Tag Archives: mars surface

Mars cracks show water dried up 3.5 billion years ago on Red Planet

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The recent discovery of cracks on the surface of Mars by NASA’s Curiosity rover last year have been analyzed by scientists to realize that these lakes could have dried up 3.5 billion years ago.

In early 2017, the desiccation cracks were found in Gale Crater, which was believed to have been filled by lakes 3.5 billion years ago. “We are now confident that these are mudcracks,” declared lead author Nathaniel Stein, a geologist at the California Institute of Technology in Pasadena, US.

These cracks form when wet sediment is exposed to air, their position closer to the centre of the lake bed rather than the edge suggests that lake levels went up and down over time.

“The mudcracks show that the lakes in Gale Crater had gone through the same type of cycles that we see on Earth,” Stein said. Traces of water once on Mars was not a new finding but the fact that the mudcracks are found, it may further lead to “to our understanding of this ancient lacustrine system”, said Stein, whose paper was published in the journal Geology.

“This research is just a chapter in a story that Curiosity has been building since the beginning of its mission,” he said.

For the study, the team examined a table-sized slab of rock nicknamed “Old Soaker”, which is a crisscrossing with polygons similar to desiccation features found on Earth.

The scientists found that the polygons are confined to a single layer of rock and with sediment filling the cracks between them, which is usually formed from exposure to air, and not due to hydraulic fracturing.

NASA captures in-depth images of strange formations on Mars

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The Mars Reconnaissance Orbiter has captured some strange formations on the surface of the Red Planet with its Context Camera giving clues about the measurements of one impact crater with a central peak and another collapse depression with concentric troughs.

Gullies on Martian sand dunes found on Matara Crater, have been very active, with many flows seen in the last ten years. These flows typically occur when seasonal frost is present on the Red Planet. There are no fresh flows so far this year, but HiRISE will keep watching, said NASA in a statement.

The imgages shared by the US space agency reveal a trough in a close-up, along with some channels receding into the depression. Some grooved material on the floor of the trough resemble similar formations visible in middle latitude region with glacial flow. Origin of these trough, visible in other regions of Mars are still elusive.

NASA’s image CTX 033783_1509 was captured by MRO’s Context Camera that has a larger viewing angle than HiRISE, though its resolution is limited compared to the latter. The original image scale is 51.3 centimeters (20.2 inches) per pixel (with 2 x 2 binning); objects at 154 centimeters (60.6 inches) across are resolved but the current image is at a scale of 50 centimeters (19.7 inches) per pixel. North is up.

Lobo Vallis rippples

In another image, NASA’s Mars Reconnaissance Orbiter has shown bright ripples,lining the topography in this region, formed within a past climate. Dark dunes and sand streaks of basaltic sand have moved and filled lower areas, pushed by more recent winds from the top towards the bottom of this image. Lobo Vallis is named for a river on the Ivory Coast.

(NASA)

The map is projected here at a scale of 50 centimeters (19.7 inches) per pixel. [The original image scale is 57.7 centimeters (22.6 inches) per pixel (with 2 x 2 binning); objects on the order of 173 centimeters (68.1 inches) across are resolved.] North is up.

Mars Reconnaissance Orbiter (MRO) is a multipurpose spacecraft that is conducting reconnaissance and exploration of Mars from orbit since March 2006, to join five other Mars missions — Mars Global Surveyor, Mars Express, 2001 Mars Odyssey, and the two Mars Exploration Rovers (Spirit and Opportunity) — sent earlier to survey the surface of the Mars.

MRO’s telecommunications system has transferred more data back to Earth than all previous interplanetary missions combined, and it serves as a highly capable relay satellite for future missions, with a lifespan to last for two more decades.

The University of Arizona, Tucson, operates HiRISE and NASA’s Jet Propulsion Laboratory (JPL) manages the Mars Reconnaissance Orbiter Project for NASA’s Science Mission Directorate, Washington.