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New Views of the Moon: Improved Understanding Through Data IntegrationUnderstanding the Moon is crucial to future exploration of the solar system.The Moon preserves a record of the first billion years of the Earth-Moon system's history, including evidence of the Moon's origin as accumulated debris from a giant impact into early Earth. Lunar rocks provide evidence of early differentiation and extraction of a crust. Lacking an atmospheric shield, the Moon's regolith retains a record of the activity of solar wind over the past 4 billion years. It also holds a complete record of impact cratering, and analysis of samples has allowed calibration of ages, and thus dating of other planetary surfaces. And because of its proximity to Earth, it's low gravity well, and stable surface, the Moon's resources will be useful both in establishing lunar habitations and as fuel for exploration beyond the Moon. Lunar science has advanced tremendously in the 30 years since the Apollo and Luna missions. We know that the Moon is strongly differentiated, and recent tungsten isotope studies indicate that this differentiation occurred soon after solar system formation. The Moon probably accreted rapidly from debris that formed as a large planetesimal struck the early Earth. Ancient highland rocks provide evidence of early lunar differentiation, and basalts formed by later melting within the mantle reveal it cumulus nature. However, the timing, extent, and depth of differentiation, variations within the mantle, and lateral and vertical variations within the crust can only be surmised from the limited sample suites,gravity studies,and surface geophysics of the Apollo era. Data from the recent Lunar Prospector and Clementine missions permit reassessment of the global characteristics of the Moon and a reexamination of the distribution of elemental components, rock and soil types, and resources, as well as remanent magnetism, gravity field, and global topography New research provides some answers, but also leads to new questions.
Document ID
20010005229
Acquisition Source
Headquarters
Document Type
Reprint (Version printed in journal)
Authors
Jolliff, B. L.
(Washington Univ. Saint Louis, MO United States)
Gaddis, L. R.
(Washington Univ. Saint Louis, MO United States)
Ryder, G.
(Washington Univ. Saint Louis, MO United States)
Neal, C. R.
(Washington Univ. Saint Louis, MO United States)
Shearer, C. K.
(Washington Univ. Saint Louis, MO United States)
Elphic, R. C.
(Washington Univ. Saint Louis, MO United States)
Johnson, J. R.
(Washington Univ. Saint Louis, MO United States)
Keller, L. P.
(Washington Univ. Saint Louis, MO United States)
Korotev, R. L.
(Washington Univ. Saint Louis, MO United States)
Lawrence, D. J.
(Washington Univ. Saint Louis, MO United States)
Date Acquired
August 20, 2013
Publication Date
August 1, 2000
Publication Information
Publication: Eos, Transactions
Publisher: American Geophysical Union
Volume: 81
Issue: 31
ISSN: 0096-3941
Subject Category
Lunar And Planetary Science And Exploration
Distribution Limits
Public
Copyright
Other

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