Arctic and Subarctic marine heatwaves and their ecological impacts DOI Creative Commons
Laurène Pécuchet, Bayoumy Mohamed, Alexander Hayward

et al.

Frontiers in Environmental Science, Journal Year: 2025, Volume and Issue: 13

Published: Feb. 19, 2025

The Arctic and Subarctic seas are predicted to become hotspots for marine heatwaves (MHWs). High-latitude ecosystems face unique consequences from accelerated warming sea ice loss, challenging species adapted cold conditions. We review the literature on MHW characteristics ecological impacts in seas, contrast between Bering Sea Barents Sea. uncover pervasive of MHWs across widely different organism groups, including benthic foundation species, phytoplankton, zooplankton, fish, seabirds, mammals. marginal especially prevalent areas experiencing retreat, such as seasonal zones, highlighting complex interplay dynamics. Overall, few studies have documented high-latitude ecosystems, with notable exception Chukchi 2017–2019. Many their narrow thermal preferences, appear vulnerable MHWs, they might not access climate refugia, while boreal benefit MHWs. Sessile kelp seagrasses, at risk during although evidence remains limited. Reproductive failure mass mortality events been several Pacific (e.g., crabs). observed ecosystem-wide repercussions northern shifts plankton communities affecting entire food web. responses still fully understood, a need further research assess direct indirect various taxa improve predictive models better management conservation strategies. can also large ecosystem services socio-ecological systems, example, closures economically valuable culturally important fisheries, seen Alaska, degradation traditional ice-hunting practices, compromised wellbeing coastal communities. Large abrupt changes following underscore urgent adaptive strategies ongoing change.

Language: Английский

Arctic and Subarctic marine heatwaves and their ecological impacts DOI Creative Commons
Laurène Pécuchet, Bayoumy Mohamed, Alexander Hayward

et al.

Frontiers in Environmental Science, Journal Year: 2025, Volume and Issue: 13

Published: Feb. 19, 2025

The Arctic and Subarctic seas are predicted to become hotspots for marine heatwaves (MHWs). High-latitude ecosystems face unique consequences from accelerated warming sea ice loss, challenging species adapted cold conditions. We review the literature on MHW characteristics ecological impacts in seas, contrast between Bering Sea Barents Sea. uncover pervasive of MHWs across widely different organism groups, including benthic foundation species, phytoplankton, zooplankton, fish, seabirds, mammals. marginal especially prevalent areas experiencing retreat, such as seasonal zones, highlighting complex interplay dynamics. Overall, few studies have documented high-latitude ecosystems, with notable exception Chukchi 2017–2019. Many their narrow thermal preferences, appear vulnerable MHWs, they might not access climate refugia, while boreal benefit MHWs. Sessile kelp seagrasses, at risk during although evidence remains limited. Reproductive failure mass mortality events been several Pacific (e.g., crabs). observed ecosystem-wide repercussions northern shifts plankton communities affecting entire food web. responses still fully understood, a need further research assess direct indirect various taxa improve predictive models better management conservation strategies. can also large ecosystem services socio-ecological systems, example, closures economically valuable culturally important fisheries, seen Alaska, degradation traditional ice-hunting practices, compromised wellbeing coastal communities. Large abrupt changes following underscore urgent adaptive strategies ongoing change.

Language: Английский

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