Five million years of high atmospheric CO2 in the aftermath of the Permian-Triassic mass extinction-Reference-Cited by-同舟云学术

Five million years of high atmospheric CO2 in the aftermath of the Permian-Triassic mass extinction

Published:2022-04-11 Issue:6 Volume:50 Page:650-654
ISSN:0091-7613
Container-title:Geology
language:en
Short-container-title:

Author:

Joachimski Michael M.¹,Müller Johann¹,Gallagher Timothy M.²,Mathes Gregor³,Chu Daoliang L.⁴,Mouraviev Fedor⁵,Silantiev Vladimir⁵,Sun Yadong D.¹,Tong Jinnan N.⁴

Affiliation:

1. GeoZentrum Nordbayern, Friedrich-Alexander Universität Erlangen-Nürnberg (FAU), Erlangen 91054, Germany

2. Department of Geology, Kent State University, Kent, Ohio 44240, USA

3. Department of Sport Science & Bayreuth Center of Ecology and Environmental Research (BayCEER), Universität Bayreuth, Bayreuth 95447, Germany

4. State Key Laboratory of Biogeology and Environmental Geology, School of Earth Sciences, China University of Geosciences, Wuhan 430074, China

5. Geology and Petroleum Technologies, Kazan Federal University, 420008 Kazan, Russia

Abstract

Abstract The end-Permian mass extinction, the largest biological crisis in Earth history, is currently understood in the context of Siberian Traps volcanism introducing large quantities of greenhouse gases to the atmosphere, culminating in the Early Triassic hothouse. In our study, the late Permian and Early Triassic atmospheric CO2 history was reconstructed by applying the paleosol pCO2 barometer. Atmospheric pCO2 shows an approximate 4× increase from mean concentrations of 412–919 ppmv in the late Permian (Changhsingian) to maximum levels between 2181 and 2610 ppmv in the Early Triassic (late Griesbachian). Mean CO2 estimates for the later Early Triassic are between 1261–1936 ppmv (Dienerian) and 1063–1757 ppmv (Spathian). Significantly lower concentrations ranging from 343 to 634 ppmv are reconstructed for the latest Early to Middle Triassic (Anisian). The 5 m.y. episode of elevated pCO2 suggests that negative feedback mechanisms such as silicate weathering were not effective enough to reduce atmospheric pCO2 to precrisis levels and that marine authigenic clay formation (i.e., reverse weathering) may have been an important component of the global carbon cycle keeping atmospheric pCO2 at elevated levels.

Publisher

Geological Society of America

Subject

Geology

Link

https://pubs.geoscienceworld.org/gsa/geology/article-pdf/50/6/650/5606841/g49714.1.pdf

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