期刊
GLOBAL AND PLANETARY CHANGE
卷 215, 期 -, 页码 -出版社
ELSEVIER
DOI: 10.1016/j.gloplacha.2022.103878
关键词
Olenekian; South China; Hyperwarming; Carbon cycle; Carbon isotopes; Sulfur isotopes
资金
- National Natural Science Foundation of China [42172032, 41872033, 41402302, 41661134047]
- International Geosciences Program (IGCP) [630 ?]
- Permian and Triassic integrated Stratigraphy and Climatic, Environmental and Biotic Extremes
The large-scale magmatic degassing event during the Early to Middle Smithian period was the primary trigger of the Late Smithian Thermal Maximum and concurrent biotic crisis.
The role of volcanism as a driver of climate change remains widely debated. Following the end-Permian mass extinction, the protracted Early Triassic recovery interval was characterized by extreme climatic and environmental perturbations (hyperwarming, intense subaerial weathering, and extensive marine euxinia) and large carbon- and sulfur-cycle perturbations. Although a magmatic trigger is widely accepted, details regarding the timing and magnitude of degassing and its relationship to contemporaneous climate changes remain poorly understood. In this study, we present new paired carbonate delta C-13 and carbonate-associated-sulfate delta S-3(4) data from deep-water settings in the Lower Triassic of South China to evaluate these issues. Our dataset reveals large positive shifts of both proxies across the Smithian/Spathian boundary (SSB), recording globally synchronous changes in the C and S cycles linked to co-burial of large quantities of organic matter and pyrite. Biogeochemical modeling of the C-S cycles shows that massive carbon release linked to increased magmatic degassing can account for observations of concurrent positive shifts of delta S-34 and delta C-13, enhanced weathering, expanded marine euxinia, and the Late Smithian Thermal Maximum (LSTM). Measured increases in delta C-13 (+3.2 +/- 1.6 parts per thousand) and delta S-34 (+7.3 +/- 2.3 parts per thousand) across the SSB relative to their baseline values are consistent with a major magmatic degassing event during the Early to Middle Smithian, whose magnitude and rate we estimate at similar to 78,000 +/- 13,000 Gt C and 0.26 Gt C yr(-1), respectively. Our results provide evidence that Early-Middle Smithian degassing was the primary trigger of the LSTM and concurrent biotic crisis.
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