Craters, lava flows and tectonic features near Ma'adim Vallis

After Valles Marineris, Ma'adim Vallis is one of the largest canyons on Mars. The region, lying south-east of Ma'adim Vallis, was imaged on 24 December 2008. The pictures are centred at about 29°S and 182°E and have a ground resolution of 15 m/pixel.

Ma'adim Vallis is located between the volcanic region of Tharsis, which harbours four volcanoes, including the largest in the Solar System, and the Hellas Planitia impact basin. The canyon, 20 km wide and 2 km deep, originates in the southern highlands close to the 'dichotomy boundary' and ends in Gusev crater. The dichotomy boundary is a narrow region separating the cratered highlands, located mostly in the southern hemisphere of Mars, from the northern hemisphere's lowland plains.

The images cover 138 x 70 km, roughly the size of Cyprus. A sharp boundary is visible in the centre, dividing dark material to the west and light material to the east. Scientists suspect that this feature is most likely the edge of a basaltic lava flow.

Wrinkle ridges are clearly visible on the surface of the lava flow. They were most likely formed by compressive forces.

To the north is a crater, almost 20 km in size. It is partially filled with lava, which shows that it must have formed before the lava set in. The smaller, 7 km crater at the southern edge of the larger crater must have formed later because it has an ejecta blanket that may have formed from material rich in water-ice ejected during impact.

A linear feature, more than 200 km long, divides the image almost in the centre. It is most likely a trough associated with the uprising of the Tharsis volcanic region in the north-east. The uprising may have created a lot of stress in the crust which was released when the fracture zones formed, creating the trough.

High resolution image. Credit: ESA/DLR/FU Berlin (G. Neukum)




This ortho-image was rectified using elevation data derived from a high-resolution Digital Terrain Model, or DTM (obtained from HRSC data), such that distortions introduced during imaging are corrected. Such an image can be used to derive maps. Elevation data from the DTM has been colour-coded and overlain on the ortho-image so that elevation data and the image itself are displayed in a single scene. The scale is in metres. High resolution image. Credit: ESA/DLR/FU Berlin (G. Neukum)




High resolution image. Credit: ESA/DLR/FU Berlin (G. Neukum)




High resolution image. Credit: ESA/DLR/FU Berlin (G. Neukum)




High resolution image. Credit: ESA/DLR/FU Berlin (G. Neukum)

Source: Jet Propulsion Laboratory
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