François Orange

Experimental silicification of the extremophilic Archaea Pyrococcus abyssi and Methanocaldococcus jannaschii: applications in the search for evidence of life in early Earth and extraterrestrial rocks (2009)

Orange, François, Westall, Francès, Disnar, Jean-Robert, Prieur, D., Bienvenu, N., Le Romancer, M., ...

Hydrothermal activity was common on the early Earth and associated micro-organisms would most likely have included thermophilic to hyperthermophilic species. 3.5–3.3 billion-year-old,...

Experimental silicification of the extremophilic Archaea Pyrococcus abyssi and Methanocaldococcus jannaschii: applications in the search for evidence of life in early Earth and extraterrestrial rocks (2009)

Orange, François, Westall, Francès, Disnar, Jean-Robert, Prieur, D., Bienvenu, N., Le Romancer, M., ...

Hydrothermal activity was common on the early Earth and associated micro-organisms would most likely have included thermophilic to hyperthermophilic species. 3.5–3.3 billion-year-old,...

Fossilisation expérimentale de bactéries : appui à l?identification de signatures microbiologiques terrestres et extraterrestres (2008)

Orange, François

Puisque les premières formes de vie connues à ce jour (> 3 Ga) ont été préservées grâce à la précipitation de silice sur les structures cellulaires (silicification), nous avons mené la...

Fossilisation expérimentale de bactéries : appui à l?identification de signatures microbiologiques terrestres et extraterrestres (2008)

Orange, François

Puisque les premières formes de vie connues à ce jour (> 3 Ga) ont été préservées grâce à la précipitation de silice sur les structures cellulaires (silicification), nous avons mené la...

Fossilisation expérimentale de bactéries : appui à l?identification de signatures microbiologiques terrestres et extraterrestres (2008)

Orange, François

Puisque les premières formes de vie connues à ce jour (> 3 Ga) ont été préservées grâce à la précipitation de silice sur les structures cellulaires (silicification), nous avons mené la...

Fossilisation expérimentale de bactéries : appui à l?identification de signatures microbiologiques terrestres et extraterrestres (2008)

Orange, François

Puisque les premières formes de vie connues à ce jour (> 3 Ga) ont été préservées grâce à la précipitation de silice sur les structures cellulaires (silicification), nous avons mené la...

Experimental silicification of extremophilic Archaea, Methanococcus jannaschii. Applications for the search of evidence of life in early Earth and extraterrestrial rocks. (2006)

Orange, François, Westall, Francès, Disnar, Jean-Robert, Prieur, D., Défarge, Christian

Early life forms on Earth included chemolithotrophic organisms and such organisms would probably have existed on Mars, if life was present on that planet. Since the earliest life forms known to date...

Experimental silicification of extremophilic Archaea, Methanococcus jannaschii. Applications for the search of evidence of life in early Earth and extraterrestrial rocks. (2006)

Orange, François, Westall, Francès, Disnar, Jean-Robert, Prieur, D., Défarge, Christian

Early life forms on Earth included chemolithotrophic organisms and such organisms would probably have existed on Mars, if life was present on that planet. Since the earliest life forms known to date...

Experimental silicification of extremophilic Archaea, Methanococcus jannaschii. Applications for the search of evidence of life in early Earth and extraterrestrial rocks. (2006)

Orange, François, Westall, Francès, Disnar, Jean-Robert, Prieur, D., Défarge, Christian

Early life forms on Earth included chemolithotrophic organisms and such organisms would probably have existed on Mars, if life was present on that planet. Since the earliest life forms known to date...

Experimental silicification of extremophilic Archaea, Methanococcus jannaschii. Applications for the search of evidence of life in early Earth and extraterrestrial rocks. (2006)

Orange, François, Westall, Francès, Disnar, Jean-Robert, Prieur, D., Défarge, Christian

Early life forms on Earth included chemolithotrophic organisms and such organisms would probably have existed on Mars, if life was present on that planet. Since the earliest life forms known to date...