New evidence points towards water on Moon

September 19, 2009 By Leave a Comment

London, September 19 (ANI): Two separate lunar missions have found evidence which indicates that the polar regions of the moon are chock full of water-altered minerals.

According to a report in Nature News, early results from NASA’s Lunar Reconnaissance Orbiter (LRO), launched on June 18, are offering a wide array of watery signals.

The Moon, in fact, has water in all sorts of places: not just locked up in minerals, but scattered throughout the broken-up surface, and, potentially, in blocks or sheets of ice at depth.

“We are on the verge of a renaissance in our thinking about the poles of the Moon, including how water ice gets there,” said Anthony Colaprete, principal investigator for the Lunar Crater Observation and Sensing Satellite (LCROSS), which on October 9, will slam into a polar crater with the intention of ploughing up a plume of water ice for many telescopic eyes to see.

The initial LRO results confirm what was long suspected as a way for ice to stay trapped on the Moon for billions of years.

A thermal mapping instrument showed that permanently shadowed regions within deep polar craters are as cold as 35o Kelvin (-238o Celsius).

Project scientist Richard Vondrak said that they are the coldest spots in the Solar System – even colder than the surface of Pluto.

Variations in the flux of neutrons suggests variability in water content among craters.

But, the surprise comes from a different instrument on LRO, which counts slow-moving neutrons as a way of measuring hydrogen abundance in the top metre or so of the surface.

This hydrogen is often interpreted as a proxy for water ice, although it could also be molecular hydrogen or hydrogen trapped in other molecules.

The LRO instrument has already found a significant excess of hydrogen at the poles.

But, with added resolution, it is seeing surprising variability within the polar regions. Some of the craters appear enriched in hydrogen. Others are not.

Stranger still, some areas outside the crater walls, which were thought to get too hot for water to linger, show an excess of hydrogen.

Vondrak said this shows that the water could have arrived more recently, or that it can persist if buried as impacts till the lunar soil.

If the LCROSS impact spews up ice, it will eliminate the last vestiges of doubt about water on the Moon.

It could also start a new hunt: to find a record of impact events, such as water-rich comet strikes, that put the ice there in the first place. (ANI)

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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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Rat as big as a cat found in extinct volcano in Papua New Guinea

September 7, 2009 By Leave a Comment

London, September 7 (ANI): An expedition team has found a new species of giant rat in an extinct volcano in the jungle of Papua New Guinea, which at 82cm length, is as big as a cat.

According to a report by BBC News, the creature, which has not yet been formally described, was discovered by an expedition team filming the BBC programme ‘Lost Land of the Volcano’.

The rat, which has no fear of humans, is among the largest species of rat known anywhere in the world.

Like the other exotic species, the rat is believed to live within the Mount Bosavi crater, and nowhere else.

“This is one of the world’s largest rats. It is a true rat, the same kind you find in the city sewers,” said Dr Kristofer Helgen, a mammalogist based at the Smithsonian National Museum of Natural History who accompanied the BBC expedition team.

Initially, the giant rat was first captured on film by an infrared camera trap, which BBC wildlife cameraman Gordon Buchanan set up in the forest on the slopes of the volcano.

The expedition team, from the BBC Natural History Unit, recorded the rat rummaging around on the forest floor, and was awed by its size.

Immediately, they suspected it could be a species never before recorded by science, but they needed to see a live animal to be sure.

Then trackers accompanying the team managed to trap a live specimen.

“I had a cat and it was about the same size as this rat,” said Buchanan.

The trapped rat measured 82cm in length from its nose to its tail, and weighed approximately 1.5kg.

It had a silver-brown coat of thick long fur, which the scientists who examined it believe may help it survive the wet and cold conditions that can occur within the high volcano crater.

The location where the rat was discovered lies at an elevation of over 1,000m.

Initial investigations suggest the rat belongs to the genus Mallomys, which contains a handful of other out-sized species.

It has provisionally been called the Bosavi woolly rat, while its scientific name has yet to be agreed.

Mount Bosavi, where the new rat was found, is an extinct volcano that lies deep in the remote Southern Highlands of Papua New Guinea.

The expedition team entered the crater to explore pristine forest, where few humans have set foot.

