were found near mouth of Devi river within a prohibited zone of 5 km from the coast on December 31; none of the trawlers had turtle excluder devices, which are mandatory on all trawlers operating along this coast. February 8, 2003 Finfishes 2 3 forest guards were abducted by the crewmembers of two gill-netters that were seized for illegal fishing inside the Gahirmatha Marine Sanctuary. December 27, 2003 Finfishes 11 Crews of 11 mechanised trawlers were fined Rs. 85,000 for illegal fishing within the Gahirmatha marine sanctuary. The catch was auctioned for Rs. 17,000. Boats were to be released after paying fine. 2004 Shrimps and Finfishes 10 Orissa Forest Department registered cases of illegal fishing in prohibited water bodies against 24 fishermen and confiscated 10 vessels for fishing in the Bhitarkanika wildlife sanctuary; fishing gear and other implements used in illegal acts were seized. February 2, 2006 Finfishes 5 Bhitarkanika forest officials have arrested six persons and seized five trawlers from them near Chinchiri river mouth under Gahirmatha Marine Sanctuary on charge of illegal entry and catching fish in MPA. December 23, 2005 Shrimps and Finfishes 7 A Trawler with 4 crewmembers was arrested for fishing illegally along the Dhamra coast within Gahirmatha sanctuary. Fish catch worth more than Rs 1.5 lakh, fishing implements, fishing nets and VHF set were also impounded by the patrolling squad of the forest department. Earlier 6 trawlers with 16 crew were taken into custody for similar charges. 2005 Shrimps and Finfishes 7 7 fishing trawlers and 24 crew were arrested for illegally fishing along the Dharma coast during the turtle-breeding season; fish catch, fishing implements, fishing nets and VHF set were also impounded by patrolling personnel of the forest department. January 2, 2006 Shrimps and Finfishes 1 The Forest Department officials with the help of local police intercepted the trawler for illegally fishing inside the prohibited zone of Gahirmatha Marine Sanctuary. The fishermen allegedly attacked the patrolling party, leading to killing of one fisherman. Later 14 fishermen were arrested and trawler seized. They were in jail for 2 ? years, before being released by a judge. 2006 Shrimps and Finfishes >50 Trawlers fishing illegally caught 1800 endangered Olive Ridley Turtles in the Rushikulya estuary, in a marine sanctuary in Orissa state, fishing 200?300 m within the sanctuary; Fishing is prohibited in these waters during the breeding season of turtles. 317Date / Year Target Species Number of fishing vessels Action taken 2007 Shrimps and Finfishes 25 The Bhitarkanika forest department officials arrested 11 fishermen and seized five trawlers and their fish catch for illegal fishing. In this season the Forest Dept. officials seized 25 trawlers and arrested 70 fishermen with 10 sets of fishing nets and fish worth Rs. 50,000 from them. March 20, 2007 Shrimps and Finfishes 9 7 deep-sea trawlers were intercepted by a joint forest-police patrol near Habelikhati off Gahirmatha marine sanctuary coast. In another mid-sea crackdown the turtle surveillance squad apprehended 12 marine fishermen along with their boats. November 27, 2007 Shrimps and Finfishes 4 17 fishermen were intercepted along with 4 deep-sea trawlers for fishing illegally inside the Gahirmatha Marine Sanctuary. The turtle surveillance squad spotted the vessels near Satabhaya-Chinciri Island off Gahirmatha coast. 