Yesterday NASA released the image below, which shows an area of Mars with a quite interesting landslide. It was collected by Mars Odyssey THEMIS (acknowledgement to NASA/JPL/Arizona State University):
Fig 1: Mars Odyssey THEMIS (acknowledgement to NASA/JPL/Arizona State University) image showing a landslide on Mars. At first the landslide might not be obvious, but look closely on the centre right side - it is clear that the slide is a ridge failure with a reasonably long run-out. I have zoomed into the image to show the landslide below (Fig. 2):
Fig 2: Enlargement of Mars Odyssey THEMIS (acknowledgement to NASA/JPL/Arizona State University) image showing a landslide on Mars.I have processed and annotated the image (Fig. 3) to highlight some key features. I think (though this is unconfirmed) that the landslide is about 2 km wide and 6 km long. Note that the presumably more resistant material that forms the ridge appears to be intact on the landslide body. The landslide has two smaller failures on its flank. Finally, it also appears to have a few small craters on it, which presumably means that it is not too recent (UPDATE: thanks to Dr Mauri McSaveney for pointing out that not too recent in this case probably means 2-3 billion years old).
Fig 3: Annotated enlargement of the Mars Odyssey THEMIS (acknowledgement to NASA/JPL/Arizona State University) image showing a landslide on Mars (Click on the image for a better view in a new window).Similar landslides do occur on Earth. For example, Fig. 4 shows the Frank landslide, which I have described before. Note that in the Mars case the slipped block has only partially broken up, whilst at Frank it disintegrated completely to form a rapid flow. I am sure that there are better examples from Earth, but I cannot think of them at the moment. Can anyone come up with one?
Fig 4: Natural Resources Canada photograph of the Frank landslide, Turtle Mountain, Alberta, Canada.
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