The island which includes Papua New Guinea and New Guinea is famous for the number and diversity of the rats and mice that live there. (ANI)

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‘Spiderbots’ inside Mount St Helens may detect impending volcanic eruption

August 15, 2009 By Leave a Comment

Washington, August 15 (ANI): NASA scientists have placed about a dozen monitoring ‘spiderbots’ inside the volcanic crater in Mount St Helens in the US, which are high-tech devices that can detect an impending eruption.

Mount St. Helens is one of the most active volcanoes in the US. Its most devastating eruption in 1980, and the most recent seen here in 2004.

According to a report in National Geographic News, about a dozen so-called Spiders were placed on Mount St. Helens in July.

The pods, designed to go where no human can, were lowered by helicopter inside and around the volcano center.

“We can detect the differences between snow falling off of a branch, an animal running by, wind, a thunderstorm and the very subtle signatures of magma moving at depth, perhaps even kilometers beneath the surface of the earth,” said Steve Chien, Principal Scientist, Autonomous Systems, NASA Jet Propulsion Laboratory .

The pods form a virtual wireless network and communicate with each other and a NASA satellite called Earth Observing-1, or EO-1.

Each pod contains a seismometer, a GPS receiver, an infrared sounder to sense explosions, and a lightning detector.

According to Chien, “They have the ability to recognize different kinds of events such as seismic events, earthquakes, that are basically indications that something is happening at the volcano.”

“In the context of volcano monitoring, we want to have the best educated guess to make decisions that will save life and properties,” said Sharon Kedar, Geophysicist, NASA /Jet Propulsion Laboratoy.

NASA would like to someday use this same technology on the surface of Mars to study atmospheric events like dust storms, which are mini-tornadoes, as well as seismic activity. (ANI)

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Giant Martian egg cups could be used to trace the Red Planet’s climate

July 14, 2009 By Leave a Comment

London, July 14 (ANI): A new study has suggested that craters embedded on pedestals that tower above the Martian landscape like giant egg cups could be used to trace the planet’s climate.

‘Pedestal’ craters were gouged out by impacts, like other craters, but stand out because they sit atop plateaus that loom an average of 50 metres above the Martian surface.

It’s not clear exactly how the pedestals formed.

According to a report in New Scientist, a comprehensive catalogue of the objects is lending weight to the idea that the pedestals may conceal ice-rich soil from previous eras, when the planet’s spin axis tilted at a different angle than it does today.

Seth Kadish of Brown University in Providence, Rhode Island, and colleagues identified 2696 pedestal craters in the planet’s mid- and low-latitudes from images taken primarily by the thermal imager aboard NASA’s Mars Odyssey spacecraft.

The craters seem to be concentrated at the mid-latitudes, with very few found at the planet’s equator.

About 3 per cent of them have depressions around their bases that resemble areas in Antarctica where permafrost ice vaporizes, creating pits in the soil left behind.

The team said that strengthens the hypothesis that the pedestals were created from soil that was enriched in ice during a period when the Martian poles pointed more towards the sun and its mid-latitudes were colder.

Because Mars does not have a massive satellite that stabilises it, like Earth’s moon, the tilt of its axis is thought to change regularly on scales of tens of thousands of years.

When the planet is tilted most drastically on its side, the planet’s poles receive a lot of sunshine. Any water locked in ice there is thought to vaporize and move towards the equator, where it falls as snow.

Tens of metres of snow are thought to be deposited on the planet’s mid-latitudes during these episodes.

Pedestal craters may preserve regions with this ancient snow.

The researchers suspect the impact of the meteorite that created each pedestal crater could somehow ‘armour’ the ground in the area, producing a top layer that protected ice from sublimating into gas during warmer periods.

The unprotected ice surrounding the armoured area, however, would eventually disappear when the planet’s tilt changed and the area warmed.

That would leave behind the modern-day, ice-laden pedestals that can be more than 100 metres thick.

“These pedestals represent almost like a cookie-cutter section of past icy, dust-rich layers,” Kadish said. (ANI)

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Moonwalker Jackson gets Moon crater named after him

July 8, 2009 By Leave a Comment

London, July 8 (ANI): Late King of Pop Michael Jackson, whose moonwalk was a dancing phenomenon in itself, has got the ultimate tribute, for a crater on the Moon has now been named after him.

