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Details for article 43 of 83 found articles
| Title: |
Geochemical and isotopic anomalies associated with the Frasnian-Famennian extinction |
| Author: |
Goodfellow, W. D. Geldsetzer, H. McLaren, D. J. Orchard, M. J. Klapper, G. |
| Appeared in: |
Historical biology |
| Paging: | Volume 2 (1989) nr. 1 pages 51-72 |
| Year: |
1989 |
| Contents: |
The F-F extinction is known on four continents by the sudden disappearance of shelly benthos, although questions remain regarding precisely when and therefore how suddenly it took place. Studies show that this extinction occurred at the gigas/triangularis zone boundary in Utah and Nevada. U.S.A., Hony and Sinsin sections. Belgium. Montagne Noire. France and Bad Wildungen. Germany. In Medicine Lake and Trout River. Canada, this extinction event has been bracketed between the gigas and Upper triangularis zones. The correlation with an indium anomaly in the Canning Basin. Australia, is suspect and an extinction within the crepida zone in Hunan. China, appears to be facies related. Major biomass reductions at the F-F extinction are supported by sudden decreases in δ1 3 C values at this horizon at Trout River and Montagne Noire. δ1 3O values in several sections indicate sudden cooling followed by a warming trend. Several F-F extinctions also coincide with a regression and world-wide anoxic event. Five sections are geochemically anomalous in transition metals at or near the extinction boundary; one (i.e. Canning Basin) is weakly anomalous in Ir, and one (i.e. Medicine Lake) displays highly positive δ34S values in sedimentary pyrite. None of the minerals examined thus far in samples of the F-F extinction in the Canning Basin. Trout River, and Medicine Lake display shock metamorphic features. The evidence to date indicates that the F-F extinction probably occurred at or near the gigasltriangularis zone boundary, and corresponded to a globally synchronous regression and anoxic event. This anoxic event explains rapid fades changes to carbonaceous sediments, positive δ34 S values in pyrite, and high contents of chalcophile elements which have been measured at the F-F boundary in several sections. Although poisoning of epicontinental seas with anoxic waters was the most likely immediate cause of mass extinction, the global synchroneity. magnitude and the apparent suddenness of the mass killing, and its association with a world-wide regression, are all consistent with meteorite impact as the ultimate cause. |
| Publisher: |
Taylor & Francis |
| Source file: |
Elektronische Wetenschappelijke Tijdschriften |
Details for article 43 of 83 found articles
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