Mars turned red due to grinding rocks, not water

September 19, 2009 By Leave a Comment

London, September 19 (ANI): Recent laboratory studies have shown that Mars is not red due to the rocks being rusted by the water that once flooded the planet, but due to the ongoing grinding of surface rocks, which forms the red dust.

These findings, which open up the debate about the history of water on Mars and whether it has ever been habitable, have been presented at the European Planetary Science Congress by Dr. Jonathan Merrison.

“Mars should really look blackish, between its white polar caps, because most of the rocks at mid-latitudes are basalt. For decades, we assumed that the reddish regions on Mars are related to the water-rich early history of the planet and that, at least in some areas, water-bearing heavily oxidized iron minerals are present,” said Dr. Merrison, of the Aarhus Mars Simulation Laboratory, Denmark.

Fine red dust covers Mars’s surface and is even present in the planet’s atmosphere, dominating the weather and sometimes becoming so thick that it plunges the planet into darkness.

Even though dust is ubiquitous, we do not fully understand its physical, chemical, and geological properties.

In their recent laboratory study, scientists at the Mars Simulation Laboratory have pioneered a novel technique to simulate the sand transport on Mars.

They hermetically sealed sand (quartz) samples in glass flasks and mechanically “tumbled” them for several months, turning each flask ten million times.

After gently tumbling pure quartz sand for seven months, almost 10 percent of the sand had been reduced to dust.

When scientists added powdered magnetite, an iron oxide present in Martian basalt, to the flasks, they were surprised to see it getting redder as the flasks were tumbled.

“Reddish-orange material deposits, which resemble mineral mantles known as desert varnish, started appearing on the tumbled flasks. Subsequent analysis of the flask material and dust has shown that the magnetite was transformed into the red mineral hematite, through a completely mechanical process without the presence of water at any stage of this process,” said Dr. Merrison.

The scientists suspect that, as the quartz sand grains are tumbled around, they get quickly eroded and an alteration of minerals through contact ensues.

The first experiments show that this process occurs not only in air, but also in a dried carbon dioxide (CO2) atmosphere, that is, in conditions that perfectly resemble those occurring on Mars.

It may also imply that the reddish Martian dust is geologically recent. (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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Craters on Vesta and Ceres could pinpoint Jupiter’s age

September 14, 2009 By Leave a Comment

Washington, September 14 (ANI): A new study that models the cratering history of Vesta and Ceres, which are the largest two objects in the asteroid belt, could help pinpoint when Jupiter began to form during the evolution of the early Solar System.

The study, carried out by scientists at the Italian National Institute for Astrophysics in Rome, explored the hypothesis that one or both objects formed during Jupiter’s formation by modeling their cratering histories during the birth of the giant planet.

Their simulation described Jupiter’s formation in three stages: an initial accretion of its core followed by a stage of rapid gas accretion.

This is, in turn, followed by a phase where the gas accretion slows down while the giant planet reaches its final mass.

During the last two phases, Jupiter’s gravitational pull starts to affect more and more distant objects.

For each of these phases, the team simulated how Jupiter affected the orbits of asteroids and comets from the inner and outer Solar System, and the likelihood of them being moved onto a collision path with Vesta or Ceres.

According to Dr. Diego Turrini, who presented the results of the study at the European Planetary Science Congress in Potsdam, Germany, “We found that the stage of Jupiter’s development made a big difference on the speed of impacts and the origin of potential impactors.”

“When Jupiter’s core approaches its critical mass, it causes a sharp increase in low-velocity impacts from small, rocky bodies orbiting nearby to Vesta and Ceres which lead to intense and uniform crater distribution patterns. These low-speed collisions may have helped Vesta and Ceres gather mass,” he said.

“Once Jupiter’s core has formed and the planet starts to rapidly accrete gas, it deflects more distant objects onto a collision course with Ceres and Vesta and the impacts become more energetic,” he added.

The third stage of Jupiter’s formation is complicated by a period known as the Late Heavy Bombardment, which occurred around 3.8 to 4.1 billion years ago.

During this time, a significant number of objects, rich in organic compounds, from the outer Solar System were injected on planet-crossing orbits with the giant planets and may have reached the Asteroid Belt.

In addition, Jupiter is thought to have migrated in its orbit around this time, which would have caused an addition flux of impactors on Vesta and Ceres.

The team will have an opportunity to confirm their results when NASA’s Dawn space mission reaches Vesta in 2011 and then flies on for a further rendezvous with Ceres in 2015. (ANI)

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SKUAST introduces new techniques to improve agri-sector in Kashmir

June 26, 2009 By Leave a Comment

Srinagar, June 24 (ANI): The Sher-e-Kashmir University of Agricultural Sciences and Technology (SKUAST) in Kashmir have organized an exhibition-cum- science congress for the farmers to apprise them of new techniques in agriculture and horticulture.

“The main aim of this exhibition is to make latest technical innovations in agriculture, sericulture, animal husbandry and floriculture available to the farmers and to showcase the technical innovations from other countries so that the interaction takes place between both the countries,” said Fayaz Bandey, one of the organizers.

During the Congress experts, farmers and residents were provided information about new seeds, breeds and equipment.

Showkat Hussain, an apple fruit grower said that such exhibitions should be organized in all the districts in time so that the farmers get the information about the new seeds ahead of the sowing season.

” such exhibitions should take place in all the districts and from March because the season starts from March so that the growers get the information about the new seeds,” said Hussain.

Agriculture is the backbone of Kashmir economy because eighty percent people depend on this sector for their livelihood. By Afzal Bhat(ANI)

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