Scientific Reports (Jul 2024)

Unveiling a new oceanic anoxic event at the Norian/Rhaetian boundary (Late Triassic)

  • Manuel Rigo,
  • Xin Jin,
  • Linda Godfrey,
  • Miriam E. Katz,
  • Honami Sato,
  • Yuki Tomimatsu,
  • Mariachiara Zaffani,
  • Matteo Maron,
  • Sara Satolli,
  • Giuseppe Concheri,
  • Alessandra Cardinali,
  • Qiangwang Wu,
  • Yixing Du,
  • Jerry Zhen Xiao Lei,
  • Connor S. van Wieren,
  • Lydia S. Tackett,
  • Hamish Campbell,
  • Angela Bertinelli,
  • Tetsuji Onoue

DOI
https://doi.org/10.1038/s41598-024-66343-z
Journal volume & issue
Vol. 14, no. 1
pp. 1 – 9

Abstract

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Abstract The latest Triassic was characterised by protracted biotic extinctions concluding in the End-Triassic Extinction (~ 200 Ma) and a global carbon cycle perturbation. The onset of declining diversity is closely related to reducing conditions that spread globally from upper Sevatian (uppermost Norian) to across the Norian-Rhaetian boundary, likely triggered by unusually high volcanic activity. We correlate significant organic carbon cycle perturbations to an increase of CO2 in the ocean–atmosphere system, likely outgassed by the Angayucham igneous province, the onset of which is indicated by the initiation of a rapid decline in 87Sr/86Sr and 188Os/187Os seawater values. A possible causal mechanism involves elevated CO2 levels causing global warming and accelerating chemical weathering, which increased nutrient discharge to the oceans and greatly increased biological productivity. Higher export production and oxidation of organic matter led to a global O2 decrease in marine water across the Norian/Rhaetian boundary (NRB). Biotic consequences of dysoxia/anoxia include worldwide extinctions in some fossil groups, such as bivalves, ammonoids, conodonts, radiolarians.