Cracks on Mars a result of evaporating lakes in ancient times

September 17, 2009 By Leave a Comment

Washington, September 16 (ANI): Networks of giant polygonal troughs etched across crater basins on Mars have been identified as desiccation cracks caused by evaporating lakes, providing further evidence of a warmer, wetter Martian past.

The findings were presented at the European Planetary Science Congress by PhD student M. Ramy El Maarry of the Max Planck Institute for Solar System Research.

The polygons are formed when long cracks in the surface of the Martian soil intersect.

El Maarry investigated networks of cracks inside 266 impact basins across the surface of Mars and observed polygons reaching up to 250 meters in diameter.

Polygonal troughs have been imaged by several recent missions but, until now, they have been attributed to thermal contractions in the Martian permafrost.

El Maarry created an analytical model to determine the depth and spacing of cracks caused by stresses building up through cooling in the Martian soil.

He found that polygons caused by thermal contraction could have a maximum diameter of only about 65 meters, much smaller than the troughs he was seeing in the craters.

“I got excited when I saw that the crater floor polygons seemed to be too large to be caused by thermal processes. I also saw that they resembled the desiccation cracks that we see on Earth in dried up lakes,” said El Maarry.

“The stresses that build up when liquids evaporate can cause deep cracks and polygons on the scale I was seeing in the craters,” he added.

El Maarry identified the crater floor polygons using images taken by the MOC camera on Mars Global Surveyor and the HiRISE and Context cameras on Mars Reconnaissance Orbiter.

The polygons in El Maarry’s survey had an average diameter of between 70 and 140 kilometers, with the width of the actual cracks ranging between 1 and 10 meters.

Evidence suggests that between 4.6 and 3.8 billion years ago, Mars was covered in significant amounts of water.

Rain and river water would have collected inside impact crater basins, creating lakes that may have existed for several thousand years before drying out.

However, according to El Maarry, in the northern hemisphere, some of the crater floor polygons could have been formed much more recently.

“When a meteorite impacts with the Martian surface, the heat can melt ice trapped beneath the Martian crust and create what we call a hydrothermal system. Liquid water can fill the crater to form a lake, covered in a thick layer of ice. Even under current climatic conditions, this may take many thousands of years to disappear, finally resulting in the desiccation patterns,” said El Maarry. (ANI)

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Scientists identify lake shorelines on Mars

August 9, 2009 By Leave a Comment

Washington, August 9(ANI): A team of scientists, using images from the High Resolution Imaging Science Experiment (HiRISE) camera on board NASA’s Mars Reconnaissance Orbiter, have reported direct evidence of lake shorelines in the Shalbatana Vallis in Mars.

Scientists generally believe that warm, wet conditions existed on Mars until only about 3.7 billion years ago.

In recent years, however, remote sensing studies have hinted at the existence of Martian lakes during the Hesperian epoch (about 3.5 billion to 1.8 billion years ago).

Now, sub-meter-scale images from NASA’s Mars Reconnaissance Orbiter show clear, unambiguous evidence of shorelines of a lake more than 450 meters (1,476 feet) deep that formed about 3.4 billion years ago.

The study indicates that conditions favorable for flowing water and lake formation may have existed for thousands of years on Mars during the Hesperian epoch, which has been thought to be a period during which surface conditions did not allow significant hydrological activity.

According to the researchers, the sedimentary deposits associated with the lake in Shalbatana Vallis should be considered a priority for further study by future landed Mars missions. (ANI)

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Martian climate was life-friendly more recently than thought

July 1, 2009 By Leave a Comment

Washington, July 1 (ANI): In a new research, scientists have found evidence that indicates the Martian climate was life-friendly more recently than thought.

Matthew Balme, a research scientist with the Tucson-based Planetary Science Institute and a research fellow at the United Kingdom’s Open University, discovered signs of melting permafrost in images from NASA’s HiRISE (High Resolution Imaging Science Experiment) camera, which is flying aboard the Mars Reconnaissance Orbiter.

The images show that landforms once thought to be shaped by volcanism were actually modified by the expansion and contraction of ice due to freeze/thaw cycles, according to Balme.

