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Intermediate water circulation drives distribution of Pliocene Oxygen Minimum Zones.


ABSTRACT: Oxygen minimum zones (OMZs) play a critical role in global biogeochemical cycling and act as barriers to dispersal for marine organisms. OMZs are currently expanding and intensifying with climate change, however past distributions of OMZs are relatively unknown. Here we present evidence for widespread pelagic OMZs during the Pliocene (5.3-2.6 Ma), the most recent epoch with atmospheric CO2 analogous to modern (~400-450 ppm). The global distribution of OMZ-affiliated planktic foraminifer, Globorotaloides hexagonus, and Earth System and Species Distribution Models show that the Indian Ocean, Eastern Equatorial Pacific, eastern South Pacific, and eastern North Atlantic all supported OMZs in the Pliocene, as today. By contrast, low-oxygen waters were reduced in the North Pacific and expanded in the North Atlantic in the Pliocene. This spatially explicit perspective reveals that a warmer world can support both regionally expanded and contracted OMZs, with intermediate water circulation as a key driver.

SUBMITTER: Davis CV 

PROVIDER: S-EPMC9812982 | biostudies-literature | 2023 Jan

REPOSITORIES: biostudies-literature

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Intermediate water circulation drives distribution of Pliocene Oxygen Minimum Zones.

Davis Catherine V CV   Sibert Elizabeth C EC   Jacobs Peter H PH   Burls Natalie N   Hull Pincelli M PM  

Nature communications 20230104 1


Oxygen minimum zones (OMZs) play a critical role in global biogeochemical cycling and act as barriers to dispersal for marine organisms. OMZs are currently expanding and intensifying with climate change, however past distributions of OMZs are relatively unknown. Here we present evidence for widespread pelagic OMZs during the Pliocene (5.3-2.6 Ma), the most recent epoch with atmospheric CO<sub>2</sub> analogous to modern (~400-450 ppm). The global distribution of OMZ-affiliated planktic foraminif  ...[more]

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