A new survey of multiring impact basins on Mars
- NASA Goddard Space Flight Center, Greenbelt, MD (USA)
Multiring impact basins have profoundly influenced the geologic evolution of Mars. The authors compile and summarize the evidence for Martian impact basins and suggest eight new examples. Multiring basins on Mars define three morphologic subclasses with increasing basin size. Basins having diameters 300 < D < 1,850 km are morphologically comparable to the classic lunar Orientale basin. Argyre type basins (1,850 < D < 3,600 km) are characterized by a rugged annulus and concentric grabens. The largest, Chryse type basins (D > 3,600 km) have extremely shallow topographic profiles and numerous concentric structures expressed as scarps, massifs, and channels. Radial and concentric structures analogous to those associated with Orientale are not apparent for basins of Argyre size or larger. These variations in basin morphology and structure may be associated with mechanical interactions between basin-forming impacts, relatively thin, weak lithosphere, and, for the largest impacts, spherical target geometry. Multiring basins are recognized on all parts of Mars, including Tharsis, Elysium, and the northern lowlands. Much of the subsequent resurfacing of cratered terrain such as Lunae Planum ridged plains is associated spatially with multiring basins. Nucleation of long-lived volcanic complexes in Tharsis and Elysium was probably aided by early impact basins. The planetary terrain dichotomy was probably established during the period of heavy meteoritic bombardment, and subsequent processes in the northern plains region were not sufficiently vigorous to destroy or completely obscure the underlying multiring basin fabric. The revised population of multiring basins is consistent with the size frequency distribution of craters < 500 km in diameter on Mars.
- OSTI ID:
- 5313983
- Report Number(s):
- CONF-9001119-; CODEN: JGREA; TRN: 91-023763
- Journal Information:
- Journal of Geophysical Research; (United States), Vol. 95:B9; Conference: 4. international conference on Mars, Tucson, AZ (United States), 10-13 Jan 1990; ISSN 0148-0227
- Country of Publication:
- United States
- Language:
- English
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Related Subjects
GENERAL PHYSICS
MARS PLANET
GEOLOGY
COLLISIONS
CRATERS
DENSITY
METEORITES
MORPHOLOGY
PLANET-SYSTEM ACCRETION
PLANETARY EVOLUTION
SIZE
TECTONICS
TOPOGRAPHY
VARIATIONS
VOLCANISM
CAVITIES
PHYSICAL PROPERTIES
PLANETS
SOLAR SYSTEM EVOLUTION
640107* - Astrophysics & Cosmology- Planetary Phenomena