The cause of Late Cretaceous cooling: A multimodel-proxy comparison

Clay R. Tabor; Christopher J. Poulsen; Daniel J. Lunt; Nan A. Rosenbloom; Bette L. Otto-Bliesner; Paul J. Markwick; Esther C. Brady; Alexander Farnsworth; Ran Feng

doi:10.1130/G38363.1

The cause of Late Cretaceous cooling: A multimodel-proxy comparison

Clay R. Tabor, Christopher J. Poulsen, Daniel J. Lunt, Nan A. Rosenbloom, Bette L. Otto-Bliesner, Paul J. Markwick, Esther C. Brady, Alexander Farnsworth, Ran Feng

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60 Scopus citations

Abstract

Proxy temperature reconstructions indicate a dramatic cooling from the Cenomanian to Maastrichtian. However, the spatial extent of and mechanisms responsible for this cooling remain uncertain, given simultaneous climatic influences of tectonic and greenhouse gas changes through the Late Cretaceous. Here we compare several climate simulations of the Cretaceous using two different Earth system models with a compilation of sea surface temperature proxies from the Cenomanian and Maastrichtian to better understand Late Cretaceous climate change. In general, surface temperature responses are consistent between models, lending confidence to our findings. Our comparison of proxies and models confirms that Late Cretaceous cooling was a widespread phenomenon and likely due to a reduction in greenhouse gas concentrations in excess of a halving of CO₂, not changes in paleogeography.

Original language	English
Pages (from-to)	963-966
Number of pages	4
Journal	Geology
Volume	44
Issue number	11
DOIs	https://doi.org/10.1130/G38363.1
State	Published - 2016

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title = "The cause of Late Cretaceous cooling: A multimodel-proxy comparison",

abstract = "Proxy temperature reconstructions indicate a dramatic cooling from the Cenomanian to Maastrichtian. However, the spatial extent of and mechanisms responsible for this cooling remain uncertain, given simultaneous climatic influences of tectonic and greenhouse gas changes through the Late Cretaceous. Here we compare several climate simulations of the Cretaceous using two different Earth system models with a compilation of sea surface temperature proxies from the Cenomanian and Maastrichtian to better understand Late Cretaceous climate change. In general, surface temperature responses are consistent between models, lending confidence to our findings. Our comparison of proxies and models confirms that Late Cretaceous cooling was a widespread phenomenon and likely due to a reduction in greenhouse gas concentrations in excess of a halving of CO2, not changes in paleogeography.",

author = "Tabor, \{Clay R.\} and Poulsen, \{Christopher J.\} and Lunt, \{Daniel J.\} and Rosenbloom, \{Nan A.\} and Otto-Bliesner, \{Bette L.\} and Markwick, \{Paul J.\} and Brady, \{Esther C.\} and Alexander Farnsworth and Ran Feng",

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doi = "10.1130/G38363.1",

language = "English",

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TY - JOUR

T1 - The cause of Late Cretaceous cooling

T2 - A multimodel-proxy comparison

AU - Tabor, Clay R.

AU - Poulsen, Christopher J.

AU - Lunt, Daniel J.

AU - Rosenbloom, Nan A.

AU - Otto-Bliesner, Bette L.

AU - Markwick, Paul J.

AU - Brady, Esther C.

AU - Farnsworth, Alexander

AU - Feng, Ran

PY - 2016

Y1 - 2016

N2 - Proxy temperature reconstructions indicate a dramatic cooling from the Cenomanian to Maastrichtian. However, the spatial extent of and mechanisms responsible for this cooling remain uncertain, given simultaneous climatic influences of tectonic and greenhouse gas changes through the Late Cretaceous. Here we compare several climate simulations of the Cretaceous using two different Earth system models with a compilation of sea surface temperature proxies from the Cenomanian and Maastrichtian to better understand Late Cretaceous climate change. In general, surface temperature responses are consistent between models, lending confidence to our findings. Our comparison of proxies and models confirms that Late Cretaceous cooling was a widespread phenomenon and likely due to a reduction in greenhouse gas concentrations in excess of a halving of CO2, not changes in paleogeography.

AB - Proxy temperature reconstructions indicate a dramatic cooling from the Cenomanian to Maastrichtian. However, the spatial extent of and mechanisms responsible for this cooling remain uncertain, given simultaneous climatic influences of tectonic and greenhouse gas changes through the Late Cretaceous. Here we compare several climate simulations of the Cretaceous using two different Earth system models with a compilation of sea surface temperature proxies from the Cenomanian and Maastrichtian to better understand Late Cretaceous climate change. In general, surface temperature responses are consistent between models, lending confidence to our findings. Our comparison of proxies and models confirms that Late Cretaceous cooling was a widespread phenomenon and likely due to a reduction in greenhouse gas concentrations in excess of a halving of CO2, not changes in paleogeography.

UR - https://www.scopus.com/pages/publications/84994607978

U2 - 10.1130/G38363.1

DO - 10.1130/G38363.1

M3 - Article

AN - SCOPUS:84994607978

SN - 0091-7613

VL - 44

SP - 963

EP - 966

JO - Geology

JF - Geology

IS - 11

ER -

The cause of Late Cretaceous cooling: A multimodel-proxy comparison

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