Marine Anoxia and Ocean Acidification During the End-Permian Extinction: An Integrated View From δ238U and δ44/40Ca Proxies and Earth System Modeling

Authors

Ying Cui, Montclair State UniversityFollow
Feifei Zhang, Nanjing University
Jiuyuan Wang, Northwestern University
Shijun Jiang, Jinan University
Shuzhong Shen, Nanjing University

Document Type

Book Chapter

Publication Date

1-1-2021

Journal / Book Title

Large Igneous Provinces A Driver of Global Environmental and Biotic Changes

Abstract

The largest mass extinction event in the Phanerozoic, known as the end-Permian mass extinction (or EPME, ca. 252 Ma) is coincident with the main eruption phase of Siberian Traps volcanism (ca. 252 to 250 Ma), a large igneous province (LIP). This LIP is estimated to have a volume larger than 2 × 10⁶ km³ and to have released both mantle carbon dioxide (CO2) through extrusions and thermogenic methane (CH4) and carbon dioxide (CO2) through intrusions. The climatic consequences of these greenhouse gases is detrimental to both marine and terrestrial life and may have delayed the recovery of ecosystems after the extinction. Quantitatively, the amount of CO2 released can be estimated using global carbon (C) cycle model or plant and soil-based proxies with varying time resolution. In light of the recent advances in geochemical proxies of ocean anoxia and acidification, we review the latest uranium isotopes (δ²³⁸U) and calcium isotope (δ^44/40Ca) records and Earth system modeling results to summarize the environmental response to the forcing of increased atmospheric CO2 concentrations. The extent of increase in oceanic anoxic area can be estimated by δ²³⁸U, and the δ^44/40Ca records may be used to evaluate ocean acidification. This evidence suggests that excessive nutrient load in the ocean (decreased strength of meridional overturning circulation) and ocean acidification in poorly buffered seawater (potentially triggered by the Siberian Traps LIP) worked together to create the most severe biological crisis and delayed recovery of life in the Earth’s history.

Comments

This is an open access publication under the terms of the Creative Commons Attribution License, which permits use, distribution and reproduction in any medium, provided the original work is properly cited.

DOI

10.1002/9781119507444.ch14

Journal ISSN / Book ISBN

85135641654 (Scopus)

MSU Digital Commons Citation

Cui, Ying; Zhang, Feifei; Wang, Jiuyuan; Jiang, Shijun; and Shen, Shuzhong, "Marine Anoxia and Ocean Acidification During the End-Permian Extinction: An Integrated View From δ238U and δ44/40Ca Proxies and Earth System Modeling" (2021). Department of Earth and Environmental Studies Faculty Scholarship and Creative Works. 752.
https://digitalcommons.montclair.edu/earth-environ-studies-facpubs/752

Published Citation

Cui, Y., Zhang, F., Wang, J., Jiang, S., & Shen, S. (2021). Marine anoxia and ocean acidification during the end‐Permian extinction: An integrated view from δ238U and δ44/40Ca proxies and earth system modeling. Large Igneous Provinces: A Driver of Global Environmental and Biotic Changes, 325-340.