Calcium isotope ratios of malformed foraminifera reveal biocalcification stress preceded Oceanic Anoxic Event 2

Calcium isotope ratios of malformed foraminifera reveal biocalcification stress preceded Oceanic Anoxic Event 2

Abstract Ocean acidification causes biocalcification stress. The calcium isotope composition of carbonate producers can archive such stress because calcium isotope fractionation is sensitive to precipitation rate. Here, we synthesize morphometric observations of planktic foraminifera with multi-arch...

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Bibliographic Details
Published in:Communications earth & environment Vol. 3; no. 1; pp. 1 - 10
Main Authors: Kitch, Gabriella D., Jacobson, Andrew D., Sageman, Bradley B., Coccioni, Rodolfo, Chung-Swanson, Tia, Ankney, Meagan E., Hurtgen, Matthew T.
Format: Journal Article
Language:English
Published: London Nature Publishing Group 13-12-2022
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Subjects:
Abnormalities
Acidification
Alkalinity
Anthropogenic factors
Archives & records
Calcification
Calcium
Calcium carbonate
Calcium isotopes
Carbon dioxide
Carbon dioxide removal
Chemical precipitation
Cretaceous
Fractionation
Isotope composition
Isotope fractionation
Isotope ratios
Isotopes
Ocean acidification
Precipitation rate
Stress
Volcanic activity
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Summary:Abstract Ocean acidification causes biocalcification stress. The calcium isotope composition of carbonate producers can archive such stress because calcium isotope fractionation is sensitive to precipitation rate. Here, we synthesize morphometric observations of planktic foraminifera with multi-archive calcium isotope records from Gubbio, Italy and the Western Interior Seaway spanning Cretaceous Ocean Anoxic Event 2 (~94 million years ago). Calcium isotope ratios increase ~60 thousand years prior to the event. The increase coincides with foraminiferal abnormalities and correlates with existing proxy records for carbon dioxide release during large igneous province volcanism. The results highlight Ocean Anoxic Event 2 as a geologic ocean acidification analog. Moreover, decreasing calcium isotope ratios during the event provide evidence for ocean alkalinization, which could have shifted air-sea carbon dioxide partitioning. These data offer an explanation for the Plenus Cold Event and further have implications for refining ocean alkalinity enhancement, a leading anthropogenic carbon dioxide removal strategy.
ISSN:2662-4435
2662-4435
DOI:10.1038/s43247-022-00641-0