Details

Autor(en) / Beteiligte

• Tazaz, Amanda M.
• Bebout, Brad M.
• Kelley, Cheryl A.
• Poole, Jennifer
• Chanton, Jeffrey P.

Titel

Redefining the isotopic boundaries of biogenic methane: Methane from endoevaporites

Ist Teil von

• Icarus (New York, N.Y. 1962), 2013-06, Vol.224 (2), p.268-275

Ort / Verlag

Elsevier Inc

Erscheinungsjahr

2013

Link zum Volltext

Quelle

Access via ScienceDirect (Elsevier)

Beschreibungen/Notizen

• ► Hypersaline environments were studied for methane isotopic composition. ► Endoevaporites yield apparent non-biogenic methane. ► Incubations of the crustal material produced methane, presumably biologically. ► Expanded criteria for biogenicity lessen chance of false negatives for Mars missions. The recent reports of methane in the atmosphere of Mars, as well as the findings of hypersaline paleoenvironments on that planet, have underscored the need to evaluate the importance of biological (as opposed to geological) trace gas production and consumption, particularly in hypersaline environments. Methane in the atmosphere of Mars may be an indication of extant life, but it may also be a consequence of geologic activity and/or the thermal alteration of ancient organic matter. On Earth these methane sources can be distinguished using stable isotopic analyses and the ratio of methane (C1) to C2 and C3 alkanes present in the gas source (C1/(C2+C3)). We report here that methane produced in hypersaline environments on Earth has an isotopic composition and alkane content outside the values presently considered to indicate a biogenic origin. Methane-rich bubbles released from sub-aqueous substrates contained δ13CCH4 and δ2HCH4 values ranging from −65‰ to −35‰ and −350‰ to −140‰ respectively. Higher salinity endoevaporites yielded what would be considered non-biogenic methane based upon stable isotopic and alkane content, however incubation of crustal and algal mat samples resulted in methane production with similar isotopic values. Radiocarbon analysis indicated that the production of the methane was from recently fixed carbon. An extension of the isotopic boundaries of biogenic methane is necessary in order to avoid the possibility of false negatives returned from measurements of methane on Mars and other planetary bodies.