High elevation of Jiaolai Basin during the Late Cretaceous: Implication for the coastal mountains along the East Asian margin

A large body of evidence suggests that there were extensive coastal mountains along the East Asian margin during the Late Cretaceous. However, current knowledge of the paleo-mountains — the period, range, and elevation — is limited. Therefore, direct paleoaltimetry is needed to validate and evaluate...

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Bibliographic Details
Published in:Earth and planetary science letters 2016-12, Vol.456, p.112-123
Main Authors: Zhang, Laiming, Wang, Chengshan, Cao, Ke, Wang, Qian, Tan, Jie, Gao, Yuan
Format: Article
Language:English
Subjects:
Asian
Basins
Carbonates
Climate change
clumped isotopes
coastal mountains
East Asia
Elevation
Isotopes
Jiaolai Basin
Late Cretaceous
Mountains
paleoelevation
Stratigraphy
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Summary:A large body of evidence suggests that there were extensive coastal mountains along the East Asian margin during the Late Cretaceous. However, current knowledge of the paleo-mountains — the period, range, and elevation — is limited. Therefore, direct paleoaltimetry is needed to validate and evaluate the paleo-mountains in East Asia. Our study area is Jiaolai Basin, which is located at the East Asian continental margin. We estimate the paleoelevation of Jiaolai Basin during the Late Cretaceous using carbonate clumped isotope paleothermometry. After correcting for seasonal preference, latitudinal difference, and secular climate change, we conclude that the paleoelevation of Jiaolai Basin was almost certainly ≥2.0 km at ∼80 Ma. Combined with the evidence from stratigraphy, paleogeography, and paleoclimatology, our results suggest that the existence of coastal mountains along East Asia during the Late Cretaceous is likely and the model of Okhotomorsk–East Asia collision is preferred. •There were coastal mountains along the East Asian margin during the Late Cretaceous.•We applied clumped isotope paleothermometry to paleosol carbonates in Jiaolai Basin.•We quantitatively estimate the paleoelevation of the coastal mountains.•The paleoelevation was almost certainly ≥2 km.•The model of Okhotomorsk–East Asia collision is preferred.
ISSN:0012-821X
1385-013X
DOI:10.1016/j.epsl.2016.09.034