δ98/95 Mo records in ferromanganese crust suggest downward movement of Oxygen Minimum Zones in the early Eocene

Author:

Li Jie1,Yin Lu2,Zhang Jing2,Yao Huiqiang3,Lin Zhiyong4ORCID,Zhao Pei-Pei2,Long Xiaoping5ORCID,Xu Yigang6ORCID

Affiliation:

1. State Key Laboratory of Isotope Geochemistry, Guangzhou Institute of Geochemistry, Chinese Academy of Sciences

2. College of Earth Sciences, Hebei GEO University

3. Guangzhou Marine Geological Survey

4. Institute for Geology, Center for Earth System Research and Sustainability, University of Hamburg

5. Northwest University

6. Guangzhou Institute of Geochemistry, CAS

Abstract

Abstract The seawater Molybdenum isotopic composition has been thought to have undergone little change over the Cenozoic Era, compared to other redox sensitive isotope systems, such as Carbon and Sulfur. However, newly reconstructed Cenozoic Era seawater δ98/95 Mo values, based on analysis of a hydrogenic ferromanganese (Fe-Mn) crust obtained from the Pacific Ocean, reveal a significant decrease in seawater δ98/95Mo values from 2.80% at 53 Ma to 2.34% at 36.7 Ma. By utilizing a steady-state mass balance model, we observed that the primary factor contributing to this decline was likely the shrinkage of oxygen minimum zones (OMZ) in shallow shelf environments. OMZ sediments on shallow shelves typically exhibit lighter Mo isotope signatures than those on deep slopes and reduced burial of lighter Mo isotopes would reduce the seawater δ98/95Mo value. Coincidentally, this decline temporally coincided with the initial arc collision and subsequent closure of the foreland basin between India and Asia. Therefore, we consider that the seawater δ98/95 Mo may reflect the gradual contraction of the shallow shelf and downward migration of sediment along the continental margin in the early Eocene.

Publisher

Research Square Platform LLC

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