Late Eocene onset of the East Asian Monsoon in the Qingjiang Basin of Central Jiangxi Province (Southeast China) revealed by a major vegetation transition from desert to forest

The vast humid regions in southeast China are strongly influenced by the East Asian Monsoon (EAM); however, the origin and underlying mechanisms driving the EAM in this area remains uncertain. Here, we present Eocene palynological records from two sedimentary successions in the Qingjiang Basin of ce...

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Published in:Palaeogeography, palaeoclimatology, palaeoecology palaeoclimatology, palaeoecology, 2022-09, Vol.602, p.111179, Article 111179
Main Authors: Xie, Yulong, Wu, Fuli, Fang, Xiaomin, Song, Jiazuo, Niu, Zhichao
Format: Article
Language:English
Subjects:
East Asian Monsoon
Eocene
Palynological record
Qingjiang Basin
Southeast China
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Summary:The vast humid regions in southeast China are strongly influenced by the East Asian Monsoon (EAM); however, the origin and underlying mechanisms driving the EAM in this area remains uncertain. Here, we present Eocene palynological records from two sedimentary successions in the Qingjiang Basin of central Jiangxi Province, southeast China, which reveals a major vegetation transition from an early Eocene Ephedra-dominated shrub desert to late Eocene taxodioid Cupressaceae-dominated swamp forests. Using the Coexistence Approach and the Climatic Amplitude method, we quantitatively reconstructed climatic parameters, which indicate a climate shift from arid conditions with mean annual precipitation (MAP) lower than 200 mm to humid conditions with a MAP of 1479 ± 373 mm. We infer that this sharp increase in humidity is linked to the onset of a modern-style EAM, implying that the EAM has prevailed in southeast China since at least the late Eocene, much earlier than previously thought. We conclude that the establishment of the EAM in southeast China by the late Eocene was primarily controlled by paleogeographic changes, not changes in atmospheric CO2 levels. These results provide a new perspective on the early evolutionary history of the EAM, and challenges the prevailing view that the origin of humid southeast China was a Neogene phenomenon. [Display omitted] •Vegetation changed from early Eocene desert to late Eocene swamp forests.•Eocene climate transformation from arid to humid monsoonal.•Quantitative estimates show the MAP increased from 200 mm to 1479 mm.•Modern-like EAM has prevailed in southeast China since at least the late Eocene.
ISSN:0031-0182
1872-616X
DOI:10.1016/j.palaeo.2022.111179