Mare Smythii
The Smythii basin where the mare is located is of the Pre-Nectarian epoch, while the surrounding features are of the Nectarian system. It is contained within a minimal diameter of 373.97 km, and has been excavated to a depth of 4 km. The mare material, which makes up the floor of the mare, is a low alumina basalt, and consists of Upper Imbrian basalt covered by Eratosthenian basalt. Features observed within the basin include wrinkle ridges, submerged "ghost" craters, domes, crater chains, and rilles.
The overall shape of the mare is circular, likely the result of a large impact. Further bombardment followed, creating the irregular shape. Subsequent volcanism laid down the mare material. As a result of this sequence, only the northeastern portion and a smaller area in the western central contain significant regions of smooth mare material. The remaining surface is more hummocky with a higher albedo. The geological features suggest that lava flowed from the southeast and west toward the northeast, where it accumulated in the lowest parts of the basin. Mare Smythii contains a relatively high number of craters with fractured floors, including the noticeably unusual crater Haldane. This is probably a result of uplift from injection of magma below the mare.
The crater Neper is located to the north of the mare. This crater makes up part of the southern rim of Mare Marginis. Just off to the northwest of the mare are the craters Schubert and Schubert B. The dark mare-filled crater at the southern edge of Smythii is the crater Kästner.
Gallery
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The topography (top) and corresponding gravity (bottom) signal of Mare Smythii reveals a mascon in its center
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Topographic map
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Gravity map based on GRAIL
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View from Apollo 10
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Oblique view from Apollo 16
References
- ^ "Mare Smythii". Gazetteer of Planetary Nomenclature. USGS Astrogeology. Retrieved 2017-06-05.
- ^ Whitford-Stark, J. L. (1980). "Lunar Surface Morphology and Stratigraphy - a Remote Sensing Synthesis". Journal of the British Astronomical Association. 90: 312. Bibcode:1980JBAA...90..312W.
- ^ Andre, C. G.; et al. (1977). Chemical character of the partially flooded Smythii Basin based on Al/Si orbital X-ray data. Proceedings of the Lunar Science Conference, 8th, Houston, Tex., March 14-18, 1977. Vol. 1. New York: Pergamon Press, Inc. pp. 925–931. Bibcode:1977LPSC....8..925A.
- ^ Greeley, R.; et al. (March 1977). Volcanic Features of the Smythii Basin. Abstracts of the Lunar and Planetary Science Conference. Vol. 8. p. 371. Bibcode:1977LPI.....8..371G.
- ^ Brennan, W. J. (March 1975). "Evolution of Mare Smythii". Abstracts of the Lunar and Planetary Science Conference. 6: 86. Bibcode:1975LPI.....6...86B.
- ^ Shirao, Motomaro; Wood, Charles A. (2011). The Kaguya Lunar Atlas: The Moon in High Resolution. Springer Publications. See plate 6: Mare Smythii.
- ^ Wichman, R. W.; Schultz, P. H. (1995). "Floor-fractured craters in Mare Smythii and west of Oceanus Procellarum: Implications of Crater Modification by Viscous Relaxation and Igneous Intrusion Models". Journal of Geophysical Research. 100 (E10): 21201–21218. Bibcode:1995JGR...10021201W. doi:10.1029/95JE02297.