Local conditions magnify coral loss after marine heatwaves

Mary K. Donovan; Deron E. Burkepile; Chelsey Kratochwill; Tom Shlesinger; Shannon Sully; Thomas A. Oliver; Gregor Hodgson; Jan Freiwald; Robert van Woesik

doi:10.1126/science.abd9464

Local conditions magnify coral loss after marine heatwaves

Mary K. Donovan^*, Deron E. Burkepile, Chelsey Kratochwill, Tom Shlesinger, Shannon Sully, Thomas A. Oliver, Gregor Hodgson, Jan Freiwald, Robert van Woesik

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

175 Scopus citations

Abstract

Climate change threatens coral reefs by causing heat stress events that lead to widespread coral bleaching and mortality. Given the global nature of these mass coral mortality events, recent studies argue that mitigating climate change is the only path to conserve coral reefs. Using a global analysis of 223 sites, we show that local stressors act synergistically with climate change to kill corals. Local factors such as high abundance of macroalgae or urchins magnified coral loss in the year after bleaching. Notably, the combined effects of increasing heat stress and macroalgae intensified coral loss. Our results offer an optimistic premise that effective local management, alongside global efforts to mitigate climate change, can help coral reefs survive the Anthropocene.

Original language	English
Article number	abd9464
Journal	Science
Volume	372
Issue number	6545
DOIs	https://doi.org/10.1126/science.abd9464
State	Published - 28 May 2021
Externally published	Yes

Funding

Funders	Funder number
National Science Foundation	OCE-1829393, OCE 1657633
Zegar Family Foundation

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10.1126/science.abd9464

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title = "Local conditions magnify coral loss after marine heatwaves",

abstract = "Climate change threatens coral reefs by causing heat stress events that lead to widespread coral bleaching and mortality. Given the global nature of these mass coral mortality events, recent studies argue that mitigating climate change is the only path to conserve coral reefs. Using a global analysis of 223 sites, we show that local stressors act synergistically with climate change to kill corals. Local factors such as high abundance of macroalgae or urchins magnified coral loss in the year after bleaching. Notably, the combined effects of increasing heat stress and macroalgae intensified coral loss. Our results offer an optimistic premise that effective local management, alongside global efforts to mitigate climate change, can help coral reefs survive the Anthropocene.",

author = "Donovan, {Mary K.} and Burkepile, {Deron E.} and Chelsey Kratochwill and Tom Shlesinger and Shannon Sully and Oliver, {Thomas A.} and Gregor Hodgson and Jan Freiwald and {van Woesik}, Robert",

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AU - Donovan, Mary K.

AU - Burkepile, Deron E.

AU - Kratochwill, Chelsey

AU - Shlesinger, Tom

AU - Sully, Shannon

AU - Oliver, Thomas A.

AU - Hodgson, Gregor

AU - Freiwald, Jan

AU - van Woesik, Robert

PY - 2021/5/28

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N2 - Climate change threatens coral reefs by causing heat stress events that lead to widespread coral bleaching and mortality. Given the global nature of these mass coral mortality events, recent studies argue that mitigating climate change is the only path to conserve coral reefs. Using a global analysis of 223 sites, we show that local stressors act synergistically with climate change to kill corals. Local factors such as high abundance of macroalgae or urchins magnified coral loss in the year after bleaching. Notably, the combined effects of increasing heat stress and macroalgae intensified coral loss. Our results offer an optimistic premise that effective local management, alongside global efforts to mitigate climate change, can help coral reefs survive the Anthropocene.

AB - Climate change threatens coral reefs by causing heat stress events that lead to widespread coral bleaching and mortality. Given the global nature of these mass coral mortality events, recent studies argue that mitigating climate change is the only path to conserve coral reefs. Using a global analysis of 223 sites, we show that local stressors act synergistically with climate change to kill corals. Local factors such as high abundance of macroalgae or urchins magnified coral loss in the year after bleaching. Notably, the combined effects of increasing heat stress and macroalgae intensified coral loss. Our results offer an optimistic premise that effective local management, alongside global efforts to mitigate climate change, can help coral reefs survive the Anthropocene.

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Local conditions magnify coral loss after marine heatwaves

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