In what could be called as a heavenly tribute, the Lunar Republic Society has said that the Moonwalker has made his mark on the moon.

The news came as the singer’s family, friends, and fans celebrated his life at the Staples Center in Los Angeles on July 7, reports the Daily Express.

The crater, previously named Posidonius J, is located in the Moon’s Lake of Dreams, and is close to a 1,200-acre parcel purchased by Michael Jackson.

The ‘Thriller’ hit-maker passed away last month, after suffering a cardiac arrest at his Los Angeles home. (ANI)

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NASA’s Moon mission successfully completes lunar maneuver

June 25, 2009 By Leave a Comment

Washington, June 24 (ANI): NASA’s Lunar Crater Observation and Sensing Satellite, or LCROSS, successfully completed its most significant early mission milestone on June 23 with a lunar swingby and calibration of its science instruments.

The satellite will search for water ice in a permanently shadowed crater at the moon’s south pole.

With the assist of the moon’s gravity, LCROSS and its attached Centaur booster rocket successfully entered into polar Earth orbit at 6:20 a.m. PDT on June 23.

The maneuver puts the spacecraft and Centaur on course for a pair of impacts near the moon’s south pole on October 9.

“The successful completion of the LCROSS swingby proves the science instruments are functioning as expected. It is a testament to the hard work and dedication of the entire team,” said Dan Andrews, LCROSS project manager at NASA’s Ames Research Center at Moffett Field, California.

“We are elated at the results from the maneuver and eagerly anticipate the impacts in early October,” he added.

During its swing by the moon, the spacecraft’s instruments were turned on and calibrated by scanning three sites on the lunar surface.

These sites were the craters Mendeleev, Goddard C and Giordano Bruno. They were selected because they offer a variety of terrain types, compositions and illumination conditions.

The spacecraft also scanned the lunar horizon to confirm its instruments are aligned in preparation for observing the Centaur’s debris plume.

“Each instrument returned good data that the science team will spend the next few weeks analyzing,” said Anthony Colaprete, LCROSS project scientist at Ames.

“These data will ensure we are as prepared as possible for monitoring and interpreting data we receive during impact,” he added.

LCROSS and its attached Centaur upper stage rocket are now in a long, looping polar orbit around Earth and the moon.

Each orbit will be roughly perpendicular to the moon’s orbit around Earth and take about 37 days to complete.

Before impact, the spacecraft and Centaur will make approximately three orbits.

LCROSS and the Centaur separately will collide with the moon at approximately 7:30 a.m. EDT on October 9, creating a pair of debris plumes that will be analyzed for the presence of water ice or water vapor, hydrocarbons and hydrated materials.

The spacecraft and Centaur are targeted to impact the moon’s south pole near the Cabeus region.

The exact target crater will be identified 30 days before impact, after considering information collected by NASA’s Lunar Reconnaissance Orbiter and observatories on Earth. (ANI)

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Satellites’ launch to give boost to NASA’s ‘return to Moon’ mission

May 22, 2009 By Leave a Comment

Washington, May 22 (ANI): NASA’s return to the moon will get a boost in June with the launch of two satellites that will return a wealth of data about Earth’s nearest neighbor.

On May 21, the agency outlined the upcoming missions of the Lunar Reconnaissance Orbiter, or LRO, and the Lunar Crater Observation and Sensing Satellite, or LCROSS.

The spacecraft will launch together June 17 aboard an Atlas V rocket from Cape Canaveral Air Force Station in Florida.

Using a suite of seven instruments, LRO will help identify safe landing sites for future human explorers, locate potential resources, characterize the radiation environment and test new technology.

LCROSS will seek a definitive answer about the presence of water ice at the lunar poles.

It will use the spent second stage Atlas Centaur rocket in an unprecedented way that will culminate with two spectacular impacts on the moon’s surface.

“These two missions will provide exciting new information about the moon, our nearest neighbor,” said Doug Cooke, associate administrator of NASA’s Exploration Systems Mission Directorate in Washington.

