Giant Mars Volcano had a habitable environment
According to a new study, scientists have discovered that eruption of a volcano covered may have created large lakes on the surface of Mars which may have had a habitable environment.
Zee Media Bureau
New Delhi: According to a new study, scientists have discovered that eruption of a volcano covered may have created large lakes on the surface of Mars which may have had a habitable environment.
Researchers have found that Arisia Mons, the third tallest volcano on Mars and one of the largest mountains in the solar system erupted around the same time that the ice shelf covering the volcano was present, around 210 million years ago.
The heat from those eruptions would have melted massive amounts of ice to form englacial lakes - bodies of water that form within glaciers like liquid bubbles in a half-frozen ice cube.
Working with Brown geologist Jim Head, Boston University`s David Marchant, and Lionel Wilson from the Lancaster Environmental Centre in the UK, Scanlon looked for evidence that hot volcanic lava may have flowed in the region the same time that the glacier was present.
Using data from NASA`s Mars Reconnaissance Orbiter, Scanlon found pillow lava formations, similar to those that form on Earth when lava erupts at the bottom of an ocean. She also found the kinds of ridges and mounds that form on Earth when a lava flow is constrained by glacial ice. The pressure of the ice sheet constrains the lava flow, and glacial meltwater chills the erupting lava into fragments of volcanic glass, forming mounds and ridges with steep sides and flat tops. The analysis also turned up evidence of a river formed in a jokulhlaup, a massive flood that occurs when water trapped in a glacier breaks free.
Based on the sizes of the formations, Scanlon estimated how much lava would have interacted with the glacier. Using basic thermodynamics, she then calculated how much meltwater that lava would produce. She found that two of the deposits would have created lakes containing around 40 cubic kilometers of water each. That`s almost a third of the volume of Lake Tahoe in each lake. Another of the formations would have created around 20 cubic kilometers of water.
Even in the frigid conditions of Mars, that much ice-covered water would have remained liquid for a substantial period of time. Scanlon`s back-of-the-envelope calculation suggests the lakes could have persisted or hundreds or even a few thousand years.
The paper has been published in the journal Icarus.
(With Agency inputs)