Add to ORKGOn a volcanic and anaerobic planet characterized by abundant hydrothermal activity, physicochemical gradients and disequilibria at the local scale would have been fundamental for the emergence of life on Earth. Unfortunately, the early rock record pertaining to this existential process no longer exists, and, while chemists attempt to recreate life in a test tube, two other approaches can provide some information about early life and its metabolic processes. In the first place, phylogenetic, geological, thermodynamic, and microbiological settings suggest that disproportionation of reduced sulfurous compounds might have been essential for microbial evolution by delivering both sulfide and sulfate on Earth's surface. These processes would have...
The ultimate goal of terrestrial planet-finding missions is not only to discover terrestrial exoplan...
In 2001, the first author (S.N.) led the publication of a book entitled “Geochemistry and the ...
Life on the early Earth inhabited a planet whose environ-ment was vastly different from the Earth of...
Resolving the geochemical steps which led to the first living organisms on Earth is perhaps one of t...
Microbial life on Earth seems to have begun almost as soon as the planet cooled enough to allow soli...
Deep‐sea hydrothermal systems provide ideal conditions for prebiotic reactions and ancient metabolic...
Critical to the origin of life are the ingredients of life, of course, but also the physical and che...
International audienceThe origin of life is mostly divided into "genetics first" and "metabolism fir...
The basic tenet of the heterotrophic theory of the origin of life is that the maintenance and reprod...
ABSTRACT. There are 2 principal avenues of inquiry relevant to reconstruct-ing the history of the su...
We advocate an integrative approach between laboratory experiments in prebiotic chemistry and geolog...
Life may have been present on Earth from about 3.8 Ga or earlier. Based on a combination of geochemi...
The ultimate goal of terrestrial planet-finding missions is not only to discover terrestrial exoplan...
The ultimate goal of terrestrial planet-finding missions is not only to discover terrestrial exoplan...
In 2001, the first author (S.N.) led the publication of a book entitled “Geochemistry and the ...
Life on the early Earth inhabited a planet whose environ-ment was vastly different from the Earth of...
Resolving the geochemical steps which led to the first living organisms on Earth is perhaps one of t...
Microbial life on Earth seems to have begun almost as soon as the planet cooled enough to allow soli...
Deep‐sea hydrothermal systems provide ideal conditions for prebiotic reactions and ancient metabolic...
Critical to the origin of life are the ingredients of life, of course, but also the physical and che...
International audienceThe origin of life is mostly divided into "genetics first" and "metabolism fir...
The basic tenet of the heterotrophic theory of the origin of life is that the maintenance and reprod...
ABSTRACT. There are 2 principal avenues of inquiry relevant to reconstruct-ing the history of the su...
We advocate an integrative approach between laboratory experiments in prebiotic chemistry and geolog...
Life may have been present on Earth from about 3.8 Ga or earlier. Based on a combination of geochemi...
The ultimate goal of terrestrial planet-finding missions is not only to discover terrestrial exoplan...
The ultimate goal of terrestrial planet-finding missions is not only to discover terrestrial exoplan...
In 2001, the first author (S.N.) led the publication of a book entitled “Geochemistry and the ...
Life on the early Earth inhabited a planet whose environ-ment was vastly different from the Earth of...