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Salt water may periodically form on the surface of mars

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Washington D.C [US], Feb 13 (ANI): Briny water may form on the surface of Mars a few days per year, research by Planetary Science Institute (PSI) Senior Scientist Norbert Schorghofer shows.
Liquid water is difficult to come by on Mars because ice rapidly dissipates, or sublimates, into the atmosphere long before it reaches its melting point. That is because the atmospheric pressure on Mars lies near the triple point pressure of H2O, the minimum pressure necessary for liquid water to exist.
“Mars has plenty of cold ice-rich regions and plenty of warm ice-free regions, but icy regions where the temperature rises above the melting point are a sweet spot that is nearly impossible to find. That sweet spot is where liquid water would form,” Schorghofer was quoted as saying.
The process works as follows: a boulder sitting on the surface at mid-latitudes casts a shadow in winter. The continually shadowed area behind the boulder is very cold, so cold that water ice accumulates in winter. When the Sun rises again in spring, the ice suddenly heats up. In detailed model calculations, the temperature rises from -128 degrees Celsius in the morning to -10 degrees Celsius at noon, a huge change over a quarter of a day. Over such a short time, not all of the frost is lost to the atmosphere.
Salt depresses the melting point of H2O, so on the salt-rich ground, water ice will melt at -10 degrees Celsius. Brines, or salty water, will form until all of the ice has either turned to liquid or vapour. Next Mars year, the same process repeats.
The shadowed areas behind the boulders are so cold in winter that not only water frost but also carbon dioxide ice builds up. For Mars, the first day without carbon dioxide ice in spring is called the “crocus date.” Melting occurs on or immediately after the crocus date, and therefore the term “crocus melting”.
“Answering the question whether crocus melting of seasonal water ice actually occurs on Mars required a slew of detailed quantitative calculations — the numbers really matter,” Schorghofer said. “It took decades to develop the necessary quantitative models.”
Schorghofer’s paper “Mars: Quantitative evaluation of crocus melting behind boulders” appears in the Astrophysics Journal.
Schorghofer’s work was funded by a grant to PSI from NASA’s Habitable Worlds program. (ANI)


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