中新世晚期东亚因二氧化碳强迫导致的降温与生态系统重组。

CO-forced Late Miocene cooling and ecosystem reorganizations in East Asia.

作者信息

Wen Yixiong, Zhang Laiming, Holbourn Ann E, Zhu Chenguang, Huntington Katharine W, Jin Tianjie, Li Yalin, Wang Chengshan

机构信息

State Key Laboratory of Biogeology and Environmental Geology, China University of Geosciences, Beijing 100083, China.

School of the Earth Science and Resources, China University of Geosciences, Beijing 100083, China.

出版信息

Proc Natl Acad Sci U S A. 2023 Jan 31;120(5):e2214655120. doi: 10.1073/pnas.2214655120. Epub 2023 Jan 23.

DOI:10.1073/pnas.2214655120

PMID:36689658

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9945954/

Abstract

In parallel with pronounced cooling in the oceans, vast areas of the continents experienced enhanced aridification and restructuring of vegetation and animal communities during the Late Miocene. Debate continues over whether CO-induced global cooling was the primary driver of this climate and ecosystem upheaval on land. Here we present an 8 to 5 Ma land surface temperatures (LST) record from East Asia derived from paleosol carbonate clumped isotopes and integrated with climate model simulations. The LST cooled by ~7 °C between 7.5 and 5.7 Ma, followed by rapid warming across the Miocene-Pliocene transition (5.5 to 5 Ma). These changes occurred synchronously with variations in alkenone and Mg/Ca-based sea surface temperatures and with hydroclimate and ecosystem shifts in East Asia, highlighting a global climate forcing mechanism. Our modeling experiments additionally demonstrate that CO-forced cooling would have altered moisture transfer and pathways and driven extensive aridification in East Asia. We, thus, conclude that the East Asian hydroclimate and ecosystem shift was primarily controlled by CO-forced global cooling between 8 and 5 Ma.

摘要

在海洋显著降温的同时，晚中新世期间大陆的广大区域经历了植被和动物群落的干旱化加剧及结构重组。关于二氧化碳导致的全球变冷是否是陆地这种气候和生态系统剧变的主要驱动因素，争论仍在继续。在此，我们展示了一个来自东亚的800万至500万年前的地表温度（LST）记录，该记录源自古土壤碳酸盐团簇同位素，并与气候模型模拟相结合。在750万至570万年前期间，地表温度下降了约7摄氏度，随后在中新世 - 上新世过渡阶段（550万至500万年前）迅速升温。这些变化与基于烯酮和镁钙比的海面温度变化以及东亚的水文气候和生态系统转变同步发生，突出了一种全球气候强迫机制。我们的模拟实验还表明，二氧化碳强迫降温会改变水分输送和路径，并导致东亚地区广泛的干旱化。因此，我们得出结论，东亚水文气候和生态系统转变主要受800万至500万年前二氧化碳强迫全球变冷的控制。

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中新世晚期东亚因二氧化碳强迫导致的降温与生态系统重组。

CO-forced Late Miocene cooling and ecosystem reorganizations in East Asia.

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