4.7 Article

Modelling ocean acidification effects with life stage-specific responses alters spatiotemporal patterns of catch and revenues of American lobster, Homarus americanus

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SCIENTIFIC REPORTS
卷 11, 期 1, 页码 -

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NATURE PORTFOLIO
DOI: 10.1038/s41598-021-02253-8

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资金

  1. MEOPAR grant (Renewal of Integrated Coastal Acidification Program (I-CAP2))
  2. OURANOS grant [554023]
  3. MITACSOURANOS Accelerate Internship [IT010005]
  4. Natural Sciences and Engineering Research Council of Canada (NSERC) Discovery grants [RGPIN-2015-06500, RGPIN-2020-05627, RGPIN-2018-03864]
  5. Social Sciences and Humanity Research Council (SSHRC) through the OceanCanada Partnership

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Ocean acidification has varying impacts on lobster populations, with the largest effects seen in juvenile stages. Managing fishing pressure and size limits can help mitigate some negative effects of OA, but the overall impact of climate change overshadows these population gains. Addressing greenhouse gas emissions is crucial for long-term population resilience.
Ocean acidification (OA) affects marine organisms through various physiological and biological processes, yet our understanding of how these translate to large-scale population effects remains limited. Here, we integrated laboratory-based experimental results on the life history and physiological responses to OA of the American lobster, Homarus americanus, into a dynamic bioclimatic envelope model to project future climate change effects on species distribution, abundance, and fisheries catch potential. Ocean acidification effects on juvenile stages had the largest stage-specific impacts on the population, while cumulative effects across life stages significantly exerted the greatest impacts, albeit quite minimal. Reducing fishing pressure leads to overall increases in population abundance while setting minimum size limits also results in more higher-priced market-sized lobsters (> 1 lb), and could help mitigate the negative impacts of OA and concurrent stressors (warming, deoxygenation). However, the magnitude of increased effects of climate change overweighs any moderate population gains made by changes in fishing pressure and size limits, reinforcing that reducing greenhouse gas emissions is most pressing and that climate-adaptive fisheries management is necessary as a secondary role to ensure population resiliency. We suggest possible strategies to mitigate impacts by preserving important population demographics.

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