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Data_Sheet_1_The Risky Decrease of Fishing Reference Points Under Climate Change.docx

Title: Data_Sheet_1_The Risky Decrease of Fishing Reference Points Under Climate Change.docx
Authors: Morgane Travers-Trolet; Pierre Bourdaud; Mathieu Genu; Laure Velez; Youen Vermard
Publication Year: 2020
Subject Terms: Oceanography; Marine Biology; Marine Geoscience; Biological Oceanography; Chemical Oceanography; Physical Oceanography; Marine Engineering; maximum sustainable yield; climate change; biological reference points; ecosystem model; fishery management; envir
Description: In Europe, implementation of sustainable fisheries management has been reinforced in the latest common fisheries policy, and presently marine fish stocks are mostly managed through assessment of their exploitation and ecological status compared to reference points such as Maximum Sustainable Yield (MSY). However, MSY and its associated fishing mortality rate F MSY are sensitive to both stock characteristics and environment conditions. In parallel, climate change impacts are increasingly affecting fish stocks directly and indirectly but might also change the exploitation reference points and the associated level of catch. Here we explored the variability of MSY reference points under climate change by using a multi-species model applied to the Eastern English Channel, a highly exploited semi-continental sea. The spatial individual-based OSMOSE explicitly represents the entire fish life cycle of 14 species interacting through size-based opportunistic predation. The model was first parameterized and run to fit the historical situation (2000–2009) and then used to assess the ecosystem state for the 2050–2059 period, using two contrasting climate change scenarios (RCP 4.5 and RCP 8.5). For each condition, a monospecific MSY estimation routine was performed by varying species fishing mortality independently and allowed estimation of reference points for each species. The F MSY estimated with OSMOSE were mostly in accordance with available values derived from stock assessment and used for fishing advice. Evolution of reference points with climate change was compared across species and highlighted that overexploited cold-water species are likely to have both MSY and F MSY declining with climate warming. Considering all species together, MSY under RCP scenarios was expected to be higher than historical MSY for half of them, with no clear link with species temperature preferences, exploitation status or trophic level, but in relation with expected change of species biomass under climate change. By contrast, for 80% of .
Document Type: dataset
Language: unknown
Relation: https://doi.org/10.3389/fmars.2020.568232.s001
DOI: 10.3389/fmars.2020.568232.s001
Availability: https://doi.org/10.3389/fmars.2020.568232.s001
Rights: undefined
Accession Number: edsbas.B90830DA
Database: BASE