Balme studied an outflow channel that was active as recently as 2 to 8 million years ago.

The channel contains polygonal patterns, branched channels, blocky debris and mound/cone formations, all of which are similar to formations found where permafrost melts on Earth.

“These observations demonstrate that ice melted near the Martian equator within the past few million years and then refroze,” Balme said. “This probably happened over many freeze/thaw cycles,” he added.

Since liquid water is essential to life as we know it, this equatorial channel would be an ideal place to hunt for traces of past or present Martian life, Balme added. (ANI)

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Mars had warmer weather in its recent past than previously thought

June 30, 2009 By Leave a Comment

London, June 30 (ANI): A new research led by a UK scientist has indicated that Mars had significantly warmer weather in its recent past than previously thought.

Dr. Matthew Balme, from The Open University, made the new discovery by studying detailed images of equatorial landforms that formed by melting of ice-rich soils.
is work indicates that the Martian surface experienced “freeze thaw” cycles as recently as 2 million years ago, and that Mars has not been locked in permafrost conditions for billions of years as had been previously thought.

The high-resolution images, which show a variety of interesting landforms, were taken with NASA’s HiRISE (High Resolution Imaging science Experiment) which is onboard the Mars Reconnaissance Orbiter (MRO) mission.

According to Dr. Balme, “The features of this terrain were previously interpreted to be the result of volcanic processes. The amazingly detailed images from HiRISE show that the features are instead caused by the expansion and contraction of ice, and by thawing of ice-rich ground. This all suggests a very different climate to what we see today.”

All of the landforms observed are in an outflow channel, thought to have been active as recently as 2 million to 8 million years ago.

Since the landforms exist within, and cut across, the pre-existing features of the channel, this suggests that they too were created within this timeframe.

The pictures show polygonally patterned surfaces, branched channels, blocky debris and mound/cone structures.

All of these features are similar to landforms on Earth typical of areas where permafrost terrain is melting.

“These observations demonstrate not only that there was ice near the Martian equator in the last few million years, but also that the ice melted to form liquid water and then refroze. And this probably happened for many cycles,” Dr. Balme said.

“Given that liquid water seems to be essential for life, these kinds of environments could be a great place to look for evidence of past life on Mars,” he added.

According to Professor Keith Mason, CEO of the Science and Technology Facilities Council (STFC), “Understanding current processes on the surface of Mars and the past and present role of climate improves our knowledge of the planet’s history and thus the chances of one day detecting evidence for past or present life.” (ANI)

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Ancient Mars lake may have held as much water as Lake Champlain in US

June 20, 2009 By Leave a Comment

Washington, June 20 (ANI): Scientists have found evidence of the remnants of an ancient lake nestled in a valley near the Martian equator, which may have held as much water as Lake Champlain.

According to a report in Disocvery News, the evidence was found by Gaetano di Achille and a team of researchers at the University of Colorado in Boulder, US, in the form of an ancient shoreline ringing Shalbatana Vallis, a gash in Mars’ surface just east of the massive volcanic province, Tharsis Rise.

Though dry and frigid now, the traces it left behind hint at a water body younger than any other on the planet, and its sediments are a prime target for finding fossilized alien life.

When Mars coalesced billions of years ago it was much warmer, and probably wet. Features that appear to be eroded river deltas more than 3.7 billion years old dot parts of the planet’s surface.

Researchers have speculated they are evidence of lakes – and primitive life may have once existed on the surface.

Now, Gaetano’s team of researchers estimated from powerful images obtained using the powerful High Resolution Imaging Science Experiment (HiRISE) camera on board the Mars Reconnaissance Orbiter (MRO), that the ancient lake was 450 meters (1,476 feet) deep and nearly identical in volume to Lake Champlain in Vermont.

Even more intriguingly, it dried up around 3.4 billion years ago – 300 million years after the Red Planet’s “warm and wet” phase is thought to have ended.

Its deltas appear rich in fine-grained sediments, a sign that they have been relatively untouched by erosion.

“Deltas are high priority targets for exploration because they imply copious and long-lived water,” team member Brian Hynek of the University of Colorado in Boulder told Discovery News. “And the sedimentation process is very effective at burying and preserving organic material,” he said.

