JpGU-AGU Joint Meeting 2020

Presentation information

[E] Oral

S (Solid Earth Sciences ) » S-EM Earth's Electromagnetism

[S-EM18] Paleomagnetism and rock magnetism applied to solving geological and geophysical problems

convener:Martin Chadima(Institute of Geology of the Czech Academy of Sciences), Balazs Bradak(University of Burgos, Spain), Daniel Pastor-Galan(Center for North East Asian Studies, Tohoku University), Myriam Annie Claire Kars(Center for Advanced Marine Core Research)

[SEM18-05] Eocene global cooling event registered in the red clay sequence near Tibet

*Vadim A Kravchinsky1,2, Rui Zhang2, Lioudmila P Koukhar1 (1.Geophysics, Department of Physics, University of Alberta, Edmonton, Alberta T6G 2E1, Canada, 2.Institute of Cenozoic Geology and Environment, State Key Laboratory of Continental Dynamics, Department of Geology, Northwest University, Xi'an 710069, China)

Keywords:cyclostratigraphy, Eocene climate, eccentricity cycles, magnetic susceptibility, magnetostratigraphy, red clay

We report a long cooling event registered in magnetic susceptibility (MS) data from a continuous eolian sequence near Tibet. The section was accurately dated using magnetistratigraphy and cyclostratigraphy. The MS and frequency dependence of the MS data mimic the general global climate cooling trend in the Eocene. Therefore, the global cooling was suggested to be the leading factor of aridification in the region overwriting the previously proposed dominant role of the Tibetan Plateau uplift (Li et al., 2018). Our high resolution MS record exhibits Asian monsoon intensification variations linked to eccentricity cycles. We show that global cooling reached its maximum at ~ 45 Ma ending up with a sharp warming event. Our analysis shows that this cooling event is also pronounced in the global oxygen isotope record and it is associated with alterations of geomagnetic reversal rate and plate tectonic motion speed. The tectonic changes appear to lag behind the changes in climate and geomagnetic reversal rate and could be driven by the climate change feedback mechanism proposed in Chen et al. (2015) that is linked to multimillion cyclical reorganization of the Earth’s interior.

Li, J.X., Yue, L.P., Roberts, A.P., Hirt, A.M., Pan, F., Guo, L., Xu, Y., Xi, R.G., Guo, L., Qiang, X.K., Gai, C.C., 2018. Global cooling and enhanced Eocene Asian mid-latitude interior aridity. Nature communications 9(1), 1–8.

Chen, J., Kravchinsky, V.A., Liu, X., 2015. The 13 million year Cenozoic pulse of the Earth: Earth and Planetary Science Letters 431, 256–263.