http://arxiv.org/abs/2002.03248
One of the chief paradoxes of molecular oxygen (O$_2$) is that it is an essential requirement for multicellular eukaryotes on Earth while simultaneously posing a threat to their survival via the formation of reactive oxygen species. In this paper, the constraints imposed by O$_2$ on Earth-like complex life are invoked to explore whether worlds with abiotic O$_2$ inventories can harbor such organisms. By taking the major O$_2$ sources and sinks of Earth-like planets into account using a simple model, it is suggested that worlds that receive X-ray and extreme ultraviolet fluxes that are $\gtrsim 10$ times higher than Earth might not be capable of hosting complex lifeforms because the photolysis of molecules such as water may lead to significant O$_2$ buildup. Methods for testing this hypothesis by searching for anticorrelations between biosignatures and indicators of abiotic O$_2$ atmospheres are described. In the event, however, that life successfully adapts to high-oxygen environments, these worlds could permit the evolution of large and complex organisms.
M. Lingam
Tue, 11 Feb 20
73/81
Comments: Accepted for publication in The Astronomical Journal; 9 pages; 2 figures
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