“Imaging will show dramatic landscapes and areas of interest down to one-meter resolution. The data also will provide information about potential new uses of the moon. These teams have done a tremendous job designing and building these two spacecraft,” he added.

LRO’s instruments will help scientists compile high resolution, three-dimensional maps of the lunar surface and also survey it in the far ultraviolet spectrum.

The satellite’s instruments will help explain how the lunar radiation environment may affect humans and measure radiation absorption with a plastic that is like human tissue.

LRO’s instruments also will allow scientists to explore the moon’s deepest craters, look beneath its surface for clues to the location of water ice, and identify and explore both permanently lit and permanently shadowed regions.

High-resolution imagery from its camera will help identify landing sites and characterize the moon’s topography and composition.

A miniaturized radar will image the poles and test the system’s communications capabilities.

“LRO is an amazingly sophisticated spacecraft,” said Craig Tooley, LRO project manager at NASA’s Goddard Space Flight Center in Greenbelt, Maryland.

“Its suite of instruments will work in concert to send us data in areas where we’ve been hungry for information for years,” he added. (ANI)

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Mars was windy, wet and wild in ancient times

May 22, 2009 By Leave a Comment

Washington, May 22 (ANI): The instruments aboard the Rover Opportunity, which are studying the Victoria Crater on Mars, has revealed more evidence of the red planet’s windy, wet and wild past.

According to Steve Squyres, Cornell professor of astronomy and the principal investigator for NASA’s Mars Exploration Rover mission, Opportunity’s two-year exploration of Victoria Crater – a half-mile wide and 250 feet deep – yielded a treasury of information about the planet’s geologic history and supported previous findings indicating that water once flowed on the planet’s surface.

The data shows that water repeatedly came and left billions of years ago.

Wind persisted much longer, heaping sand into dunes between ancient water episodes. These activities still shape the landscape today.

At Victoria, steep cliffs and gentler alcoves alternate around the edge of a bowl about 0.8 kilometers in diameter.

The scalloped edge and other features indicate the crater once was smaller than it is today, but wind erosion has widened it gradually.

“The impact that excavated the crater millions of years ago provided a golden opportunity, and the durability of the rover enabled us to take advantage of it,” said Squyres.

Imaging the crater’s rim and interior, Opportunity inspected layers in the cliffs around the crater, including layered stacks more than 10 meters (30 feet) thick.

Distinctive patterns indicate the rocks formed from shifting dunes that later hardened into sandstone, according to Squyres and 33 co-authors of the findings.

Instruments on the rover’s arm studied the composition and detailed texture of rocks just outside the crater and exposed layers in one alcove called “Duck Bay.”

Rocks found beside the crater include pieces of a meteorite, which may have been part of the impacting space rock that made the crater.

Other rocks on the rim of the crater apparently were excavated from deep within it when the object hit.

These rocks bear a type of iron-rich small spheres, or spherules, that the rover team nicknamed “blueberries” when Opportunity first saw them in 2004.

The spherules formed from interaction with water penetrating the rocks.

The spherules in rocks deeper in the crater are larger than those in overlying layers, suggesting the action of groundwater was more intense at greater depth.

Opportunity’s first observations showed interaction of volcanic rock with acidic water to produce sulfate salts.

Dry sand rich in these salts blew into dunes. Under the influence of water, the dunes hardened to sandstone.

Further alteration by water produced the iron-rich spherules, mineral changes and angular pores left when crystals dissolved away. (ANI)

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How seals got their flippers

April 23, 2009 By Leave a Comment

Washington, April 23 (ANI): A newly discovered fossilized skeleton of a carnivorous animal, has helped scientists pinpoint the origin of flippers – limb adaptations for swimming in water, in seals, sea lions, and the walrus.

Researchers from the United States and Canada found the fossilized skeleton of a newly discovered carnivorous animal, Puijila darwini.

The animal is described as having a long tail, and fore-limbs comparatively proportionate to modern carnivorous land animals as opposed to pinnipeds. It is the first mammalian carnivore found at the site.

New research suggests Puijila is a “missing link” in the evolution of the group that today includes seals, sea lions, and the walrus.

Modern seals, sea lions, and walruses all have flippers-limb adaptations for swimming in water.

