Litcius/Paper detail

Nitrogen- and oxygen-rich organic material indicative of polymerization in pre-aqueous cryochemistry on Bennu’s parent body

Scott A. Sandford, Z. Gainsforth, Michel Nuevo, Matthew A. Marcus, Hans A. Bechtel, R. C. Ogliore, Clive G. Jones, G. Domínguez, D. P. Glavin, Jason P. Dworkin, T. J. McCoy, S. S. Russell, T. J. Zega, H. C. Connolly, D. S. Lauretta

2025Nature Astronomy8 citationsDOIOpen Access PDF

Abstract

Nitrogen-containing organic compounds play key biological roles, and their identification in primitive astromaterials such as meteorites can shed light on the origin of life. However, meteorites are typically contaminated by uncontrolled exposure to Earth. Here we show that pristine samples returned from asteroid Bennu contain polymeric organics exceptionally rich in nitrogen and oxygen. These polymers contain a variety of functional groups including amines, amides, N-heterocycles, and aliphatic and aromatic hydrocarbons, among others. They are seen in a carbonaceous vein with mineral inclusions and in multilayered organic sheets. Their morphology and composition indicate formation from pre-aqueous N-rich precursors and later modification during aqueous alteration. These findings demonstrate that asteroids like Bennu contain complex nitrogen-rich organic phases formed by pre-aqueous and aqueous processes, and they expand the known inventory of potential prebiotic extraterrestrial compounds.

Topics & Concepts

MeteoriteChemistryPolymerizationAqueous solutionParent bodyPolymerAsteroidNitrogenMineralPolymer chemistryAstrobiologyAbiogenesisOrganic chemistryAqueous mediumExtraterrestrial lifeChondriteCarbonaceous chondriteEarth (classical element)PrebioticChemical compositionChemical engineeringAstro and Planetary ScienceAstrophysics and Star Formation StudiesOrigins and Evolution of Life