Jeffrey C. Drazen scite author profile

Climate change and fishing are two of the greatest anthropogenic stressors on marine ecosystems. We investigate the effects of these stressors on Hawaii's deep-set longline fishery for bigeye tuna (Thunnus obesus) and the ecosystem which supports it using a size-based food web model that incorporates individual species and captures the metabolic effects of rising ocean temperatures. We find that when fishing and climate change are examined individually, fishing is the greater stressor. This suggests that proactive fisheries management could be a particularly effective tool for mitigating anthropogenic stressors either by balancing or outweighing climate effects. However, modeling these stressors jointly shows that even large management changes cannot completely offset climate effects. Our results suggest that a decline in Hawaii's longline fishery yield may be inevitable. The effect of climate change on the ecosystem depends primarily upon the intensity of fishing mortality. Management measures which take this into account can both minimize fishery decline and support at least some level of ecosystem resilience.

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Assessment of scientific gaps related to the effective environmental management of deep-seabed mining

Amon¹,

et al. 2022

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Jeffrey C. Drazen

Climate change considerations are fundamental to management of deep‐sea resource extraction

Deep-Sea Misconceptions Cause Underestimation of Seabed-Mining Impacts

Multi-scale variations in invertebrate and fish megafauna in the mid-eastern Clarion Clipperton Zone

Relative Impacts of Simultaneous Stressors on a Pelagic Marine Ecosystem

Assessment of scientific gaps related to the effective environmental management of deep-seabed mining

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