Sproson AD, Pogge von Strandmann PA, Selby D, Jarochowska E, Frýda J, Hladil J, Loydell DK, Slavík L, Calner M, Maier G, Munnecke A, Lenton TM (2022)
Publication Type: Journal article
Publication year: 2022
Book Volume: 577
Article Number: 117260
DOI: 10.1016/j.epsl.2021.117260
The Ordovician (∼487 to 443 Ma) ended with the formation of extensive Southern Hemisphere ice sheets, known as the Hirnantian glaciation, and the second largest mass extinction in Earth History. It was followed by the Silurian (∼443 to 419 Ma), one of the most climatically unstable periods of the Phanerozoic as evidenced by several large scale (>5‰) carbon isotope (δ13C) perturbations associated with further extinction events. Despite several decades of research, the cause of these environmental instabilities remains enigmatic. Here, we provide osmium (187Os/188Os) and lithium (δ7Li) isotope measurements of marine sedimentary rocks that cover four Silurian δ13C excursions. Osmium and Li isotope records resemble those previously recorded for the Hirnantian glaciation suggesting a similar causal mechanism. When combined with a new dynamic carbon-osmium-lithium biogeochemical model we suggest that astronomical forcing of the marine organic carbon cycle, as opposed to a decline in volcanic arc degassing or the rise of early land plants, resulted in drawdown of atmospheric CO
APA:
Sproson, A.D., Pogge von Strandmann, P.A., Selby, D., Jarochowska, E., Frýda, J., Hladil, J.,... Lenton, T.M. (2022). Osmium and lithium isotope evidence for weathering feedbacks linked to orbitally paced organic carbon burial and Silurian glaciations. Earth and Planetary Science Letters, 577. https://doi.org/10.1016/j.epsl.2021.117260
MLA:
Sproson, Adam D., et al. "Osmium and lithium isotope evidence for weathering feedbacks linked to orbitally paced organic carbon burial and Silurian glaciations." Earth and Planetary Science Letters 577 (2022).
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