These adaptations evolved over time, as some terrestrial animals moved to a semi-aquatic lifestyle. Until now, the morphological evidence for this transition from land to water was weak.

“The remarkably preserved skeleton of Puijila had heavy limbs, indicative of well developed muscles, and flattened phalanges which suggests that the feet were webbed, but not flippers. This animal was likely adept at both swimming and walking on land,” said Mary Dawson, curator emeritus of Carnegie Museum of Natural History.

“For swimming, it paddled with both front and hind limbs. Puijila is the evolutionary evidence we have been lacking for so long,” she added.

Portions of the Puijila darwini specimen were found in 2007 in deposits that accumulated in what was a crater lake in coastal Devon Island, Nunavut, Canada.

A subsequent visit in 2008 yielded the basicranium, an important structure for determining taxonomic relationships.

Paleobotanic fossils indicate this location during the Miocene had a cool, coastal temperate environment, similar to present-day New Jersey.

Given that freshwater lakes would freeze in the winter, it is likely that Puijila would travel over land to the sea for food.

The transition from freshwater to saltwater in semi-aquatic mammals has been hypothesized for some time, first by Charles Darwin, who wrote in On the Origin of Species by the Means of Natural Selection, “A strictly terrestrial animal, by occasionally hunting for food in shallow water, then in streams or lakes, might at last be converted in an animal so thoroughly aquatic as to brace the open ocean.”

“The find suggests that pinnipeds went through a freshwater phase in their evolution. It also provides us with a glimpse of what pinnipeds looked like before they had flippers,” said Natalia Rybczynski, leader of the field expedition. (ANI)

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Virtual maps provide bird’s-eye view of Titan’s Earth-like landscapes

March 25, 2009 By Leave a Comment

Washington, March 25 (ANI): Scientists have made new virtual topographic maps of Saturn’s moon Titan, which provide a bird’s-eye view its Earth-like landscapes.

Cassini radar team member Randy Kirk with the Astrogeology Science Center at the U.S. Geological Survey in Flagstaff, Arizona, created the maps.

He used some of the 20 or so areas where two or more overlapping radar measurements were obtained during 19 Titan flybys.

These stereo overlaps cover close to two percent of Titan’s surface.

The process of making topographic maps from them is just beginning, but the results already reveal some of the diversity of Titan’s geologic features.

The new flyover maps show, for the first time, the 3-D topography and height of the 1,200-meter (4,000-foot) mountain tops, the north polar lake country, the vast dunes more than 100 meters (300 feet) high that crisscross the moon, and the thick flows that may have oozed from possible ice volcanoes.

“These flyovers let you take in the bird’s-eye sweeping views of Titan, the next best thing to being there,” said Kirk.

“We’ve mapped many kinds of features, and some of them remind me of Earth. Big seas, small lakes, rivers, dry river channels, mountains and sand dunes with hills poking out of them, lava flows,” he added.

The maps show some features that may be volcanic flows. These flows meander across a shallow basin in the mountains.

One area suspected to be an ice volcano, Ganesa Macula, does not appear to be a volcanic dome. It may still have originated as a volcano, but it’s too soon to know for sure.

“It could be a volcanic feature, a crater, or something else that has just been heavily eroded,” said Kirk.

The stereo coverage includes a large portion of Titan’s north polar lakes of liquid ethane and methane. Based on these topographical models, scientists are better able to determine the depth of lakes.

The highest areas surrounding the lakes are some 1,200 meters (about 4,000 feet) above the shoreline.

By comparing terrain around Earth to the Titan lakes, scientists estimate their depth is likely about 100 meters (300 feet) or less.

More 3-D mapping of these lakes will help refine these depth estimates and determine the volume of liquid hydrocarbons that exist on Titan.

This information is important because these liquids evaporate and create Titan’s atmosphere. Understanding this methane cycle can provide clues to Titan’s weather and climate. (ANI)

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NASA’s Mars rover Opportunity catches first glimpse of distant destination

March 19, 2009 By Leave a Comment

Washington, March 19 (ANI): The panoramic camera on NASA’s Mars rover Opportunity has caught a first glimpse on the horizon of the uplifted rim of the big crater that has been Opportunity’s long-term destination for six months.

