14 C-Dead Living Biomass: Evidence for Microbial Assimilation of Ancient Organic Carbon During Shale Weathering
- 11 May 2001
- journal article
- review article
- Published by American Association for the Advancement of Science (AAAS) in Science
- Vol. 292 (5519) , 1127-1131
- https://doi.org/10.1126/science.1058332
Abstract
Prokaryotes have been cultured from a modern weathering profile developed on a ∼365-million-year-old black shale that use macromolecular shale organic matter as their sole organic carbon source. Using natural-abundance carbon-14 analysis of membrane lipids, we show that 74 to 94% of lipid carbon in these cultures derives from assimilation of carbon-14–free organic carbon from the shale. These results reveal that microorganisms enriched from shale weathering profiles are able to use a macromolecular and putatively refractory pool of ancient organic matter. This activity may facilitate the oxidation of sedimentary organic matter to inorganic carbon when sedimentary rocks are exposed by erosion. Thus, microorganisms may play a more active role in the geochemical carbon cycle than previously recognized, with profound implications for controls on the abundance of oxygen and carbon dioxide in Earth's atmosphere over geologic time.Keywords
This publication has 23 references indexed in Scilit:
- Stable carbon isotope biogeochemistry of a shallow sand aquifer contaminated with fuel hydrocarbonsApplied Geochemistry, 2000
- Soil respiration and georespiration distinguished by transport analyses of vadose CO2, 13CO2, and 14CO2Global Biogeochemical Cycles, 1998
- Coupling the geochemical cycles of C, P, Fe, and S; the effect on atmospheric O 2 and the isotopic records of carbon and sulfurAmerican Journal of Science, 1998
- Variability in Radiocarbon Ages of Individual Organic Compounds from Marine SedimentsScience, 1997
- Biomass, bioactivity and biodiversity: microbial ecology of the deep subsurface: analysis of ester-linked phospholipid fatty acidsFEMS Microbiology Reviews, 1997
- Microorganisms from deep, high temperature sandstones: constraints on microbial colonizationFEMS Microbiology Reviews, 1997
- Confined subsurface microbial communities in Cretaceous rockNature, 1997
- Biogeochemical cycles of carbon and sulfur and their effect on atmospheric oxygen over phanerozoic timePalaeogeography, Palaeoclimatology, Palaeoecology, 1989
- Phospholipid Ester-linked Fatty Acid Biomarkers of Acetate-oxidizing Sulphate-reducers and Other Sulphide-forming BacteriaMicrobiology, 1986
- Phospholipid, ester-linked fatty acid profiles as reproducible assays for changes in prokaryotic community structure of estuarine sedimentsFEMS Microbiology Letters, 1985