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Changes in arthropod communities mediate the effects of landscape composition and farm management on pest control ecosystem services in organically managed strawberry crops Lu, Adrian; Gonthier, David; Sciligo, Amber; Garcia, Karina; Chiba, Taiki; Juarez, Gila; Kremen, Claire

Description

<b>Abstract</b><br/>

Landscape composition and local diversification practices such as polyculture, cover cropping, and hedgerows may promote natural pest control by benefiting natural enemy communities on farms. Our study employs piecewise structural equation modeling (PSEM) to test causal hypotheses regarding the effects of landscape composition and local diversification practices on arthropod communities and pest control ecosystem services.</p>

We sampled 27 organic strawberry fields in California’s Central Coast region in 2015 and 2016 (17 repeated between years) for a total of 37 distinct sites across years. The sites were selected along orthogonal gradients of landscape composition and local diversification practices. We also investigated the effects of two common pest management practices. At each site, we sampled arthropod communities using a hand-held vacuum and performed sentinel prey experiments using the pest species <em>Lygus hesperus</em> to estimate pest control levels.</p>

At the landscape scale, proportion woods increased natural enemy abundance; at the local scale, diversification practices increased natural enemy diversity.</p>

Insecticides and tractor vacuuming, aimed at controlling pests, were indirectly detrimental to pest control services. Both practices decreased natural enemy abundance, and while insecticides also decreased pest abundance, vacuuming did not.</p>

Natural enemy abundance and diversity increased pest control levels, while pest abundance had the opposite effect. The PSEM results confirmed our hypotheses that landscape and local effects on pest control are mediated through changes in arthropod communities.</p>

<em><a>Synthesis </a>and applications</em>: At the landscape scale, higher proportions of woody habitat are associated with greater natural enemy abundance, which increases pest control levels.  When promoting pest control ecosystem services is a policy goal, regional planners should prioritize the conservation and restoration of woodlands in agricultural landscapes. At the local scale, decisions of individual growers can impact pest control services. For many growers, adopting practices that promote on-farm plant diversity may be a feasible solution for increasing pest control levels while avoiding the environmental and economic costs imposed by insecticide application and tractor <a>vacuuming. </a></p> <div> <div> <div id="_com_2" class="msocomtxt"> <p class="MsoCommentText"> </p> </div> </div> </div>; <b>Methods</b><br />

Please refer to the Methods section of the paper.</p>; <b>Usage notes</b><br />

Please refer to readme file. </p>

Item Metadata

Title
Changes in arthropod communities mediate the effects of landscape composition and farm management on pest control ecosystem services in organically managed strawberry crops
Creator
Lu, Adrian; Gonthier, David; Sciligo, Amber; Garcia, Karina; Chiba, Taiki; Juarez, Gila; Kremen, Claire
Date Issued
2022-02-17
Description
<b>Abstract</b><br/>

Landscape composition and local diversification practices such as polyculture, cover cropping, and hedgerows may promote natural pest control by benefiting natural enemy communities on farms. Our study employs piecewise structural equation modeling (PSEM) to test causal hypotheses regarding the effects of landscape composition and local diversification practices on arthropod communities and pest control ecosystem services.</p>

We sampled 27 organic strawberry fields in California’s Central Coast region in 2015 and 2016 (17 repeated between years) for a total of 37 distinct sites across years. The sites were selected along orthogonal gradients of landscape composition and local diversification practices. We also investigated the effects of two common pest management practices. At each site, we sampled arthropod communities using a hand-held vacuum and performed sentinel prey experiments using the pest species <em>Lygus hesperus</em> to estimate pest control levels.</p>

At the landscape scale, proportion woods increased natural enemy abundance; at the local scale, diversification practices increased natural enemy diversity.</p>

Insecticides and tractor vacuuming, aimed at controlling pests, were indirectly detrimental to pest control services. Both practices decreased natural enemy abundance, and while insecticides also decreased pest abundance, vacuuming did not.</p>

Natural enemy abundance and diversity increased pest control levels, while pest abundance had the opposite effect. The PSEM results confirmed our hypotheses that landscape and local effects on pest control are mediated through changes in arthropod communities.</p>

<em><a>Synthesis </a>and applications</em>: At the landscape scale, higher proportions of woody habitat are associated with greater natural enemy abundance, which increases pest control levels.  When promoting pest control ecosystem services is a policy goal, regional planners should prioritize the conservation and restoration of woodlands in agricultural landscapes. At the local scale, decisions of individual growers can impact pest control services. For many growers, adopting practices that promote on-farm plant diversity may be a feasible solution for increasing pest control levels while avoiding the environmental and economic costs imposed by insecticide application and tractor <a>vacuuming. </a></p> <div> <div> <div id="_com_2" class="msocomtxt"> <p class="MsoCommentText"> </p> </div> </div> </div>; <b>Methods</b><br />

Please refer to the Methods section of the paper.</p>; <b>Usage notes</b><br />

Please refer to readme file. </p>

Subject
Other; lygus; conservation biological control; Pest management; agroecology; organic strawberry; diversification practices
Type
Dataset
Notes

Dryad version number: 8</p>

Version status: submitted</p>

Dryad curation status: Published</p>

Sharing link: https://datadryad.org/stash/share/uGHnf8HUo83GgGDPILMqidAh5hqqO4EAV_lw9RbQcaE</p>

Storage size: 1502849</p>

Visibility: public</p>

Date Available
2022-02-14
Provider
University of British Columbia Library
License
This dataset is made available under a Creative Commons CC0 license with the following additional/modified terms and conditions: CC0 Waiver
DOI
10.14288/1.0406609
URI
https://doi.org/10.5683/SP3/Y5UCLM
Publisher DOI
https://doi.org/10.5683/SP3/Y5UCLM; https://doi.org/10.5061/dryad.tht76hf0v
Rights URI
https://creativecommons.org/publicdomain/zero/1.0/
Aggregated Source Repository
Dataverse

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Licence

This dataset is made available under a Creative Commons CC0 license with the following additional/modified terms and conditions: CC0 Waiver