The Influence of Stellar Phosphorus on Our Understanding of Exoplanets and Astrobiology

Hinkel, Natalie R. and Hartnett, Hilairy E. and Young, Patrick A. (2020) The Influence of Stellar Phosphorus on Our Understanding of Exoplanets and Astrobiology. The Astrophysical Journal, 900 (2). L38. ISSN 2041-8213

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Abstract

When searching for exoplanets and ultimately considering their habitability, it is necessary to consider the planet's composition, geophysical processes, and geochemical cycles in order to constrain the bioessential elements available to life. Determining the elemental ratios for exoplanetary ecosystems is not yet possible, but we generally assume that planets have compositions similar to those of their host stars. Therefore, using the Hypatia Catalog of high-resolution stellar abundances for nearby stars, we compare the C, N, Si, and P abundance ratios of main-sequence stars with those in average marine plankton, Earth's crust, as well as bulk silicate Earth and Mars. We find that, in general, plankton, Earth, and Mars are N-poor and P-rich compared with nearby stars. However, the dearth of P abundance data, which exists for only ∼1% of all stars and 1% of exoplanet hosts, makes it difficult to deduce clear trends in the stellar data, let alone the role of P in the evolution of an exoplanet. Our Sun has relatively high P and Earth biology requires a small, but finite, amount of P. On rocky planets that form around host stars with substantially less P, the strong partitioning of P into the core could rule out the potential for surface P and, consequently, for life on that planet's surface. Therefore, we urge the stellar abundance community to make P observations a priority in future studies and telescope designs.

Item Type: Article
Subjects: STM Digital > Physics and Astronomy
Depositing User: Unnamed user with email support@stmdigital.org
Date Deposited: 19 May 2023 07:27
Last Modified: 19 Sep 2024 09:51
URI: http://research.asianarticleeprint.com/id/eprint/905

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