2018
DOI: 10.1089/ast.2017.1778
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Geological and Geochemical Constraints on the Origin and Evolution of Life

Abstract: The traditional tree of life from molecular biology with last universal common ancestor (LUCA) branching into bacteria and archaea (though fuzzy) is likely formally valid enough to be a basis for discussion of geological processes on the early Earth. Biologists infer likely properties of nodal organisms within the tree and, hence, the environment they inhabited. Geologists both vet tenuous trees and putative origin of life scenarios for geological and ecological reasonability and conversely infer geological in… Show more

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Cited by 66 publications
(49 citation statements)
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References 237 publications
(284 reference statements)
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“…Hereby, the steady bilateral exchange between disciplines is crucial. Not only should geology provide conditions for experiments [174], those experiments should also provide the attributes that geochemical studies could search for.…”
Section: General Remarksmentioning
confidence: 99%
“…Hereby, the steady bilateral exchange between disciplines is crucial. Not only should geology provide conditions for experiments [174], those experiments should also provide the attributes that geochemical studies could search for.…”
Section: General Remarksmentioning
confidence: 99%
“…Regrettably, the chemosynthetic biosphere leaves enigmatic vestiges of its existence in the rock record, beset by simple morphologies and subsequent alteration by diagenetic and metamorphic processes even where rapidly preserved by silicification 14,31,33 . The Palaeoarchaean fossil record nonetheless presents an ideal window on the primitive thermophilic biosphere: it dates from a time when life on Earth was driven dominantly by internal heat [35][36][37][38][39] . Both chemotrophic and phototrophic metabolisms have been predicted as early as 3.8 Ga 11,12,15,35,40 and the probability of chemosynthetic inhabitants in the palaeoenvironments represented by Archaean cherts makes these rocks ideal text cases for palaeo-metallomics, since such extremotolerant thermophiles have unique metallome compositions with specific elemental requirements 41 .…”
Section: Rationale: a Framework For Estimating The Palaeo-metallome Omentioning
confidence: 99%
“…In light of a likely scarce long-term energy supply whether life could initiate and persist on Ceres remains uncertain. Recent studies have provocatively argued that life could have been present on Ceres (Houtkooper, 2011;Sleep, 2018), having emerged in situ and/or been transported throughout the inner solar system (e.g., Gladman et al, 2005;Warmflash and Weiss, 2005;Worth et al, 2013). In the latter case, however, by the time Earth had a thriving biosphere, Ceres's near-surface environments should have become less suitable for the implantation of transported organisms due to internal cooling.…”
Section: Origin Of Ceres' Organicsmentioning
confidence: 99%