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High-latitude platform carbonate deposition constitutes a climate conundrum at the terminal Mesoproterozoic

Michiel O. Kock (), Ingrit Malatji, Herve Wabo, Joydip Mukhopadhyay, Amlan Banerjee and L. P. Maré
Additional contact information
Michiel O. Kock: University of Johannesburg
Ingrit Malatji: University of Johannesburg
Herve Wabo: University of Johannesburg
Joydip Mukhopadhyay: University of Johannesburg
Amlan Banerjee: Indian Statistical Institute
L. P. Maré: Council for Geoscience

Nature Communications, 2024, vol. 15, issue 1, 1-8

Abstract: Abstract During the Mesoproterozoic Era, 1600 to 1000 million years ago, global climate was warm with very little evidence of glaciation. Substantial greenhouse warming would have been required to sustain this ice-free state given 5-18% lower solar luminosity. Paleomagnetic data reported here place voluminous ca. 1.2 Ga shallow marine carbonate deposits from India at an unexpectedly high latitude of around 70° from the equator. Previous studies noted high latitudes, but their implication was never considered. Here, we evaluate the temporal-latitudinal distribution of neritic carbonate deposits across the Proterozoic and identify similar deposits from North China that together with those from India are seemingly unique to the late Mesoproterozoic. A uniformitarian interpretation implies that this is cold-water carbonate deposition, but facies similarity with low-latitude neritic deposits rather suggests a hotter climate and elevated polar ocean temperatures of 15–20° or higher. This interpretation represents a climate conundrum that would require much greater greenhouse warming than documented for the Mesoproterozoic.

Date: 2024
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DOI: 10.1038/s41467-024-46390-w

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