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Continental weathering and recovery from ocean nutrient stress during the Early Triassic Biotic Crisis

Abstract

Following the latest Permian extinction ∼252 million years ago, normal marine and terrestrial ecosystems did not recover for another 5-9 million years. The driver(s) for the Early Triassic biotic crisis, marked by high atmospheric CO2 concentration, extreme ocean warming, and marine anoxia, remains unclear. Here we constrain the timing of authigenic K-bearing mineral formation extracted from supergene weathering profiles of NW-Pangea by Argon geochronology, to demonstrate that an accelerated hydrological cycle causing intense chemical alteration of the continents occurred between ∼254 and 248 Ma, and continued throughout the Triassic period. We show that enhanced ocean nutrient supply from this intense continental weathering did not trigger increased ocean productivity during the Early Triassic biotic crisis, due to strong thermal ocean stratification off NW Pangea. Nitrogen isotope constraints suggest, instead, that full recovery from ocean nutrient stress, despite some brief amelioration ∼1.5 million years after the latest Permian extinction, did not commence until climate cooling revitalized the global upwelling systems and ocean mixing ∼10 million years after the mass extinctio
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Category

Academic article

Client

  • Research Council of Norway (RCN) / 319849
  • Research Council of Norway (RCN) / 223259
  • UiT The Arctic University of Norway

Language

English

Author(s)

  • Jochen Manfred Knies
  • Jasmin Schönenberger
  • Horst Zwingmann
  • Roelant van der Lelij
  • Morten Smelror
  • Per Erik Vullum
  • Marco Brönner
  • Christoph Vogt
  • Ola Fredin
  • Axel Müller
  • Stephen E. Grasby
  • Benoit Beauchamp
  • Giulio Viola

Affiliation

  • UiT The Arctic University of Norway
  • Geological Survey of Norway
  • Kyoto University
  • SINTEF Industry / Materials and Nanotechnology
  • University of Bremen
  • Norwegian University of Science and Technology
  • University of Oslo
  • The Natural History Museum
  • The University of Calgary
  • Geological Survey of Canada
  • University of Bologna

Year

2022

Published in

Communications Earth & Environment

ISSN

2662-4435

Publisher

Springer Nature

Volume

3

Issue

1

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