Opportunity’s twin, Spirit, also has a challenging destination, and last week switched to a different route for making progress.

Endeavour Crater, 22 kilometers (14 miles) in diameter, is still 12 kilometers (7 miles) away from Opportunity, and at least 30 percent farther away on routes mapped for evading hazards on the plain.

Opportunity has already driven about 3.2 kilometers (2 miles) since it climbed out of Victoria Crater last August after two years of studying Victoria, which is less than one-twentieth the size of Endeavour.

“It’s exciting to see our destination, even if we can’t be certain whether we’ll ever get all the way there,” said John Callas of NASA’s Jet Propulsion Laboratory, Pasadena, California, project manager for the twin Mars rovers, Opportunity and Spirit.

“At the pace we’ve made since leaving Victoria, the rest of the trek will take more than a Martian year,” he added.

A Martian year lasts about 23 months.

According to Steve Squyres of Cornell University, Ithaca, N.Y., principal investigator for the rovers’ science instruments, “We can now see our landfall on the horizon. It’s far away, but we can anticipate seeing it gradually look larger and larger as we get closer to Endeavour.”

“We had a similar experience during the early months of the mission watching the Columbia Hills get bigger in the images from Spirit as Spirit drove toward them,” he said.

Both rovers landed on Mars in January 2004 to begin missions designed to last for three months. Both are still active after more than five years.

For the next several days, the rover team plans to have Opportunity use the tools on its robotic arm to examine soil and rock at an outcrop along the route the rover is taking toward Endeavour. (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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NASA mission to seek water ice on Moon

February 18, 2009 By Leave a Comment

Washington, Feb 18 (ANI): NASA’s Lunar Crater Observation and Sensing Satellite (LCROSS), which will seek water ice on Moon, is enroute from Northrop Grumman’s facility in Redondo Beach, California, to the agency’s Kennedy Space Center in Florida in preparation for a spring launch.

The satellite’s primary mission is to search for water ice on the moon in a permanently shadowed crater near one of the lunar poles.

LCROSS is a low-cost, accelerated-development, companion mission to NASA’s Lunar Reconnaissance Orbiter, or LRO.

At Kennedy, the two spacecraft will be integrated with an Atlas V launch vehicle and tested for final flight worthiness.

LCROSS and LRO are the first missions in NASA’s plan to return humans to the moon and begin establishing a lunar outpost by 2020.

After launch, the LCROSS spacecraft and the Atlas V’s Centaur upper stage rocket will fly by the moon and enter into an elongated orbit to position the satellite for impact.

On final approach, the spacecraft and Centaur will separate.

The Centaur will strike the chosen lunar crater, creating a debris plume that will rise above the surface.

Four minutes later, LCROSS will fly through the debris plume, collecting and relaying data back to Earth before striking the moon’s surface and creating a second debris plume.

Scientists will use data from the debris clouds to determine the presence or absence of water ice.

To remain within budget and a short schedule of 26 months, the LCROSS project team developed a simple yet innovative spacecraft that uses existing NASA systems, commercial-off-the-shelf components modified to survive the harsh conditions of space, and the spacecraft design and development expertise of integration partner Northrop Grumman Space Technologies.

“LCROSS delivers a high science value per dollar,” said Steve Hixson, vice president for advanced concepts at Northrop Grumman Aerospace Systems in Redondo Beach.

“With its versatile, fast and cost efficient architecture, the LCROSS spacecraft serves as a pathfinder for future low-cost Earth and space science missions,” he added. (ANI)

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NASA’s Phoenix may have detected first signs of liquid water on Mars

February 18, 2009 By Leave a Comment

London, Feb 18 (ANI): If reports are to be believed, NASA’s Phoenix Lander may have captured the first images of liquid water on Mars, droplets that apparently splashed onto the spacecraft’s leg during landing.

According to a report in New Scientist, the controversial observation could be explained by the mission’s previous discovery of perchlorate salts in the soil, since the salts can keep water liquid at sub-zero temperatures.

Researchers have said that this antifreeze effect makes it possible for liquid water to be widespread just below the surface of Mars, but point out that even if it is there, it may be too salty to support life as we know it.

