Chemical constitution of a Permian-Triassic disaster species
Chemical constitution of a Permian-Triassic disaster species
Geology (Boulder) (October 2009) 37 (10): 875-878
- affinities
- algae
- Alps
- biochemistry
- C-13/C-12
- carbon
- classification
- clastic rocks
- Europe
- experimental studies
- fungi
- gas chromatograms
- geochemistry
- isotope ratios
- isotopes
- Italy
- Lower Triassic
- marl
- mass spectra
- Mesozoic
- microfossils
- N-15/N-14
- nitrogen
- organic compounds
- paleoecology
- Paleozoic
- palynomorphs
- Permian
- Plantae
- problematic fossils
- problematic microfossils
- pyrolysis
- sedimentary rocks
- Southern Europe
- spectra
- stable isotopes
- Trentino-Alto Adige Italy
- Triassic
- Upper Permian
- northern Italy
- Werfen Formation
- Reduviasporonites
- Tesero Member
One of the most controversial biological proxies of environmental crisis at the close of the Permian is the organic microfossil REDUVIASPORONITES: The proliferation of this disaster species coincides with the mass extinction and numerous geochemical disturbances. Originally Reduviasporonites was assigned to fungi, opportunistically exploiting dying end-Permian forests, but subsequent geochemical data have been used to suggest an algal origin. We have used high-sensitivity equipment, partly designed to detect interstellar grains in meteorites, to reexamine the geochemical signature of REDUVIASPORONITES: Organic chemistry, carbon and nitrogen isotopes, and carbon/nitrogen ratios are consistent with a fungal origin. The use of this microfossil as a marker of terrestrial ecosystem collapse should not be merely discounted. Unequivocally diagnostic data, however, may have been precluded by post-burial replacement of its organic constituents.
