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Seawater carbon and strontium isotope variations through the late Ediacaran to late Cambrian in the Tarim Basin
Precambrian Research ( IF 3.8 ) Pub Date : 2020-08-01 , DOI: 10.1016/j.precamres.2020.105769 Yinggang Zhang , Tao Yang , Simon V. Hohl , Bi Zhu , Tianchen He , Wenqing Pan , Yongquan Chen , Xizhu Yao , Shaoyong Jiang
Precambrian Research ( IF 3.8 ) Pub Date : 2020-08-01 , DOI: 10.1016/j.precamres.2020.105769 Yinggang Zhang , Tao Yang , Simon V. Hohl , Bi Zhu , Tianchen He , Wenqing Pan , Yongquan Chen , Xizhu Yao , Shaoyong Jiang
Abstract The radiation of early animals during the Cambrian explosion was accompanied by widespread perturbations in oceanic and atmospheric conditions. However, the cause-effect relationships between evolutionary innovations, carbon (C) cycling, and continental weathering are still a matter of debate. Further paleoenvironmental reconstructions of poorly studied paleo-continents covering the Precambrian/Cambrian (PC/C) transition may improve the correlation of the events and their impact on the Earth system on a global scale. The Tarim Basin was presumably located proximal to the well-studied South China craton during the Ediacaran-Cambrian boundary and is expected to contribute equally to our paleoenvironmental reconstructions. Here we apply carbon and strontium (Sr) isotope records (δ13C and 87Sr/86Sr) obtained from well-preserved marine carbonates spanning the late Ediacaran to the late Cambrian from the Keping region in the northwestern Tarim Basin, NW China. By comparison to other carbonate successions from various paleo-continents, our obtained seawater 87Sr/86Sr curve in this study shows a stepwise first-order increase to more radiogenic values superimposed by second-order presumably regional variations. Our obtained δ13C variations exhibit four prominent negative and three positive excursions identical to the global δ13C record. Based on existing paleontological evidence and our new Tarim δ13C and 87Sr/86Sr curves, we propose a stratigraphic correlation from the late Ediacaran to the late Cambrian between the Tarim Basin and other paleo-continents. Besides, our paleoenvironmental reconstruction reveals both regional and global sea-level changes that may have controlled the influx of radiogenic Sr and presumably the influx of nutrients controlling primary production and the rate of organic carbon burial in the Tarim Basin at the time of deposition. These feedbacks may have ultimately influenced the rapid diversification of metazoans and the oxygenation of the Cambrian ocean and atmosphere approaching-present pO2 levels.
更新日期:2020-08-01
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