Diedrich Moehlmann, DLR, set out to convince us that liquid
water can and does temporarily exist between two surfaces such as two grains of
rock in the upper surface of Mars today and to indicate where it may be found.
have only confirmed water ice and atmospheric water vapour. Water vapour can
reach saturation in the current atmosphere of Mars, which makes it favourable
for it to be bound to a surface. The Mars Phoenix lander found direct
indication for liquid droplets on Mars.
Water in the upper surface of present Mars, shown by hydrogen
soil which is indicated by deep blue in this false-colour map of Mars
Credit: NASA/Feldman (Neutron spectrometer, Mars Odyssey)
Moehlmann introduced the concept of ‘deliquescence’ – a
process that temporarily liquefies salts by uptake of atmospheric water.
Deliquescence is a key process to repetitively form liquid brines on present
Mars, as it can operate at remarkably low relative humidity. Iinner walls of
cracks could be temporarily covered, and narrow tips filled, by liquid
capillary networks, which would be protected habitats in the porous surface of
Mars. Some recent flow-like events seen from features such as gullies on Mars
may have been caused by growth of such a subsurface capillary network, with a
sudden release of temporary liquid brines. These networks could be a possible
environment that may be favourable to support life processes.
Click here for the full abstract of his presentation at EGU 2013.