Add to ORKGDetection of life on other planets requires identification of biosignatures, i.e., observable planetary properties that robustly indicate the presence of a biosphere. One of the most widely accepted biosignatures for an Earth-like planet is an atmosphere where oxygen is a major constituent. Here we show that lifeless habitable zone terrestrial planets around any star type may develop oxygen-dominated atmospheres as a result of water photolysis, because the cold trap mechanism that protects H2O on Earth is ineffective when the atmospheric inventory of non-condensing gases (e.g., N2, Ar) is low. Hence the spectral features of O2 and O3 alone cannot be regarded as robust signs of extraterrestrial life. Key words: astrobiology – planets and sat...
The search for life on planets outside our solar system will use spectroscopic identification of atm...
Earth-like planets orbiting M dwarfs are prominent targets when searching for life outside the Solar...
O2 and O3 have been long considered the most robust individual biosignature gases in a planetary atm...
Detection of life on other planets requires identification of biosignatures, i.e., observable planet...
We describe how environmental context can help determine whether oxygen (O2) detected in extrasolar ...
The search for life on planets outside our solar system will use spectroscopic identification of atm...
Context.Previous research has indicated that high amounts of ozone (O3) and oxygen (O2) may be prod...
International audienceWe revisit the validity of the presence of O-2 or O-3 in the atmosphere of a r...
Ocean-atmosphere chemistry on Earth has undergone dramatic evolutionary changes throughout its long ...
Ocean-atmosphere chemistry on Earth has undergone dramatic evolutionary changes throughout its long ...
Life has likely coevolved with the Earth system in time in various ways. Our oxygen-rich atmosphere ...
53 pages, 7 figures, manuscript accepted at "Astrobiology" JournalInternational audienceSpectral cha...
Abundant free oxygen appears to be a requirement for macroflora and macrofauna. To the best of our k...
Here we review how environmental context can be used to interpret whether O2 is a biosignature in ex...
The search for life on planets outside our solar system will use spectroscopic identification of atm...
Earth-like planets orbiting M dwarfs are prominent targets when searching for life outside the Solar...
O2 and O3 have been long considered the most robust individual biosignature gases in a planetary atm...
Detection of life on other planets requires identification of biosignatures, i.e., observable planet...
We describe how environmental context can help determine whether oxygen (O2) detected in extrasolar ...
The search for life on planets outside our solar system will use spectroscopic identification of atm...
Context.Previous research has indicated that high amounts of ozone (O3) and oxygen (O2) may be prod...
International audienceWe revisit the validity of the presence of O-2 or O-3 in the atmosphere of a r...
Ocean-atmosphere chemistry on Earth has undergone dramatic evolutionary changes throughout its long ...
Ocean-atmosphere chemistry on Earth has undergone dramatic evolutionary changes throughout its long ...
Life has likely coevolved with the Earth system in time in various ways. Our oxygen-rich atmosphere ...
53 pages, 7 figures, manuscript accepted at "Astrobiology" JournalInternational audienceSpectral cha...
Abundant free oxygen appears to be a requirement for macroflora and macrofauna. To the best of our k...
Here we review how environmental context can be used to interpret whether O2 is a biosignature in ex...
The search for life on planets outside our solar system will use spectroscopic identification of atm...
Earth-like planets orbiting M dwarfs are prominent targets when searching for life outside the Solar...
O2 and O3 have been long considered the most robust individual biosignature gases in a planetary atm...