NASA spacecraft detects significant changes in Mars’ atmosphereApril 22nd, 2011 - 1:57 pm ICT by ANI
Washington, April 22 (ANI): The total amount of atmosphere on Mars changes dramatically as the tilt of the planet’s axis varies, NASA’s Mars Reconnaissance Orbiter (MRO) has discovered.
This process can affect the stability of liquid water if it exists on the Martian surface and increase the frequency and severity of Martian dust storms.
Researchers using MRO’s ground-penetrating radar identified a large, buried deposit of frozen carbon dioxide, or dry ice, at the Red Planet’s south pole. The scientists suspect that much of this carbon dioxide enters the planet’s atmosphere and swells the atmosphere’s mass when Mars’ tilt increases.The newly found deposit has a volume similar to Lake Superior’s nearly 3,000 cubic miles. The deposit holds up to 80 percent as much carbon dioxide as today’s Martian atmosphere. Collapse pits caused by dry ice sublimation and other clues suggest the deposit is in a dissipating phase, adding gas to the atmosphere each year. Mars’ atmosphere is about 95 percent carbon dioxide, in contrast to Earth’s much thicker atmosphere, which is less than .04 percent carbon dioxide.
“We already knew there is a small perennial cap of carbon-dioxide ice on top of the water ice there, but this buried deposit has about 30 times more dry ice than previously estimated,” said Roger Phillips of Southwest Research Institute in Boulder, Colo. Phillips is deputy team leader for MRO’s Shallow Radar instrument and lead author of the report.
“We identified the deposit as dry ice by determining the radar signature fit the radio-wave transmission characteristics of frozen carbon dioxide far better than the characteristics of frozen water,” said Roberto Seu of Sapienza University of Rome, team leader for the Shallow Radar and a co-author of the new report.
Additional evidence came from correlating the deposit to visible sublimation features typical of dry ice.
“When you include this buried deposit, Martian carbon dioxide right now is roughly half frozen and half in the atmosphere, but at other times it can be nearly all frozen or nearly all in the atmosphere,” said Phillips.
An occasional increase in the atmosphere would strengthen winds, lofting more dust and leading to more frequent and more intense dust storms. Another result is an expanded area on the planet’s surface where liquid water could persist without boiling. Modeling based on known variation in the tilt of Mars’ axis suggests several-fold changes in the total mass of the planet’s atmosphere can happen on time frames of 100,000 years or less.
The changes in atmospheric density caused by the carbon-dioxide increase also would amplify some effects of the changes caused by the tilt. Researchers plugged the mass of the buried carbon-dioxide deposit into climate models for the period when Mars’ tilt and orbital properties maximize the amount of summer sunshine hitting the south pole. They found at such times, global, year-round average air pressure is approximately 75 percent greater than the current level.
“A tilted Mars with a thicker carbon-dioxide atmosphere causes a greenhouse effect that tries to warm the Martian surface, while thicker and longer-lived polar ice caps try to cool it,” said co-author Robert Haberle, a planetary scientist at NASA’s Ames Research Center in Moffett Field, Calif.
“Our simulations show the polar caps cool more than the greenhouse warms. Unlike Earth, which has a thick, moist atmosphere that produces a strong greenhouse effect, Mars’ atmosphere is too thin and dry to produce as strong a greenhouse effect as Earth’s, even when you double its carbon-dioxide content,” added Haberle.
The findings have been published in a report in the journal Science. (ANI)
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Tags: carbon dioxide ice, collapse pits, cubic miles, deputy team leader, dust storms, frozen carbon dioxide, ground penetrating radar, mars atmosphere, mars reconnaissance orbiter, mars reconnaissance orbiter mro, martian atmosphere, martian dust, martian surface, nasa spacecraft, radar instrument, radar signature, roger phillips, southwest research institute, university of rome, wave transmission