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Coordinated Analysis of Phosphates in Samples From Asteroid (101955) BennuAsteroid (101955) Bennu is a B-type asteroid and a prime candidate for investigating the remnants of planet formation and enhancing our understanding of potential sources of crucial bio-essential elements for the early Earth. Remote observations of the surface of Bennu unveiled a terrain of boulders primarily composed of hydrated phyllosilicates, organic molecules, and carbonates. The hydrated nature of Bennu, the abundance of carbonates, and the presence of cm-scale carbonate veins provide clues to the nature of the building blocks of Bennu’s parent body and to its complex geological history. Here we present the first mineralogical, chemical, and isotopic results of analysis of phosphates in samples returned from Bennu by NASA’s OSIRIS-REx mission. We seek to test the hypothesis that heating of Bennu’s parent asteroid resulted in hydrothermal alteration in which melted ice reacted with the initial constituents.
Document ID
20240000339
Acquisition Source
Johnson Space Center
Document Type
Conference Paper
Authors
J. J. Barnes (University of Arizona Tucson, United States)
P. Haenecour ORCID(University of Arizona Tucson, United States)
L. R. Smith ORCID(University of Arizona Tucson, United States)
I. J. Ong (University of Arizona Tucson, United States)
Z. E. Wilbur ORCID(University of Arizona Tucson, United States)
F. Jourdan ORCID(Curtin University Perth, Australia)
A. J. King ORCID(Natural History Museum London, Westminster, United Kingdom)
T. J. McCoy ORCID(National Museum of Natural History Washington, United States)
S. S. Russell ORCID(Natural History Museum London, Westminster, United Kingdom)
L. P. Keller ORCID(Johnson Space Center Houston, United States)
N. E. Timms (Curtin University Perth, Australia)
W. D. A. Rickard (Curtin University Perth, Australia)
P. Bland (Curtin University Perth, Australia)
D. Saxey (Curtin University Perth, Australia)
S. Reddy (Curtin University Perth, Australia)
T. Ireland ORCID(University of Queensland Brisbane, Australia)
H. Yurimoto ORCID(Hokkaido University Sapporo, Hokkaidô, Japan)
L. Chaves (University of Arizona Tucson, United States)
E. Bloch (University of Arizona Tucson, United States)
I. A. Franchi ORCID(The Open University Milton Keynes, United Kingdom)
X. Zhao ORCID(The Open University Milton Keynes, United Kingdom)
T. J. Zega ORCID(University of Arizona Tucson, United States)
M. S. Thompson (Purdue University West Lafayette West Lafayette, United States)
R. Jones ORCID(University of Manchester Manchester, United Kingdom)
A. Nguyen (Johnson Space Center Houston, United States)
H. C. Connolly, Jr ORCID(University of Arizona Tucson, United States)
D. S. Lauretta ORCID(University of Arizona Tucson, United States)
Date Acquired
January 9, 2024
Publication Date
March 11, 2024
Publication Information
Publisher: Lunar and Planetary Institute
Subject Category
Lunar and Planetary Science and Exploration
Meeting Information
Meeting: 55th Lunar and Planetary Science Conference (LPSC)
Location: The Woodlands, TX
Country: US
Start Date: March 11, 2024
End Date: March 15, 2024
Sponsors: Lunar and Planetary Institute, National Aeronautics and Space Administration
Funding Number(s)
WBS: 828928.04.02.04.01
CONTRACT_GRANT: NNM10AA11C
Distribution Limits
Public
Copyright
Portions of document may include copyright protected material.
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