2008 Shrimps and Finfishes 12 Between November 2007 and January 2008, 72 persons were arrested and 12 fishing boats including nine trawlers and one gill-netter were seized by enforcement wing of Orissa Forest Department. January 13, 2008 Shrimps and Finfishes 2 The turtle surveillance squad near Babuballi Island off Gahirmatha coast spotted 2 deep-sea trawlers. The Forest Department seized the two trawlers and took the crew into custody. Fish catch worth nearly two lakh rupees besides fishing nets and equipment were also seized from the trawlers. December 2, 2008 Shrimps and Finfishes 2 The turtle surveillance squad seized 2 mechanised trawlers after spotting them near Satabhaya and Chinchiri off Gahirmatha coast. Catch worth Rs. 1 lakh besides fishing nets and implement were also seized. December 4, 2008 Shrimps and Finfishes 3 The Coast Guard ship ?Sarojini Naidu? apprehended 3 fishing trawlers from Andhra Pradesh with 20 crewmembers while they were fishing illegally off Ganjam coast and also within the Rushikulya sanctuary. December 13, 2008 Shrimps and Finfishes 3 18 fishermen along with three trawlers were seized at Chinchiri mouth for fishing illegally inside the Gahirmatha sanctuary. December 19, 2008 Shrimps and Finfishes 4 Four deep-sea trawlers with 21 crew were seized by turtle surveillance patrols while fishing near Satabhaya-Chinciri Island off Garhirmatha coast. This has increased the number of trawlers apprehended since November 1, to 15 vessels and 50 fishermen. January 17, 2009 Shrimps and Finfishes 1 The Joint Forest-Police patrol apprehended one deep-sea trawler with 6 crew for illegally fishing near Satabhaya off Gahirmatha marine sanctuary. February 10, 2009 Shrimps and Finfishes 20 In a joint operation, Bhitarkanika forest officials and Indian Coast Guard personnel seized 4 fishing trawlers along with 24 fishermen for fishing illegally within Gahirmatha Marine Sanctuary. State Forest Department had imposed ban on fishing around 20 Km off the shore from November 1 to May 31 every year to protect Olive ridley breeding sites. March 3, 2009 Shrimps and Finfishes 60 60 fishing vessels and 180 marine fishermen were arrested by turtle surveillance patrols of the Coast Guard, Forest Dept, Police and Fisheries Department. December 4, 2009 Shrimps and Finfishes 3 State Forest Department apprehended 3 fishing trawlers and 16 fishermen for illegally fishing inside the Gahirmatha Marine Sanctuary. December 5, 2009 Shrimps and Finfishes 1 1 fishing trawler along with five fishermen onboard was arrested for fishing illegally inside the Gahirmatha Marine Sanctuary. December 13, 2009 Shrimps and Finfishes 1 1 fishing trawler along with five fishermen were detained by Bhitarkanika forest Department officials for illegally catching fish in the Gahirmatha marine sanctuary. 318Appendix F: Median values of Total cost / Expected revenue for 109 countries. No. Country Number of IUU Penalty cases Median value (Total Cost / Expected Revenue) Total Cost / Expected Revenue Low High1. Guatemala 1 0.04 2. French Polynesia 3 0.06 0.05 0.633. Solomon Islands 20 0.13 0.02 0.624. Nauru 1 0.13 5. Federated States of Micronesia 4 0.18 0.14 0.326. Tuvalu 4 0.2 0.14 0.337. Clipperton Islands 2 0.21 0.1 0.338. Sweden 3 0.23 0.2 0.789. Sri Lanka 7 0.24 0.1 1.0810. Guyana 3 0.25 0.24 0.4711. Cook Islands 6 0.27 0.21 0.8112. Niue 1 0.28 13. Vietnam 8 0.28 0.22 0.6914. Fiji 7 0.3 0.19 2.0115. Cambodia 2 0.33 0.26 0.4116. Greenland 2 0.34 0.28 0.4117. Palau 8 0.35 0.05 4.5318. Trinidad & Tobago 7 