Litcius/Paper detail

Organic matter and water from asteroid Itokawa

Q. H. S. Chan, A. Stephant, I. A. Franchi, Xuyang Zhao, R. Brunetto, Yoko Kebukawa, T. Noguchi, D. A. Johnson, M. C. Price, Kathryn Harriss, M. E. Zolensky, M. M. Grady

2021Scientific Reports31 citationsDOIOpen Access PDF

Abstract

Abstract Understanding the true nature of extra-terrestrial water and organic matter that were present at the birth of our solar system, and their subsequent evolution, necessitates the study of pristine astromaterials. In this study, we have studied both the water and organic contents from a dust particle recovered from the surface of near-Earth asteroid 25143 Itokawa by the Hayabusa mission, which was the first mission that brought pristine asteroidal materials to Earth’s astromaterial collection. The organic matter is presented as both nanocrystalline graphite and disordered polyaromatic carbon with high D/H and 15 N/ 14 N ratios (δD = + 4868 ± 2288‰; δ 15 N = + 344 ± 20‰) signifying an explicit extra-terrestrial origin. The contrasting organic feature (graphitic and disordered) substantiates the rubble-pile asteroid model of Itokawa, and offers support for material mixing in the asteroid belt that occurred in scales from small dust infall to catastrophic impacts of large asteroidal parent bodies. Our analysis of Itokawa water indicates that the asteroid has incorporated D-poor water ice at the abundance on par with inner solar system bodies. The asteroid was metamorphosed and dehydrated on the formerly large asteroid, and was subsequently evolved via late-stage hydration, modified by D-enriched exogenous organics and water derived from a carbonaceous parent body.

Topics & Concepts

AsteroidAstrobiologySolar SystemOrganic matterParent bodyGeologyEarth scienceMeteoritePhysicsChemistryChondriteOrganic chemistryAstro and Planetary ScienceDiamond and Carbon-based Materials ResearchHigh-pressure geophysics and materials