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Margaritifer Terra is an ancient, heavily cratered region of Mars. It is centered just south of the Martian equator at 4°54′S 25°00′W / 4.9°S 25°W / -4.9; -25Coordinates: 4°54′S 25°00′W / 4.9°S 25°W / -4.9; -25 and covers 2600 km at its widest extent.[1] The area reveals "chaos terrain", outflow channels, and alluvial plains that are indicative of massive flooding. Wind erosion patterns are also in evidence. A region within the terra shows some of the highest valley network densities on the planet. Ares Vallis is another notable feature, where the flood and flow patterns are in evidence; it was the landing site of the Soviet Mars 6 lander[2] and NASA's Mars Pathfinder.[3] It is also one of several proposed landing sites for the Mars 2020 Rover.[4]

Holden and Eberswalde, craters in Margaritifer Terra, are thought to have formerly held lakes because they contain deltas and iron/magnesium smectite minerals which need water to form.[5] The Uzboi-Landon-Morava (ULM) system of paths for water flow is found in Margaritifer Terra.

Margaritifer Terra was named in 1979, after the Pearl Coast, south India. Part of it is found in the Margaritifer Sinus quadrangle and part in the Oxia Palus quadrangle.

LayersEdit

Some of the images from this region display layers. Many places on Mars show rocks arranged in layers. Rock can form layers in a variety of ways. Volcanoes, wind, or water can produce layers.[6] A detailed discussion of layering with many Martian examples can be found in Sedimentary Geology of Mars.[7]

Layers can be hardened by the action of groundwater. Martian ground water probably moved hundreds of kilometers, and in the process it dissolved many minerals from the rock it passed through. When ground water surfaces in low areas containing sediments, water evaporates in the thin atmosphere and leaves behind minerals as deposits and/or cementing agents. Consequently, layers of dust could not later easily erode away since they were cemented together.

On April 1, 2010, NASA released the first images under the HiWish program, with the public suggesting places for HiRISE to photograph. One of the eight locations was Aureum Chaos.[8] The first image below gives a wide view of the area. The next two images are from the HiRISE image.[9]

YardangsEdit

Other images of Margaritifer TerraEdit

See alsoEdit

ReferencesEdit

  1. ^ "Margaritifer Terra". Gazetteer of Planetary Nomenclature. USGS Astrogeology Research Program.
  2. ^ "Mars 6". US National Space Science Data Centre. Retrieved 12 April 2013.
  3. ^ "Mars Pathfinder Science Results". NASA. Archived from the original on 2008-09-20. Retrieved 2008-06-09. Cite uses deprecated parameter |dead-url= (help)
  4. ^ "Choosing a place to land NASA's next Mars rover". Arizona State University News. 16 May 2014. Retrieved 2014-05-17.
  5. ^ Murchie, S. et al. 2009. A synthesis of Martian aqueous mineralogy after 1 Mars year of observations from the Mars Reconnaissance Orbiter. Journal of Geophysical Research: 114.
  6. ^ "HiRISE | High Resolution Imaging Science Experiment". University of Arizona. Retrieved 2012-08-04.
  7. ^ Grotzinger, J. and R. Milliken (eds.). 2012. Sedimentary Geology of Mars. SEPM.
  8. ^ Captioned Images Inspired by HiWish Suggestions (HiRISE)
  9. ^ Okubo, Chris (31 March 2010). "Mesas in Aureum Chaos". HiRise. University of Arizona. Retrieved 11 June 2019.

External linksEdit