Litcius/Paper detail

Vegetation feedbacks accelerated the late Miocene climate transition

Ran Zhang, Jiaqi Guo, Catherine P. Bradshaw, Xiyan Xu, Tiantian Shen, Shufeng Li, Junsheng Nie, Chunxia Zhang, Xiangyu Li, Ze Liu, Jian Zhang, Dabang Jiang, Yongyun Hu, Jimin Sun

2025Science Advances11 citationsDOIOpen Access PDF

Abstract

The late Miocene was an important stage for the formation of modern-like ecological and environmental patterns. Proxy data from the middle to late Miocene reveal that large-scale cooling and drying occurred; however, the reasons for this climate transition remain unclear. Through a compilation of proxy data and climate simulations, our results indicate that atmospheric CO 2 decline markedly decreased the temperature and reduced the precipitation in most of the land area, while the paleogeographic changes enhanced cooling at northern high latitudes and increased precipitation in East Asia, East Africa, and South America. In comparison, vegetation changes accelerated cooling at northern high latitudes (the maximum cooling exceeded 10°C) and modulated precipitation at low- and mid-latitude continents (the maximum decrease was close to 30%). This deepens the understanding of the mechanism of the late Miocene climate transition and highlights the importance of vegetation feedbacks during global climate change.

Topics & Concepts

PrecipitationGlobal coolingVegetation (pathology)LatitudeClimatologyClimate changeProxy (statistics)Climate modelPaleoclimatologyLate MiocenePhysical geographyEnvironmental scienceEast AsiaGeologyGeographyPaleontologyOceanographyChinaMeteorologyMachine learningPathologyArchaeologyStructural basinGeodesyComputer scienceMedicineGeology and Paleoclimatology ResearchEvolution and Paleontology StudiesEcology and Vegetation Dynamics Studies