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Virtual Vista: Ophir Chasma and Aureum Chaos, Mars

Mass wasting processes are common across the surface of Earth, and it appears similar processes have been common at some point during Mars' evolution. During the Viking missions of the late 1970's, a number of remarkable images of apparent mass wasting features on the Martian surface were obtained. Presently, the Mars Orbital Camera onboard the Mars Global Surveyor is acquiring high-resolution images of the Martian surface.

On Earth, large landslides are often triggered when oversteepened slopes become water-saturated and gravity causes the mass to slide. The occurrence of features on Mars with similar morphologies has fueled speculation regarding the potential role of liquid water during some interval of the planet's history.

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Image from NASA/JPL/Malin Space Science Systems (MOC-E03-02064)

The image above shows spectacular landslides along a portion of the northern wall of Ophir Chasma within the great equatorial canyon complex, Valles Marineris. Evidence of the influence of a fluid (possibly water) on development of these landslides is suggested by the apparent fluid nature of the slides and the occurrence of gullies or channels reminiscent of outflow gullies and channels observed emanating from large landslides on Earth.

Not all mass wasting processes on Mars have Earthly counterparts, however. The image below shows a portion of Aureum Chaos, one of many so-called chaotic terrains on Mars. Vast areas of the Martian surface are covered by chaotic terrains that appear to be composed of large blocks of Martian crustal rocks that disintegrated and were carried as debris avalanches and flows great distances across the Martian landscape.

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Image from NASA/JPL/Malin Space Science Systems (MOC-M19-00123).

The chaotic terrains are believed to have formed when large areas of frozen subsurface fluids (perhaps water) thawed causing the overlying crustal material to lose support and fail over a large area. Note the labeled impact crater within the chaotic terrain - this crater clearly post-dates the catastrophic failure of the Martian crust.

Additional images of Mars surface taken with the Mars Orbital Camera can be accessed at Malin Space Science Systems on the World Wide Web.








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