Increasing hypoxia on global coral reefs under ocean warming

Pezner, Ariel K.; Courtney, Travis A.; Barkley, Hannah C.; Chou, Wen-Chen; Chu, Hui-Chuan; Clements, Samantha M; Cyronak, Tyler J.; DeGrandpre, Michael D.; Kekuewa, Samuel A. H.; Kline, David I.; Liang, Yi-Bei; Martz, Todd R.; Mitarai, Satoshi; Page, Heather N.; Rintoul, Max S.; Smith, Jennifer E; Soong, Keryea; Takeshita, Yuichiro; Tresguerres, Martin; Wei, Yi; Yates, Kimberly K.; Andersson, Andreas J

doi:10.1038/s41558-023-01619-2

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Increasing hypoxia on global coral reefs under ocean warming

Author(s): Ariel K. Pezner , Travis A. Courtney , Hannah C. Barkley , Wen-Chen Chou , Hui-Chuan Chu , Samantha M. Clements , Tyler Cyronak , Michael D. DeGrandpre , Samuel A. H. Kekuewa , David I. Kline , Yi-Bei Liang , Todd R. Martz , Satoshi Mitarai , Heather N. Page , Max S. Rintoul , Jennifer E. Smith , Keryea Soong , Yuichiro Takeshita , Martin Tresguerres , Yi Wei , Kimberly K. Yates , Andreas J. Andersson

Publication date (Electronic): March 16 2023

Journal: Nature Climate Change

Publisher: Springer Science and Business Media LLC

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TOWARD A METABOLIC THEORY OF ECOLOGY

James H Brown, James Gillooly, Andrew P. Allen … (2004)

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Expanding oxygen-minimum zones in the tropical oceans.

Lothar Stramma, Gregory C Johnson, Janet Sprintall … (2008)

Oxygen-poor waters occupy large volumes of the intermediate-depth eastern tropical oceans. Oxygen-poor conditions have far-reaching impacts on ecosystems because important mobile macroorganisms avoid or cannot survive in hypoxic zones. Climate models predict declines in oceanic dissolved oxygen produced by global warming. We constructed 50-year time series of dissolved-oxygen concentration for select tropical oceanic regions by augmenting a historical database with recent measurements. These time series reveal vertical expansion of the intermediate-depth low-oxygen zones in the eastern tropical Atlantic and the equatorial Pacific during the past 50 years. The oxygen decrease in the 300- to 700-m layer is 0.09 to 0.34 micromoles per kilogram per year. Reduced oxygen levels may have dramatic consequences for ecosystems and coastal economies.