Changing atmospheric CO2 concentration was the primary driver of early Cenozoic climate

被引：0

作者：

Eleni Anagnostou

Eleanor H. John

Kirsty M. Edgar

Gavin L. Foster

Andy Ridgwell

Gordon N. Inglis

Richard D. Pancost

Daniel J. Lunt

Paul N. Pearson

机构：

[1] Ocean and Earth Science,Department of Earth Sciences

[2] National Oceanography Centre Southampton,undefined

[3] University of Southampton Waterfront Campus,undefined

[4] School of Earth and Ocean Sciences,undefined

[5] Cardiff University,undefined

[6] School of Earth Sciences,undefined

[7] Bristol University,undefined

[8] School of Geographical Sciences,undefined

[9] Bristol University,undefined

[10] University of California,undefined

[11] Organic Geochemistry Unit,undefined

[12] School of Chemistry,undefined

[13] University of Bristol,undefined

[14] Cantock’s Close,undefined

[15] Cabot Institute,undefined

[16] University of Bristol,undefined

[17] †Present addresses: School of Geography,undefined

[18] Earth Science and Environment,undefined

[19] University of the South Pacific,undefined

[20] Suva,undefined

[21] Fiji (E.H.J.); School of Geography,undefined

[22] Earth and Environmental Sciences,undefined

[23] University of Birmingham,undefined

[24] Birmingham B15 2TT,undefined

[25] UK (K.M.E.).,undefined

来源：

Nature | 2016年 / 533卷

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摘要：

A reconstruction of atmospheric CO2 concentration from boron isotopes recorded in planktonic foraminifera examines climate–carbon interactions over the past tens of millions of years and confirms a strong linkage between climate and atmospheric CO2.

引用

页码：380 / 384

页数：4

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