Monsoon‐Enhanced Silicate Weathering as a New Atmospheric CO2 Consumption Mechanism Contributing to Fast Late Miocene Global Cooling
Fast late Miocene global cooling since∼ 7 Ma accompanied by less changeable
atmospheric CO2 levels revealed by existing proxy reconstructions has suggested an …
atmospheric CO2 levels revealed by existing proxy reconstructions has suggested an …
Monsoon‐Enhanced Silicate Weathering as a New Atmospheric CO 2 Consumption Mechanism Contributing to Fast Late Miocene Global Cooling
Y Yang, C Ye, A Galy, X Fang, Y Xue, Y Liu… - Paleoceanography and …, 2021 - hal.science
Fast late Miocene global cooling since∼ 7 Ma accompanied by less changeable
atmospheric CO2 levels revealed by existing proxy reconstructions has suggested an …
atmospheric CO2 levels revealed by existing proxy reconstructions has suggested an …
[PDF][PDF] Monsoon-enhanced silicate weathering as a new atmospheric CO2 consumption mechanism contributing to fast late Miocene global cooling
Y Yang, C Ye, A Galy, X Fang, Y Xue… - Paleoceanography and …, 2021 - researchgate.net
The interactions between tectonics and climate related to the Tibetan Plateau (TP) uplift,
Asian monsoon circulation, Cenozoic global cooling, and atmospheric CO2 consumption …
Asian monsoon circulation, Cenozoic global cooling, and atmospheric CO2 consumption …
Monsoon-Enhanced Silicate Weathering as a New Atmospheric CO2 Consumption Mechanism Contributing to Fast Late Miocene Global Cooling
Y Yang, C Ye, A Galy, X Fang, Y Xue… - Paleoceanography …, 2021 - ui.adsabs.harvard.edu
Fast late Miocene global cooling since∼ 7 Ma accompanied by less changeable
atmospheric CO2 levels revealed by existing proxy reconstructions has suggested an …
atmospheric CO2 levels revealed by existing proxy reconstructions has suggested an …
Monsoon‐Enhanced Silicate Weathering as a New Atmospheric CO2 Consumption Mechanism Contributing to Fast Late Miocene Global Cooling
Y Yang, C Ye, A Galy, X Fang, Y Xue, Y Liu… - Paleoceanography and …, 2021 - cir.nii.ac.jp
抄録< jats: title> Abstract</jats: title>< jats: p> Fast late Miocene global cooling since∼ 7 Ma
accompanied by less changeable atmospheric CO< jats: sub> 2</jats: sub> levels revealed …
accompanied by less changeable atmospheric CO< jats: sub> 2</jats: sub> levels revealed …
[PDF][PDF] Monsoon-enhanced silicate weathering as a new atmospheric CO2 consumption mechanism contributing to fast late Miocene global cooling
Y Yang, C Ye, A Galy, X Fang, Y Xue, Y Liu - Paleoceanography and …, 2021 - hal.science
The interactions between tectonics and climate related to the Tibetan Plateau (TP) uplift,
Asian monsoon circulation, Cenozoic global cooling, and atmospheric CO2 consumption …
Asian monsoon circulation, Cenozoic global cooling, and atmospheric CO2 consumption …
[PDF][PDF] Monsoon-enhanced silicate weathering as a new atmospheric CO2 consumption mechanism contributing to fast late Miocene global cooling
Y Yang, C Ye, A Galy, X Fang, Y Xue… - Paleoceanography and …, 2021 - researchgate.net
The interactions between tectonics and climate related to the Tibetan Plateau (TP) uplift,
Asian monsoon circulation, Cenozoic global cooling, and atmospheric CO2 consumption …
Asian monsoon circulation, Cenozoic global cooling, and atmospheric CO2 consumption …