Journal
ASTROBIOLOGY
Volume 22, Issue 4, Pages 481-493Publisher
MARY ANN LIEBERT, INC
DOI: 10.1089/ast.2021.0079
Keywords
Prebiotic chemistry; Life detection; Biosignatures; Complexity
Funding
- National Aeronautics and Space Administration [80NM0018D0004]
- NASA-NSF Ideas Lab for the Origins of Life
- JPL Research & Technology Development Strategic Initiative Fate of Organics on Ocean Worlds
- NASA Goddard Fellows Innovation Challenge
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The field of prebiotic chemistry studies the complex organic chemical systems that exhibit life-like properties, which can be produced abiotically in the laboratory. Understanding and interpreting organic signatures detected during planetary missions are crucial in astrobiology and life detection research, and involve gaining a deeper understanding of prebiotic/abiotic chemical possibilities in diverse planetary environments. Additionally, utilizing experimental prebiotic samples as analogues when generating comparison libraries for life-detection mission instruments is recommended.
The field of prebiotic chemistry has demonstrated that complex organic chemical systems that exhibit various life-like properties can be produced abiotically in the laboratory. Understanding these chemical systems is important for astrobiology and life detection since we do not know the extent to which prebiotic chemistry might exist or have existed on other worlds. Nor do we know what signatures are diagnostic of an extant or failed prebiotic system. On Earth, biology has suppressed most abiotic organic chemistry and overprints geologic records of prebiotic chemistry; therefore, it is difficult to validate whether chemical signatures from future planetary missions are remnant or extant prebiotic systems. The biosignature threshold between whether a chemical signature is more likely to be produced by abiotic versus biotic chemistry on a given world could vary significantly, depending on the particular environment, and could change over time, especially if life were to emerge and diversify on that world. To interpret organic signatures detected during a planetary mission, we advocate for (1) gaining a more complete understanding of prebiotic/abiotic chemical possibilities in diverse planetary environments and (2) involving experimental prebiotic samples as analogues when generating comparison libraries for life-detection mission instruments.
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