Global biosphere primary productivity changes during the past eight glacial cycles | Zendy

JiWoong Yang | Zendy; Margaux Brandon | Zendy; Amaëlle Landais | Zendy; Stéphanie DuchampAlphonse | Zendy; Thomas Blunier | Zendy; Frédéric Prié | Zendy; Thomas Extier | Zendy

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Global biosphere primary productivity changes during the past eight glacial cycles

Author(s) -

JiWoong Yang,

Margaux Brandon,

Amaëlle Landais,

Stéphanie DuchampAlphonse,

Thomas Blunier,

Frédéric Prié,

Thomas Extier

Publication year - 2022

Publication title -

science

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 12.556

H-Index - 1186

eISSN - 1095-9203

pISSN - 0036-8075

DOI - 10.1126/science.abj8826

Subject(s) - biosphere , glacial period , primary productivity , productivity , primary (astronomy) , environmental science , physical geography , earth science , geology , geography , ecology , biology , paleontology , ecosystem , economics , physics , macroeconomics , astronomy

Global biosphere productivity is the largest uptake flux of atmospheric carbon dioxide (CO2 ), and it plays an important role in past and future carbon cycles. However, global estimation of biosphere productivity remains a challenge. Using the ancient air enclosed in polar ice cores, we present the first 800,000-year record of triple isotopic ratios of atmospheric oxygen, which reflects past global biosphere productivity. We observe that global biosphere productivity in the past eight glacial intervals was lower than that in the preindustrial era and that, in most cases, it starts to increase millennia before deglaciations. Both variations occur concomitantly with CO2 changes, implying a dominant control of CO2 on global biosphere productivity that supports a pervasive negative feedback under the glacial climate.

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