Back to Search Start Over

Mercury's hollows: Constraints on formation and composition from analysis of geological setting and spectral reflectance

Authors :
Sean C. Solomon
W. M. Vaughan
Brett W. Denevi
Jörn Helbert
Alessandro Maturilli
Zhiyong Xiao
Carolyn M. Ernst
Mario D'Amore
David T. Blewett
James W. Head
Nancy L. Chabot
Source :
Journal of Geophysical Research: Planets. 118:1013-1032
Publication Year :
2013
Publisher :
American Geophysical Union (AGU), 2013.

Abstract

[1] Landforms unique to Mercury, hollows are shallow, flat-floored irregular depressions notable for their relatively high reflectance and characteristic color. Here we document the range of geological settings in which hollows occur. Most are associated with impact structures (simple bowl-shaped craters to multiring basins, and ranging from Kuiperian to Calorian in age). Hollows are found in the low-reflectance material global color unit and in low-reflectance blue plains, but they appear to be absent from high-reflectance red plains. Hollows may occur preferentially on equator- or hot-pole-facing slopes, implying that their formation is linked to solar heating. Evidence suggests that hollows form because of loss of volatile material. We describe hypotheses for the origin of the volatiles and for how such loss proceeds. Intense space weathering and solar heating are likely contributors to the loss of volatiles; contact heating by melts could promote the formation of hollows in some locations. Lunar Ina-type depressions differ from hollows on Mercury in a number of characteristics, so it is unclear if they represent a good analog. We also use MESSENGER multispectral images to characterize a variety of surfaces on Mercury, including hollows, within a framework defined by laboratory spectra for analog minerals and lunar samples. Data from MESSENGER's X-Ray Spectrometer indicate that the planet's surface contains up to 4% sulfur. We conclude that nanophase or microphase sulfide minerals could contribute to the low reflectance of the low-reflectance material relative to average surface material. Hollows may owe their relatively high reflectance to destruction of the darkening agent (sulfides), the presence of alteration minerals, and/or physical differences in particle size, texture, or scattering behavior.

Details

ISSN :
21699097
Volume :
118
Database :
OpenAIRE
Journal :
Journal of Geophysical Research: Planets
Accession number :
edsair.doi...........28f0a42b56fbd65914f673f4f0bba632