This is a Preprint and has not been peer reviewed. The published version of this Preprint is available: https://doi.org/10.1371/journal.pclm.0000285. This is version 1 of this Preprint.
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Abstract
From fishers to farmers, people across the planet who rely directly upon natural resources for their livelihoods and well-being face extensive impacts from climate change. However, local- and regional-scale impacts and associated risks can vary geographically, and the implications for development of adaptation pathways that will be most effective for specific communities are underexplored. To improve this understanding at relevant local scales, we developed a coupled social-ecological approach to assess the risk posed to fishing fleets by climate change, applying it to a case study of bottom trawl groundfish fleets that are a cornerstone of fisheries along the U.S. West Coast. Based on the mean of three high-resolution climate projections, we found that more poleward fleets may experience twice as much local temperature change as equatorward fleets, and 3-4 times as much depth displacement of historical environmental conditions in their fishing grounds. Not only are they more highly exposed to climate change, but more poleward fleets can be >10x more economically-dependent on groundfish. While we show clear regional differences in fleets’ flexibility to shift to new fisheries (‘adapt in-place’) or shift their fishing grounds in response to future change (‘adapt on-the-move’), these differences do not completely mitigate the greater exposure and economic dependence of poleward fleets. Therefore, on the U.S. West Coast more poleward fishing fleets may be at greater overall risk due to climate change, in contrast to expectations for greater equatorward risk in other parts of the world. Through integration of climatic, ecological, and socio-economic data, this case study illustrates the potential for widespread implementation of risk assessment at scales relevant to fishers, communities, and decision makers. Such applications will help identify the greatest opportunities to mitigate climate risks through adaptation that enhances mobility and diversification in fisheries.
DOI
https://doi.org/10.31223/X5XT2T
Subjects
Environmental Studies
Keywords
Climate change adaptation, climate risk, adaptive capacity, fishing fleets, marine fisheries, groundfish, bottom trawl, fishing footprints, Climate Resilience, downscaled ocean projections
Dates
Published: 2023-08-17 12:02
License
CC BY Attribution 4.0 International
Additional Metadata
Data Availability (Reason not available):
R code and aggregated data used in climate risk calculations are available at https://github.com/groundfish-climatechange/fish-footprints. Confidential vessel-level logbook, landings, and registration data may be acquired by direct request from the California , Oregon, and Washington Departments of Fish and Wildlife, subject to a non-disclosure agreement.
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