Early life signatures in sulfur and carbon isotopes from Isua, Barberton, Wabigoon (Steep Rock), and Belingwe Greenstone Belts (3.8 to 2.7 Ga). / Grassineau, Nathalie; Abell, P.; Appel, P.W.U.; Lowry, David; Nisbet, Euan.

Evolution of Early Earth’s Atmosphere, Hydrosphere, and Biosphere—Constraints from Ore Deposits. ed. / S.E. Kesler; H. Ohmoto. Vol. 198 Geological Society of America, 2006. p. 33-52.

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Abstract

Carbon and sulfur isotopes have been measured on samples from four Archean
greenstone belts dating from 3.8 Ga to 2.7 Ga, in order to trace metabolic changes as life evolved over this one-billion-year period. In the Isua Greenstone Belt (3.8 Ga), Greenland, δ34S in sulfide minerals from sedimentary sequences range from –3.8‰ to +3.4‰. δ13Cred measured in BIFs, turbidites and conglomerates vary from –29.6‰ to –14.7‰; this range permits us to hypothesize the presence of hyperthermophilic and chemotrophic species in transient settings, or possibly pelagic photoautotrophic microbes, or both. In the Barberton Greenstone Belt, South Africa, sulfide minerals show δ34S values from +1.5‰ to +5.6‰. Black shales have δ13Cred values from –32.4‰ to –5.7‰, suggesting that oxygenic photosynthetic and sulfate-reducing bacteria were present by ca. 3.24 Ga. The δ13Cred measured in the stromatolites of Steep Rock Lake (3.0 Ga), Ontario, Canada, are from –30.6‰ to –21.6‰, giving clear evidence for occupation of a shallow water environment by cyanobacteria. The wide isotopic ranges for δ34S in sulfides from –21.1‰ to +16.7‰ and for δ13C
red in carbon-rich cherts and black shales from –43.4‰ to –7.2‰ in the Belingwe Greenstone Belt, Zimbabwe, indicate that photosynthetic microbial mat communities were well established at 2.7 Ga. In these well-preserved Late Archean formations, modern-style biological sulfur and carbon cycles may have been in operation. The δ34S and δ13Cred ranges, respectively 37‰ and 36‰, indicate a great variety of biological processes interacting with each other.
Original languageEnglish
Title of host publicationEvolution of Early Earth’s Atmosphere, Hydrosphere, and Biosphere—Constraints from Ore Deposits
EditorsS.E. Kesler, H. Ohmoto
PublisherGeological Society of America
Pages33-52
Number of pages20
Volume198
DOIs
Publication statusPublished - 2006
This open access research output is licenced under a Creative Commons Attribution-NonCommercial-NoDerivs 3.0 Unported License.

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