A few days after Phoenix landed on 25 May 2008, it sent back an image showing mysterious splotches of material attached to one of its legs.

Strangely, the splotches grew in size over the next few weeks, and Phoenix scientists have been debating the origin of the objects ever since.

One intriguing possibility is that they were droplets of salty water that grew by absorbing water vapour from the atmosphere.

Arguments for this idea are laid out in a study by Phoenix team member Nilton Renno of the University of Michigan in Ann Arbor, and co-authored by 21 other researchers, including the mission’s chief scientist, Peter Smith of the University of Arizona in Tucson.

Gaping canyons and river-like channels attest to the fact that large amounts of liquid water once flowed on Mars.

The surface now appears dry, though the changing appearance of some crater gullies over a period of several years has hinted at the existence of subsurface aquifers that occasionally release bursts of water.

At Phoenix’s landing site in the Martian arctic, it is too cold for pure water to exist in liquid form – the temperature never rose above -20 degrees Celsius during the five-month-long mission.

But, salty water can stay liquid at much lower temperatures. And perchlorate salts, which were detected for the first time on Mars by Phoenix, would have an especially dramatic ‘antifreeze’ effect.

An extremely salty mixture of water and perchlorates could stay liquid all the way down to -70 degrees C.

If perchlorates are widespread on Mars at high concentrations, then pockets of liquid water might also be widespread below the planet’s surface.

“According to my calculations, you can have liquid saline solutions just below the surface almost anywhere on Mars,” Renno told New Scientist.

And Phoenix may have already snapped images of water kept liquid thanks to perchlorate salts. (ANI)

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Scientists unveil first gravity map of moon’s far side

February 16, 2009 By Leave a Comment

London, Feb 16 (ANI): The first detailed map of the gravity fields on the Moon’s far side has shown that craters there are different than those on the near side, which could reveal more about the Moon as it was billions of years ago, when magma flowed across its surface.

According to a report in New Scientist, the new gravity map was collected by the Japanese lunar satellite Kaguya, which released two small probes into orbit around the Moon in 2007.

The motions of the three spacecraft, which are sensitive to variations in the Moon’s gravity field, were measured by tracking their radio signals.

Crucially, while the main Kaguya spacecraft was on the far side of the Moon and therefore out of direct contact with Earth, one of the small probes relayed its signals to Earth.

The resulting map, which is the first detailed one completed of the Moon’s far side, shows that craters on the far side have a markedly different gravity signature from those on the side that always faces Earth.

That suggests that billions of years ago, there might have been large differences in the temperature or thickness of the Moon’s two halves.

“It’s fabulous new data,” said Walter Kiefer, a planetary geophysicist with the Lunar and Planetary Institute in Houston, Texas, who was not part of the study. “We haven’t been able to get a good look at the far side until now,” he added.

Most of the large craters on the Moon formed more than 3.8 billion years ago. These were partly filled in by magma that flowed on the surface before the Moon cooled and its geological activity died down.

But, a number of craters also seem to have been filled in from below.

Researchers believe material from the mantle also rose up in craters, since these are sites where impacts had thinned the Moon’s crust.

The new Kaguya measurements reveal some craters on the far side that seem to have been filled only with mantle.

These craters have higher-than-normal gravity at the centre, surrounded by a thick ring of low gravity that closely matches the original low elevation of the crater.

It is not yet clear what these new crater measurements suggest about the early Moon.

In order for these structures to survive, the lunar far side must have been too cool and stiff to allow the mantle at the craters’ centres to smooth out much over time, according to team leader Noriyuki Namiki, of Japan’s Kyushu University.

“The surface had to be very rigid to support these structures,” Namiki said. (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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Suicide bomber kills 32 Shias in Pakistan

February 7, 2009 By Leave a Comment

Lahore, Feb 6 (ANI): At least 32 people were killed in a suspected suicide bombing at Dera Gazi Khan mosque on Thursday.

Police said the blast-targeted dozens of Shias who had converged at the Al Hussainia Mosque after dark, shortly before a prayer meeting.

Although there was no immediate claim of responsibility, police were swift to blame sectarian extremists for the tragedy.

