Planetary mass spectrometry for agnostic life detection in the Solar system
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Published version
Date
2021
Authors
Chou, Luoth
Mahaffy, Paul
Trainer, Melissa
Eigenbrode, Jennifer
Arevalo, Ricardo
Brinckerhoff, William
Getty, Stephanie
Grefenstette, Natalie
Da Poian, Victoria
Fricke, G. Matthew
Version
OA Version
Citation
L. Chou, P. Mahaffy, M. Trainer, J. Eigenbrode, R. Arevalo, W. Brinckerhoff, S. Getty, N. Grefenstette, V. Da Poian, G.M. Fricke, C.P. Kempes, J. Marlow, B. Sherwood Lollar, H. Graham, S.S. Johnson. "Planetary Mass Spectrometry for Agnostic Life Detection in the Solar System." Frontiers in Astronomy and Space Sciences, Volume 8, https://doi.org/10.3389/fspas.2021.755100
Abstract
For the past fifty years of space exploration, mass spectrometry has provided unique chemical and physical insights on the characteristics of other planetary bodies in the Solar System. A variety of mass spectrometer types, including magnetic sector, quadrupole, time-of-flight, and ion trap, have and will continue to deepen our understanding of the formation and evolution of exploration targets like the surfaces and atmospheres of planets and their moons. An important impetus for the continuing exploration of Mars, Europa, Enceladus, Titan, and Venus involves assessing the habitability of solar system bodies and, ultimately, the search for life—a monumental effort that can be advanced by mass spectrometry. Modern flight-capable mass spectrometers, in combination with various sample processing, separation, and ionization techniques enable sensitive detection of chemical biosignatures. While our canonical knowledge of biosignatures is rooted in Terran-based examples, agnostic approaches in astrobiology can cast a wider net, to search for signs of life that may not be based on Terran-like biochemistry. Here, we delve into the search for extraterrestrial chemical and morphological biosignatures and examine several possible approaches to agnostic life detection using mass spectrometry. We discuss how future missions can help ensure that our search strategies are inclusive of unfamiliar life forms.
Description
License
Copyright © 2021 Chou, Mahaffy, Trainer, Eigenbrode, Arevalo, Brinckerhoff, Getty, Grefenstette, Da Poian, Fricke, Kempes, Marlow, Sherwood Lollar, Graham and Johnson. This is an open-access article distributed under the terms of the Creative Commons Attribution License (CC BY). The use, distribution or reproduction in other forums is permitted, provided the original author(s) and the copyright owner(s) are credited and that the original publication in this journal is cited, in accordance with accepted academic practice. No use, distribution or reproduction is permitted which does not comply with these terms.