The lake is a tempting place to look for fossilized alien life forms.

“Life wouldn’t have arisen in this lake, but lakes on Earth provide many habitats for countless organisms,” said Patrick McGovern of the Lunar and Planetary Institute in Houston.

“This lake could have helped sustain and proliferate life on Mars, if it ever arose,” he added. (ANI)

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Subsurface ice on Mars exposed by recent impact craters

March 31, 2009 By Leave a Comment

London, March 31 (ANI): The HiRISE camera aboard NASA’s Mars Reconnaissance Orbiter (MRO) has observed some small, freshly gouged craters in images taken in 2008, which in turn have exposed hidden subsurface ice on the Red Planet.

According to a report in New Scientist, seen at five sites over a latitude range of 43 degrees to 56 degrees north, the excavations are typically 3 to 6 meters across and a third to two-thirds of a meter deep.

One cluster must have appeared sometime between June and August, and a somewhat larger pit showed up between January and September.

What did astound the team were splashes of white seen in and around a handful of these craterlets.

Apparently, fist-sized impactors had punched into a layer of ice hidden by a topping of dust about a third of a metre deep.

In the months that followed, these snowy splashes gradually faded from view.

Water ice isn’t stable at the craters’ latitudes, so most likely, it gradually sublimated, or vaporised, into the atmosphere, leaving behind a veneer of any dust that had been mixed with it.

The disappearing act might also be due in part to a coating of dust blown in from the atmosphere.

Either way, notes HiRISE investigator Shane Byrne of the University of Arizona, the icy deposits had to be at least a couple of inches (several centimeters) thick, and they couldn’t have been unearthed from more than a foot or two (0.3-0.6 m) down.

According to Byrne, prior surveys, particularly one done by the neutron spectrometer aboard NASA’s Mars Odyssey orbiter, show that vast reservoirs of ice lay barely buried across most of the planet’s polar and mid-latitude regions.

But, scientists are only now realising just how near the surface the ice lies – and how easily it can be reached.

“It’s probably just tens of centimeters down,” said HiRISE team leader Alfred McEwen. (ANI)

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Mars domes may be mud volcanoes

March 28, 2009 By Leave a Comment

London, March 27 (ANI): Scientists at NASA have identified dozens of mounds or domes in the northern plains of Mars, which they say bear a striking resemblance to mud volcanoes.

According to a report by BBC News, the domes on the Red Planet were detected using images taken by NASA’s Mars Odyssey spacecraft, and Carlton Allen and Dorothy Oehler of NASA’s Johnson Space Center in Houston.

Infrared data also show the domes cool more quickly at night than the surrounding rock, as one might expect if they were made of sediment.

Together with David Baker from Brown University, the researchers used instruments on NASA’s Mars Reconnaissance Orbiter (MRO) to observe several of these structures in a northern region known as Acidalia Planitia.

Data from the MRO’s Crism experiment indicate that the material in the domes is more oxidised than the rock of the surrounding plains.

This might suggest the presence of iron oxides, which form in the presence of liquid water.

They also took pictures of the structures with the HiRise camera on MRO; the images show the bright domes standing out against the dark basaltic rock of the surrounding plains.

Dr Allen told BBC News the structures resembled smooth cones with “no breaks”, which visibly feathered out towards the margins.

The observations, he said, were consistent with material that is “smooth, soft and easily eroded”.

On Earth, the largest concentration of mud volcanoes is in Azerbaijan and the adjacent Caspian Sea. But, they have been found at more than 40 sites on land and at more than 20 locations beneath the sea.

They are formed when pressurized gas and liquid from as much as several kilometers down, breach the surface. They belch out slurries of fluid, mud and rocks, as well as gases such as methane.

“In Azerbaijan, there is so much methane coming out that they can catch fire,” said Dr Allen.

This raises the possibility that mud volcanoes could contribute to the methane observed in the Martian atmosphere.

Methane should last for only a short time in the atmosphere until it is destroyed by sunlight, so its continued presence means it is being replenished by some unknown process.