“Ninety-nine percent it looks like a suicide attack,” Shaukat Javed, Inspector General of Punjab Police, said.

“The explosion occurred just 50 feet short of the mosque. It is a terrorist attack aimed at Shias to create unrest. It seems like a suicide blast. If something is planted or hurled, it leaves a crater. There is no crater at the site of the incident,” Javed said.

“According to eyewitnesses, nothing was thrown from outside,” district government official Jawed Mehmood Bhatti told a foreign news agency.

“It looks as if someone was standing at the site of the blast and waiting for the procession and he blew himself up as the procession came close to him,” he added.

About 200 people had arrived to attend the religious gathering. District health official Dr Fazal Karim confirmed that 13 bodies were brought to the local hospital including those of two children and a woman, but said he did not know how many dead may have been counted elsewhere, the Daily Times reported.

Rescue workers were seen trying to clear a crowd out of the way to let ambulances pass in darkness, in footage broadcast by television channels.

“The initial report is that it was a suicide bomber. He exploded himself in the crowd. Body parts have been found and sent to the hospital,” district police chief Athar Mubarik told reporters.

“The attacker was wearing a jacket carrying 12 to 14 kilogrammes of explosives,” he added. (ANI)

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Water has played large role in shaping Martian landscape

February 7, 2009 By Leave a Comment

Washington, Feb 6 (ANI): In a new research, scientists have determined that geologic features in Martian craters suggest deposition and flow of water and ice, which is further evidence for the large role that water has likely played in shaping the landscape of the Red Planet.

The research was done by scientists at the Tucson-based Planetary Science Institute (PSI) in the US.

Their results provide strong evidence that multiple wet and/or icy climate cycles have shaped the topography of the planet’s large craters.

“Studying crater degradation in potentially ice-rich environments is vital to understanding the geology of craters and their surroundings, as well as for determining whether the ice comes from the atmosphere or from below the ground,” said Daniel Berman, a PSI associate research scientist and lead author of the research paper.

Berman, along with PSI Senior Scientist David Crown and PSI Research Scientist Leslie Bleamaster III, surveyed the geologic features in two sets of mid-latitude craters.

Each set included about 100 craters, with the first set in the Arabia Terra region of the northern hemisphere and the second set in an area east of Hellas basin in the southern hemisphere.

The researchers selected craters that are greater than 20 km (about 12.5 miles) in diameter that have been completely or nearly completely photographed by cameras on various spacecraft, including the Mars Odyssey THEMIS VIS camera, the Mars Global Surveyor Mars Orbiter Camera, and the Viking Orbiter cameras.

They looked specifically for the following erosional or depositional features, the number and sizes of those features, and how the features are oriented.

Berman found that lobate flows, gullies, and arcuate ridges on the crater walls between latitudes of 30 to 45 degrees face the pole in their hemisphere, whereas equator-facing orientations are more common than pole-facing ones at latitudes between 45 and 60 degrees.

In the southern study area, narrow channels generally had pole-facing orientations, whereas wider valleys generally have equator-facing orientations.

The features’ pole-facing or equator-facing orientations could result from uneven heating of the crater walls.

Ice on walls that get more sunlight would melt faster, causing more water to flow and form the gullies and other features.

Further evidence for flowing ice is found on the crater floors, Berman observed. He found that the floors of small craters slope away from the walls that exhibit erosional/depositional features toward the more pristine ones.

These slopes have inclines of about 0.5 to 3 degrees. This suggests that ice-rich materials flowed from one crater wall to the other. (ANI)

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Japanese volcano erupts, smoke reaches 2,000 metres

February 2, 2009 By 18 Comments

Japanese volcano erupts, smoke reaches 2,000 metres Tokyo – Mount Asama in north-central Japan erupted early Monday, spewing volcanic ashes to an altitude of 2,000 metres, the Japan Meteorological Agency said.

The agency issued a warning of continued large ash deposits in the surrounding 4-kilometre radius. No casualties have been reported.

The mountain erupted at about 1:51 am from the crater, and volcanic smoke was detected until around 8 am.

Mount Asama, on the border between Gunma and Nagano provinces, erupted in August. (dpa)

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