Investigating the transition from central peak to peak-ring basins using central feature volume measurements from the Global Lunar DTM 100 m

Veronica J. Bray; Corwin Atwood-Stone; Alfred M. McEwen

doi:10.1029/2012GL053693

Investigating the transition from central peak to peak-ring basins using central feature volume measurements from the Global Lunar DTM 100 m

Veronica J. Bray, Corwin Atwood-Stone, Alfred M. McEwen

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15 Scopus citations

Abstract

Several theories have been suggested to explain the transition from peak to peak-ring crater morphology. In order to explore the transition and assess the currently advocated peak-ring formation theories, we have collected measurements of central feature volumes and heights for relatively fresh lunar impact craters. We employed the Global Lunar DTM 100 m, which has the vertical precision and spatial coverage necessary to accurately measure peak and peak-ring volumes in more craters than previously possible. The similarity in both trend and magnitude of peak and peak-ring volumes suggests that peak-ring formation is closely related to the development of central peaks as crater size increases. Our data thus lends support to those peak-ring formation theories involving peak collapse.

Original language	English (US)
Article number	L21201
Journal	Geophysical Research Letters
Volume	39
Issue number	21
DOIs	https://doi.org/10.1029/2012GL053693
State	Published - Nov 1 2012

ASJC Scopus subject areas

Geophysics
General Earth and Planetary Sciences

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10.1029/2012GL053693

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abstract = "Several theories have been suggested to explain the transition from peak to peak-ring crater morphology. In order to explore the transition and assess the currently advocated peak-ring formation theories, we have collected measurements of central feature volumes and heights for relatively fresh lunar impact craters. We employed the Global Lunar DTM 100 m, which has the vertical precision and spatial coverage necessary to accurately measure peak and peak-ring volumes in more craters than previously possible. The similarity in both trend and magnitude of peak and peak-ring volumes suggests that peak-ring formation is closely related to the development of central peaks as crater size increases. Our data thus lends support to those peak-ring formation theories involving peak collapse.",

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AU - McEwen, Alfred M.

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Y1 - 2012/11/1

N2 - Several theories have been suggested to explain the transition from peak to peak-ring crater morphology. In order to explore the transition and assess the currently advocated peak-ring formation theories, we have collected measurements of central feature volumes and heights for relatively fresh lunar impact craters. We employed the Global Lunar DTM 100 m, which has the vertical precision and spatial coverage necessary to accurately measure peak and peak-ring volumes in more craters than previously possible. The similarity in both trend and magnitude of peak and peak-ring volumes suggests that peak-ring formation is closely related to the development of central peaks as crater size increases. Our data thus lends support to those peak-ring formation theories involving peak collapse.

AB - Several theories have been suggested to explain the transition from peak to peak-ring crater morphology. In order to explore the transition and assess the currently advocated peak-ring formation theories, we have collected measurements of central feature volumes and heights for relatively fresh lunar impact craters. We employed the Global Lunar DTM 100 m, which has the vertical precision and spatial coverage necessary to accurately measure peak and peak-ring volumes in more craters than previously possible. The similarity in both trend and magnitude of peak and peak-ring volumes suggests that peak-ring formation is closely related to the development of central peaks as crater size increases. Our data thus lends support to those peak-ring formation theories involving peak collapse.

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Investigating the transition from central peak to peak-ring basins using central feature volume measurements from the Global Lunar DTM 100 m

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