According to Dr Allen, the team had found no evidence that the domes could be active today, as most show clear evidence of erosion. But, he suggested they could have formed in the last 10 million years.

Researchers suggest that, if life does exist deep beneath the Martian surface, mud volcanoes could be one of the best ways to get at the evidence. (ANI)

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Gullies on Mars show water ran on Red Planet as early as 1.25 mln yrs ago

March 4, 2009 By Leave a Comment

Washington, March 3 (ANI): Planetary geologists at Brown University, US, have found a gully fan system on Mars that formed about 1.25 million years ago, which shows tantalizing signs of recent water activity on the Red Planet.

The fan offers compelling evidence that it was formed by melt water that originated in nearby snow and ice deposits and may stand as the most recent period when water flowed on the planet.

Gullies are known to be young surface features on Mars. But, scientists studying the planet have struggled with locating gullies they can conclusively date.

In a research paper that appears on the cover of the March issue of Geology, the Brown geologists were able to date the gully system and hypothesize what water was doing there.

The gully system is located on the inside of a crater in Promethei Terra, an area of cratered highlands in the southern mid-latitudes.

The eastern and western channels of the gully each run less than a kilometer from their alcove sources to the fan deposit.

Viewed from afar, the fan appears as one entity several hundred meters wide. But, by zooming in with the HiRISE camera aboard the Mars Reconnaissance Orbiter, Schon was able to distinguish four individual lobes in the fan, and determine that each lobe was deposited separately.

“The gully system shows four intervals where water-borne sediments were carried down the steep slopes of nearby alcoves and deposited in alluvial fans,” said Samuel Schon, a Brown graduate student and the paper’s lead author.

However, the finding of a gully system, even an isolated one, that supported running water as recently as 1.25 million years ago greatly extends the time that water may have been active on Mars.

It also adds to evidence of a recent ice age on the planet when polar ice is believed to have been transported towards the equator and settled in mid-latitude deposits, according to James Head III, professor of geological sciences at Brown University, who first approximated the span of the Martian ice age in a Nature paper in 2003.

“We think there was recent water on Mars,” said Head, who with Brown postdoctoral researcher Caleb Fassett is a contributing author on the paper. “This is a big step in the direction to proving that,” he added.

The team determined that ice and snow deposits formed in the alcoves at a time when Mars had a high obliquity (its most recent ice age) and ice was accumulating in the mid-latitude regions. (ANI)

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Scientists find evidence of ancient hot springs on Mars

February 13, 2009 By Leave a Comment

Washington, Feb 13 (ANI): A new research has reported data from the Mars Reconnaissance Orbiter (MRO) that suggests the discovery of ancient hot springs in the Vernal Crater, sites where life forms may have evolved on Mars.

Hot springs have great astrobiological significance, as the closest relatives of many of the most ancient organisms on Earth can thrive in and around hydrothermal springs.

If life forms have ever been present on Mars, hot spring deposits would be ideal locations to search for physical or chemical evidence of these organisms and could be target areas for future exploratory missions.

In the research paper entitled, “A Case for Ancient Springs in Arabia Terra, Mars,” Carlton C. Allen and Dorothy Z. Oehler, from the Astromaterials Research and Exploration Science Directorate at the NASA Johnson Space Center, Houston, Texas, propose that new image data from the High Resolution Imaging Science Experiment (HiRISE) on MRO depict structures in Vernal Crater that appear to have arisen as part of a major area of ancient spring activity.

The data suggest that the southern part of Vernal Crater has experienced episodes of water flow from underground to the surface and may be a site where Martian life could have developed.

“Hot spring deposits are key target areas for future Mars missions,” said Sherry L. Cady, Associate Professor in the Department of Geology at Portland State University.

“Such deposits on Earth preserve evidence of the fossilized remains of the microbial communities that inhabited the hot springs over a wide range of spatial scales,” Sherry added.

The potential to find key evidence indicative of life-biofabrics, microbial remains, chemical fossils in minerals-is high when sedimentary deposits form from hydrothermal fluids.
Hot spring fluids are typically laden with dissolved mineral ions that, when they precipitate out and create the hydrothermal deposit, enhance fossilization of all types of biosignatures,” said Sherry. (ANI)

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