Field of Science

Coal Combustion as a Contributor to the End-Permian Extinction

A break from one fingered dinosaurs and the speculations of use for such a limb. This is a new article regarding a possible contributor to end-Permian marine extinctions. A popular news article is here.

Grasby, S. E., Sanei, H. and B. Beauchamp. 2011. Catastrophic dispersion of coal fly ash into oceans during the latest Permian extinction. Nature Geoscience. Published online 23 January 2011

Abstract - During the latest Permian extinction about 250 Myr ago, more than 90% of marine species went extinct, and biogeochemical cycles were disrupted globally. The cause of the disruption is unclear, but a link between the eruption of the Siberian Trap flood basalts and the extinction has been suggested on the basis of the rough coincidence of the two events. The flood basalt volcanism released CO2. In addition, related thermal metamorphism of Siberian coal measures and organic-rich shales led to the emission of methane, which would have affected global climate and carbon cycling, according to model simulations. This scenario is supported by evidence for volcanic eruptions and gas release in the Siberian Tunguska Basin, but direct indicators of coal combustion have not been detected. Here we present analyses of terrestrial carbon in marine sediments that suggest a substantial amount of char was deposited in Permian aged rocks from the Canadian High Arctic immediately before the mass extinction. Based on the geochemistry and petrology of the char, we propose that the char was derived from the combustion of Siberian coal and organic-rich sediments by flood basalts, which was then dispersed globally. The char is remarkably similar to modern coal fly ash, which can create toxic aquatic conditions when released as slurries. We therefore speculate that the global distribution of ash could have created toxic marine conditions.

1 comment:

  1. Because of your interest in Permian times, you may find interesting a series of articles that discuss the possible large impact that development of the ability to digest cellulose by roaches may have had on Permian ecology and climate, and on the Triassic coal hiatus shown below without references and starting in . The following end Permian extinctions are discussed in If you see any errors in them or possible additions, please let me know
    Sincerely, Charles Weber


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