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Causes of ice age intensification across the Mid-Pleistocene Transition.


ABSTRACT: During the Mid-Pleistocene Transition (MPT; 1,200-800 kya), Earth's orbitally paced ice age cycles intensified, lengthened from ?40,000 (?40 ky) to ?100 ky, and became distinctly asymmetrical. Testing hypotheses that implicate changing atmospheric CO2 levels as a driver of the MPT has proven difficult with available observations. Here, we use orbitally resolved, boron isotope CO2 data to show that the glacial to interglacial CO2 difference increased from ?43 to ?75 ?atm across the MPT, mainly because of lower glacial CO2 levels. Through carbon cycle modeling, we attribute this decline primarily to the initiation of substantive dust-borne iron fertilization of the Southern Ocean during peak glacial stages. We also observe a twofold steepening of the relationship between sea level and CO2-related climate forcing that is suggestive of a change in the dynamics that govern ice sheet stability, such as that expected from the removal of subglacial regolith or interhemispheric ice sheet phase-locking. We argue that neither ice sheet dynamics nor CO2 change in isolation can explain the MPT. Instead, we infer that the MPT was initiated by a change in ice sheet dynamics and that longer and deeper post-MPT ice ages were sustained by carbon cycle feedbacks related to dust fertilization of the Southern Ocean as a consequence of larger ice sheets.

SUBMITTER: Chalk TB 

PROVIDER: S-EPMC5740680 | biostudies-literature | 2017 Dec

REPOSITORIES: biostudies-literature

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Causes of ice age intensification across the Mid-Pleistocene Transition.

Chalk Thomas B TB   Hain Mathis P MP   Foster Gavin L GL   Rohling Eelco J EJ   Sexton Philip F PF   Badger Marcus P S MPS   Cherry Soraya G SG   Hasenfratz Adam P AP   Haug Gerald H GH   Jaccard Samuel L SL   Martínez-García Alfredo A   Pälike Heiko H   Pancost Richard D RD   Wilson Paul A PA  

Proceedings of the National Academy of Sciences of the United States of America 20171127 50


During the Mid-Pleistocene Transition (MPT; 1,200-800 kya), Earth's orbitally paced ice age cycles intensified, lengthened from ∼40,000 (∼40 ky) to ∼100 ky, and became distinctly asymmetrical. Testing hypotheses that implicate changing atmospheric CO<sub>2</sub> levels as a driver of the MPT has proven difficult with available observations. Here, we use orbitally resolved, boron isotope CO<sub>2</sub> data to show that the glacial to interglacial CO<sub>2</sub> difference increased from ∼43 to ∼  ...[more]

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