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Operationalizing climate risk in a global warming hotspot

Daniel G. Boyce, Derek P. Tittensor, Susanna Fuller, Stephanie Henson, Kristin Kaschner, Gabriel Reygondeau, Kathryn E. Schleit, Vincent S. Saba, Nancy L. Shackell, Ryan R. E. Stanley, Boris Worm

2024npj Ocean Sustainability12 citationsDOIOpen Access PDF

Abstract

Abstract Climate change is a looming threat to marine life, creating an urgent need to develop climate-informed conservation strategies. The Climate Risk Index for Biodiversity was designed to assess the climate risk for marine species in a manner that supports decision-making. Yet, its regional application remains to be explored. Here, we use it to evaluate climate risk for ~2000 species in the northwest Atlantic Ocean, a marine warming hotspot, to explore its capacity to inform climate-considered fisheries management. Under high emissions, harvested species, especially those with the highest economic value, have a disproportionate risk of projected exposure to hazardous climate conditions but benefit the most from emission mitigation. By mapping critical risk areas for 90 fish stocks, we pinpoint locations likely to require additional intervention, such as in the southern Gulf of St. Lawrence for Atlantic cod. Finally, we demonstrate how evaluating climate risk geographically and understanding how it arises can support short- and long-term fisheries management and conservation objectives under climate change.

Topics & Concepts

OperationalizationHotspot (geology)Global warmingEnvironmental scienceClimate changeClimatologyGeologyOceanographyGeophysicsPhilosophyEpistemologyMarine and fisheries researchMarine Bivalve and Aquaculture StudiesCoastal and Marine Management
Operationalizing climate risk in a global warming hotspot | Litcius