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Life cycle assessment of nitrogen efficiency strategies for Canadian egg supply chains Zargar Ershadi, Shiva
Abstract
Rapid population growth and the associated rising demand for food are driving agricultural expansion and intensification. One important consequence is increased use and loss of reactive nitrogen (Nr) in agriculture – in particular in livestock production - precipitating Nr cascades with multiple impacts on ecosystems. Among livestock production systems, egg production is the fastest growing segment worldwide. Improving nitrogen use efficiency (NUE) is a key priority for enabling more environmentally sustainable egg production. The objective of this research is to provide information to support NUE improvements along egg production supply chains while simultaneously minimizing “systems level” resource consumption and negative environmental impacts. NUE is influenced by feed production practices, feed composition, feed conversion efficiency, and manure management practices. Technological and management changes targeting these variables along egg supply chains to improve NUE can influence system-level environmental performance and resource efficiency. To consider the relative efficacy of Nr emissions mitigation options with respect to improving NUE and reducing resource use and emissions, life cycle assessment (LCA) methodology was employed. Potentially efficacious NUE improvement options (taking into account environmental, technical and economic criteria) were identified based on a literature review. Priority strategies were: “4Rs” practices and biochar addition to cropland for the feed input production stage; reduced crude protein diet via synthetic amino acid supplementation for the feed formulation stage; use of ammonia scrubbers in barns along with use of manure belts; biochar addition to the stored manure; and manure incorporation at time of field application. LCA, NUE, and N footprint results iv indicated that each mitigation option might be more or less suitable depending on kinds of environmental impacts considered. The application of scrubbers and biochar addition to the stored manure resulted in 10% and 3% higher NUE compared to the baseline, with considerable reduction of acidification and eutrophication impacts. However, they resulted in higher energy consumption, abiotic depletion and ozone layer depletion. Results clearly indicate that there is trade-offs among different impact categories and NUE for most NUE strategies. Hence, efforts to improve NUE must take into account a variety of potential resource and environmental impacts to ensure informed decision making.
Item Metadata
| Title |
Life cycle assessment of nitrogen efficiency strategies for Canadian egg supply chains
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| Creator | |
| Publisher |
University of British Columbia
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| Date Issued |
2020
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| Description |
Rapid population growth and the associated rising demand for food are driving agricultural expansion and intensification. One important consequence is increased use and loss of reactive nitrogen (Nr) in agriculture – in particular in livestock production - precipitating Nr cascades with multiple impacts on ecosystems. Among livestock production systems, egg production is the fastest growing segment worldwide. Improving nitrogen use efficiency (NUE) is a key priority for enabling more environmentally sustainable egg production. The objective of this research is to provide information to support NUE improvements along egg production supply chains while simultaneously minimizing “systems level” resource consumption and negative environmental impacts. NUE is influenced by feed production practices, feed composition, feed conversion efficiency, and manure management practices. Technological and management changes targeting these variables along egg supply chains to improve NUE can influence system-level environmental performance and resource efficiency. To consider the relative efficacy of Nr emissions mitigation options with respect to improving NUE and reducing resource use and emissions, life cycle assessment (LCA) methodology was employed. Potentially efficacious NUE improvement options (taking into account environmental, technical and economic criteria) were identified based on a literature review. Priority strategies were: “4Rs” practices and biochar addition to cropland for the feed input production stage; reduced crude protein diet via synthetic amino acid supplementation for the feed formulation stage; use of ammonia scrubbers in barns along with use of manure belts; biochar addition to the stored manure; and manure incorporation at time of field application. LCA, NUE, and N footprint results
iv
indicated that each mitigation option might be more or less suitable depending on kinds of environmental impacts considered. The application of scrubbers and biochar addition to the stored manure resulted in 10% and 3% higher NUE compared to the baseline, with considerable reduction of acidification and eutrophication impacts. However, they resulted in higher energy consumption, abiotic depletion and ozone layer depletion. Results clearly indicate that there is trade-offs among different impact categories and NUE for most NUE strategies. Hence, efforts to improve NUE must take into account a variety of potential resource and environmental impacts to ensure informed decision making.
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| Genre | |
| Type | |
| Language |
eng
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| Date Available |
2020-07-28
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| Provider |
Vancouver : University of British Columbia Library
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| Rights |
Attribution-NonCommercial-NoDerivatives 4.0 International
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| DOI |
10.14288/1.0392571
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| URI | |
| Degree | |
| Program | |
| Affiliation | |
| Degree Grantor |
University of British Columbia
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| Graduation Date |
2020-09
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| Campus | |
| Scholarly Level |
Graduate
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| Rights URI | |
| Aggregated Source Repository |
DSpace
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Rights
Attribution-NonCommercial-NoDerivatives 4.0 International