Abundant Ammonia in Primitive Asteroids and the Case for a Possible Exobiology

Overview

Journal Proc Natl Acad Sci U S A

Specialty Science

Date 2011 Mar 4

PMID 21368183

Citations 16

Authors

Sandra Pizzarello

Lynda B Williams

Jennifer Lehman

Gregory P Holland

Jeffery L Yarger

Affiliations

Soon will be listed here.

Abstract

Carbonaceous chondrites are asteroidal meteorites that contain abundant organic materials. Given that meteorites and comets have reached the Earth since it formed, it has been proposed that the exogenous influx from these bodies provided the organic inventories necessary for the emergence of life. The carbonaceous meteorites of the Renazzo-type family (CR) have recently revealed a composition that is particularly enriched in small soluble organic molecules, such as the amino acids glycine and alanine, which could support this possibility. We have now analyzed the insoluble and the largest organic component of the CR2 Grave Nunataks (GRA) 95229 meteorite and found it to be of more primitive composition than in other meteorites and to release abundant free ammonia upon hydrothermal treatment. The findings appear to trace CR2 meteorites' origin to cosmochemical regimes where ammonia was pervasive, and we speculate that their delivery to the early Earth could have fostered prebiotic molecular evolution.

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