Speleothems of South American and Asian Monsoons Influenced by a Green Sahara

Clay Tabor; Bette Otto-Bliesner; Zhengyu Liu

doi:10.1029/2020GL089695

Speleothems of South American and Asian Monsoons Influenced by a Green Sahara

Clay Tabor, Bette Otto-Bliesner, Zhengyu Liu

Paleo and Polar Climate

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19 Scopus citations

Abstract

The mid-Holocene is frequently used for climate model-proxy comparison studies, yet models often struggle to replicate the proxy signals from this period. Here, we use an Earth system model that tracks water isotopologies to determine the importance of a vegetated Sahara in the simulation of mid-Holocene climate, with a focus on δ¹⁸O values recorded in speleothems from the South American and Asian monsoon regions. We find that inclusion of a vegetated Sahara during the mid-Holocene leads to global warming and generally amplifies the changes in the δ¹⁸O values of the precipitation in the South American and Asian monsoon regions relative to preindustrial; both feedbacks improve model-proxy agreement. Our results highlight the importance of regional vegetation alteration for accurate simulation of past climate, even when the region of study is far from the source of vegetation change.

Original language	English
Article number	e2020GL089695
Journal	Geophysical Research Letters
Volume	47
Issue number	22
DOIs	https://doi.org/10.1029/2020GL089695
State	Published - Nov 28 2020

Keywords

climate modeling
green Sahara
mid-Holocene
Monsoons
Speleothems
water isotopes

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10.1029/2020GL089695

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title = "Speleothems of South American and Asian Monsoons Influenced by a Green Sahara",

abstract = "The mid-Holocene is frequently used for climate model-proxy comparison studies, yet models often struggle to replicate the proxy signals from this period. Here, we use an Earth system model that tracks water isotopologies to determine the importance of a vegetated Sahara in the simulation of mid-Holocene climate, with a focus on δ18O values recorded in speleothems from the South American and Asian monsoon regions. We find that inclusion of a vegetated Sahara during the mid-Holocene leads to global warming and generally amplifies the changes in the δ18O values of the precipitation in the South American and Asian monsoon regions relative to preindustrial; both feedbacks improve model-proxy agreement. Our results highlight the importance of regional vegetation alteration for accurate simulation of past climate, even when the region of study is far from the source of vegetation change.",

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AU - Tabor, Clay

AU - Otto-Bliesner, Bette

AU - Liu, Zhengyu

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N2 - The mid-Holocene is frequently used for climate model-proxy comparison studies, yet models often struggle to replicate the proxy signals from this period. Here, we use an Earth system model that tracks water isotopologies to determine the importance of a vegetated Sahara in the simulation of mid-Holocene climate, with a focus on δ18O values recorded in speleothems from the South American and Asian monsoon regions. We find that inclusion of a vegetated Sahara during the mid-Holocene leads to global warming and generally amplifies the changes in the δ18O values of the precipitation in the South American and Asian monsoon regions relative to preindustrial; both feedbacks improve model-proxy agreement. Our results highlight the importance of regional vegetation alteration for accurate simulation of past climate, even when the region of study is far from the source of vegetation change.

AB - The mid-Holocene is frequently used for climate model-proxy comparison studies, yet models often struggle to replicate the proxy signals from this period. Here, we use an Earth system model that tracks water isotopologies to determine the importance of a vegetated Sahara in the simulation of mid-Holocene climate, with a focus on δ18O values recorded in speleothems from the South American and Asian monsoon regions. We find that inclusion of a vegetated Sahara during the mid-Holocene leads to global warming and generally amplifies the changes in the δ18O values of the precipitation in the South American and Asian monsoon regions relative to preindustrial; both feedbacks improve model-proxy agreement. Our results highlight the importance of regional vegetation alteration for accurate simulation of past climate, even when the region of study is far from the source of vegetation change.

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KW - Monsoons

KW - Speleothems

KW - water isotopes

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Speleothems of South American and Asian Monsoons Influenced by a Green Sahara

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Keywords

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