Computer Science
Scientific paper
Feb 2004
adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=2004e%26psl.218..331n&link_type=abstract
Earth and Planetary Science Letters, Volume 218, Issue 3-4, p. 331-345.
Computer Science
17
Permian-Triassic, Mass Extinction, Anoxia, Structurally Substituted Sulphur, Trace Sulphates, Sulphur Isotopes, Sulphate-Oxygen Isotopes, Iron Cycle, Methane Release
Scientific paper
Carbonate-associated sulphate (CAS) extracted from a Permo-Triassic succession at Siusi in northern Italy is shown to preserve a true seawater-sulphate isotope record. Two periods of increasing δ34S and δ18O in CAS provide evidence for increased oceanic anoxia in the Late Permian and the Early Triassic. These two anoxic episodes are separated by an event characterised by the addition of isotopically light sulphur and oxygen to the oceanic sulphate pool. Simple mass balance calculations suggest that this sulphate originates from the reoxidation of bacterially derived H2S during oceanic mixing, rather than a volcanogenic source. A dramatic fall in CAS-δ18O directly above the P-T boundary, not accompanied by a large change in CAS-δ34S, records an oceanic deoxygenation event probably caused by the release of methane from gas hydrates, subsequently recorded in the carbonate-carbon isotope record. The decline of Early Triassic oceanic anoxia is not recorded by a fall in CAS-δ34S, but is preserved by declining CAS-δ18O. This is because of an increase in the flux of reactive iron to the oceans during the Early Triassic anoxic episode, triggered by the demise of land plants. This permanently removes a greater proportion of light sulphur from the oceanic sulphate reservoir as pyrite, and means that the heavy residual sulphate-sulphur isotope signature of Griesbachian anoxic seawater is preserved as a geochemical `fossil' until the beginning of the Middle Triassic.
Bottrell Simon H.
Newton J. R.
Pevitt E. L.
Wignall Paul B.
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