0.36 0.24 0.6819. Republic of Korea 6 0.37 0.23 0.5920. Marianas Islands 5 0.38 0.03 139.1121. Gambia 14 0.39 0.15 2.1222. Costa Rica 3 0.39 0.18 0.4523. Mozambique 5 0.39 0.09 1.4424. Bangladesh 2 0.39 0.23 0.5525. Tonga 3 0.39 0.33 0.7626. Bahrain 2 0.42 0.27 0.5827. Myanmar 6 0.43 0.19 28.5128. Guam 2 0.43 29. Brazil 11 0.43 0.13 3.0830. Eritrea 1 0.43 31. Sierra Leone 9 0.43 0.31 13.2732. Latvia 1 0.46 33. St. Paul Island 2 0.48 0.31 0.6634. Heard & McDonald Islands 8 0.48 0.31 7.2935. Yemen 2 0.49 0.4 0.5836. Maldives 2 0.51 0.48 0.5537. Vanuatu 4 0.51 0.28 0.5638. Mauritania 2 0.51 0.5 0.5339. Equatorial Guinea 1 0.51 40. Philippines 19 0.51 0.15 15.841. Tanzania 1 0.52 42. Belize 1 0.53 319No. Country Number of IUU Penalty cases Median value (Total Cost / Expected Revenue) Total Cost / Expected Revenue Low High43. Ghana 5 0.54 0.41 0.7844. Azores Islands 1 0.54 45. Nicaragua 6 0.55 0.18 7.2546. Bulgaria 4 0.55 0.42 7.547. British Virgin Islands 2 0.55 0.47 0.6348. Egypt 4 0.56 0.39 2.0849. Mexico 8 0.56 0.24 0.8350. American Samoa 8 0.56 0.17 5.2251. Tromelin 1 0.56 52. Sudan 3 0.56 0.4 1.5153. Shetland Islands 3 0.56 0.5 0.6954. Ireland 13 0.57 0.32 4.3555. New Caledonia 4 0.58 0.09 1.0756. Cameroon 1 0.58 57. Spain 4 0.59 0.1 0.7458. Chagos Islands 14 0.62 0.06 80.6159. Croatia 2 0.63 0.62 0.6560. South Georgia 8 0.65 0.34 3.0161. Channel Islands 2 0.66 0.6 0.7362. Panama 1 0.66 63. Papua New Guinea 20 0.67 0.09 4.7464. Canada 90 0.68 0.08 83.8965. Nigeria 1 0.69 66. El Salvador 3 0.69 0.4 1.6367. Russia 87 0.73 0.11 35.9768. China 4 0.75 0.64 2.1669. Madeira Islands 1 0.77 70. St. Vincent 1 0.79 71. Ukraine 4 0.79 0.57 0.9372. Kiribati 7 0.81 0.1 2.7473. Indonesia 19 0.81 0.37 2452.2774. Morocco 7 0.82 0.39 33.2275. Georgia 23 0.82 0.48 3.3676. Angola 8 0.84 0.47 777. Liberia 1 0.84 78. Cuba 2 0.85 0.51 1.1979. USA 108 0.86 0.03 15000.580. South Africa 12 0.88 0.16 93.181. Falkland Islands 15 0.89 0.11 1.8782. Howland & Baker Islands 1 0.89 83. United Kingdom 50 0.92 0.18 14.2484. Ecuador 1 0.93 85. Namibia 14 0.94 0.56 1386. Bahamas 8 0.97 0.28 1384.9287. Somalia 13 0.98 0.47 15.4788. Norway 27 0.99 0.58 4.2 320No. Country Number of IUU Penalty cases Median value (Total Cost / Expected Revenue) Total Cost / Expected Revenue Low High 89. Japan 5 1.03 0.27 2.9790. India 9 1.1 0.58 23.0491. Peru 6 1.16 0.87 7.9692. Kerguelen Islands 6 1.18 0.62 23.4193. Malaysia 75 1.21 0.22 2129.8194. Tunisia 3 1.22 0.74 5.0695. Congo 1 1.27 96. New Zealand 54 1.36 0.12 86.5697. Guinea Bissau 12 1.38 0.08 3.2898. Comoros Islands 1 1.4 99. France 14 1.47 0.49 15.2100. Australia 100 1.77 0.24 127.63101. Isle of Man 7 1.77 0.47 175.33102. Marshall Islands 3 2.04 1.22 2.98103. Jamaica 3 2.08 1.67 8.42104. Qatar 3 2.22 1.91 2.24105. Seychelles 19 2.4 0.36 1966.11106. Crozet Islands 3 4.7 3.68 5.16107. Argentina 61 5.14 0.06 9722.78108. Madagascar 2 5.18 4.64 5.72109. Malta 2 7.28 0.28 14.28 "@en . "Thesis/Dissertation"@en . "2012-05"@en . "10.14288/1.0072627"@en . "eng"@en . "Resource Management and Environmental Studies"@en . "Vancouver : University of British Columbia Library"@en . "University of British Columbia"@en . "Attribution-NonCommercial-NoDerivatives 4.0 International"@en . "http://creativecommons.org/licenses/by-nc-nd/4.0/"@en . "Graduate"@en . "Illegal and unreported fishing : global analysis of incentives and a case study estimating illegal and unreported catches from India"@en . "Text"@en . "http://hdl.handle.net/2429/41730"@en .