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Lower atmospheric processes, such as convection, dust storms and gravity waves, are vital to understanding how Mars lost its water, writes Erdal Yigit in a Perspective. It's widely thought that most of Mars' water was slowly lost to space as hydrogen over several billion years.
According to standard models, water molecules, broken apart by sunlight in the lower Martian atmosphere, form fre Lower atmospheric processes, such as convection, dust storms and gravity waves, are vital to understanding how Mars lost its water, writes Erdal Yigit in a Perspective. It's widely thought that most of Mars' water was slowly lost to space as hydrogen over several billion years.
According to standard models, water molecules, broken apart by sunlight in the lower Martian atmosphere, form free hydrogen, which further dissipates into the upper atmosphere and floats off into space. But many details concerning this atmospheric hydrogen escape remain uncertain.
Recent in situ observations have revealed that water can be transported directly into the upper atmosphere and converted into hydrogen by atmospheric ions. However, in these assessments, the role of lower atmospheric weather and variability produced by atmospheric gravity waves in this process are insufficiently explored.
Yigit argues that the processes that led to the loss of water on Mars are complex and require a whole-atmosphere perspective to understand. Here, the author describes how lower atmospheric processes influence the loss of Martian water to space, particularly the important mechanism of vertical coupling, or upward-propagating lower atmospheric gravity waves, which can potentially drive water transport to the thermosphere through wave-induced fluctuations of temperature in density.
"Future coincident coordinated observations are required to constrain models and wave activity, and to help characterize the whole-atmosphere distribution of water and its constituents," writes Yigit. "Using several current observational capabilities such as ExoMars TGO, MAVEN, and Mars Reconnaissance Orbiter in complimentary ways may help accomplish this lofty goal."
Research Report: Martian water escape and internal waves
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Brief presence of water in Arabia Terra on Mars
Flagstaff AZ (SPX) Dec 02, 2021
NAU PhD candidate Ari Koeppel, as part of a team of scientists from Northern Arizona and Johns Hopkins Universities, recently discovered that water was once present in a unique but brief manner in a region of Mars called Arabia Terra. Arabia Terra is in the northern latitudes of Mars. Named in 1879 by Italian astronomer Giovanni Schiaparelli, this ancient land covers an area slightly larger than the European continent. Arabia Terra contains craters, volcanic calderas, canyons, and beautiful bands ... read more