Flood Volcanism in the Northern High Latitudes of Mercury Revealed by MESSENGER

Flood Volcanism in the Northern High Latitudes of Mercury Revealed by MESSENGER

MESSENGER observations from Mercury orbit reveal that a large contiguous expanse of smooth plains covers much of Mercury's high northern latitudes and occupies more than 6% of the planet's surface area. These plains are smooth, embay other landforms, are distinct in color, show several flo...

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Veröffentlicht in:Science (American Association for the Advancement of Science) 2011-09, Vol.333 (6051), p.1853-1856
Hauptverfasser: Head, James W., Chapman, Clark R., Strom, Robert G., Fassett, Caleb I., Denevi, Brett W., Blewett, David T., Ernst, Carolyn M., Watters, Thomas R., Solomon, Sean C., Murchie, Scott L., Prockter, Louise M., Chabot, Nancy L., Gillis-Davis, Jeffrey J., Whitten, Jennifer L., Goudge, Timothy A., Baker, David M. H., Hurwitz, Debra M., Ostrach, Lillian R., Xiao, Zhiyong, Merline, William J., Kerber, Laura, Dickson, James L., Oberst, Jürgen, Byrne, Paul K., Klimczak, Christian, Nittler, Larry R.
Format: Artikel
Sprache:eng
Schlagworte:
Astronomy
Basalt
Earth
Earth, ocean, space
Earths Moon
Erosion
Exact sciences and technology
Geology
Impact basins
Impact craters
Lava
Lava fields
Mercury
Orbits
Planetary, asteroid, and satellite characteristics and properties
Planetology
Planets, their satellites and rings. Asteroids
Scientific Concepts
Solar system
Volcanism
Volcanism and tectonics
Volcanology
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Zusammenfassung:MESSENGER observations from Mercury orbit reveal that a large contiguous expanse of smooth plains covers much of Mercury's high northern latitudes and occupies more than 6% of the planet's surface area. These plains are smooth, embay other landforms, are distinct in color, show several flow features, and partially or completely bury impact craters, the sizes of which indicate plains thicknesses of more than 1 kilometer and multiple phases of emplacement. These characteristics, as well as associated features, interpreted to have formed by thermal erosion, indicate emplacement in a flood-basalt style, consistent with x-ray spectrometric data indicating surface compositions intermediate between those of basalts and komatiites. The plains formed after the Caloris impact basin, confirming that volcanism was a globally extensive process in Mercury's post—heavy bombardment era.
ISSN:0036-8075
1095-9203
DOI:10.1126/science.1211997