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Thawing ‘Dry Ice’ Drives Groovy Action on Mars

By Guest PostJanuary 27, 2013Sciencearizona, candice hansen, carbon dioxide sublimation, crism, dark fans, driving factor, dry ice, dynamic process, dynamic world, earth, frozen carbon dioxide, ganna portyankina, groovy action, hirise camera, ice cap, mars, mars reconnaissance orbiter, mars south pole, mars today, martian sand dunes, martian years, NASA, north polar, planetary science institute, seasonal changes, switzerland, thawing, transient grooves, tucson, university, university of bern

PASADENA, Calif. — Researchers using NASA’s Mars Reconnaissance Orbiter see seasonal changes on far-northern Martian sand dunes caused by warming of a winter blanket of frozen carbon dioxide.

Earth has no naturally frozen carbon dioxide, though pieces of manufactured carbon-dioxide ice, called “dry ice,” sublime directly from solid to gas on Earth, just as the vast blankets of dry ice do on Mars. A driving factor in the springtime changes where seasonal coverings of dry ice form on Mars is that thawing occurs at the underside of the ice sheet, where it is in contact with dark ground being warmed by early-spring sunshine through translucent ice. The trapped gas builds up pressure and breaks out in various ways. (more…)

Martian Crater May Once Have Held Groundwater-Fed Lake

By Guest PostJanuary 22, 2013Sciencearabia terra, carbonate, clay mineral, compact reconnaissance, crism, early evolution, flat rock, groundwater, hydrothermal fluids, imaging spectrometer, joseph michalski, lake environment, layered, mars, mars orbiters, mars reconnaissance orbiter, martian crater, martian history, mclaughlin crater, meteor impact, mro, nasa spacecraft, non acidic conditions, potential habitat, red planet, rich zurek, scott murchie, spectrometer data, subsurface, subsurface habitability, underground water, wet underground environment

PASADENA, Calif. — A NASA spacecraft is providing new evidence of a wet underground environment on Mars that adds to an increasingly complex picture of the Red Planet’s early evolution.

The new information comes from researchers analyzing spectrometer data from NASA’s Mars Reconnaissance Orbiter, which looked down on the floor of McLaughlin Crater. The Martian crater is 57 miles (92 kilometers) in diameter and 1.4 miles (2.2 kilometers) deep. McLaughlin’s depth apparently once allowed underground water, which otherwise would have stayed hidden, to flow into the crater’s interior. (more…)

NASA Mars Rover Preparing to Drill into First Martian Rock

By Guest PostJanuary 16, 2013Scienceaileen yingst, bassinite, bradbury landing, calcium, california institute, camera, chemcam, chemical composition, concretions, curiosity, drill hardware, drilling, drilling target, drt, dust removal tool, Environment, evidence, flat rock, fractures, france, gale crater, gillespie lake rock, gypsum, hydrated calcium sulfate, hydrogen, imager, internet buzz, jet propulsion laboratory, john grotzinger, john klein, laser pulsing chemistry, level, mahli, mars, mars hand lens, mars rover curiosity, mars science laboratory, martian flower, martian material, mast camera, mastcam, microbial life, mineral, mission, nantes, NASA, nicolas mangold, pale veins, pasadena, red planet, richard cook, rock, samples, sedimentary rocks, shaler unit, shallow depression, sheepbed outcrop, stream flow, sulfur, Technology, terrain, tucson, veins, wet environment, wet history, yellowknife bay

PASADENA, Calif. — NASA’s Mars rover Curiosity is driving toward a flat rock with pale veins that may hold clues to a wet history on the Red Planet. If the rock meets rover engineers’ approval when Curiosity rolls up to it in coming days, it will become the first to be drilled for a sample during the Mars Science Laboratory mission.

The size of a car, Curiosity is inside Mars’ Gale Crater investigating whether the planet ever offered an environment favorable for microbial life. Curiosity landed in the crater five months ago to begin its two-year prime mission. (more…)

Life Possible on Extrasolar Moons

By Guest PostJanuary 14, 2013Scienceastrobiology, astrophysics potsdam, benign environment, climatic conditions, earth size, energy source, exomoons, exoplanets, extrasolar moons, extrasolar planets, Germany, greenhouse effect, habitable edge, habitable moons, habitable worlds, habitable zone, issue, jupiter, kepler space telescope, leibniz institute, life, liquid surface water, mars, NASA, orbiting planets, possible, rene heller, rory barnes, solar system, sources of light, stellar illumination, sterile gas giants, theoretical model, theoretical question, tidal heating, university of washington

In their search for habitable worlds, astronomers have started to consider exomoons, or those likely orbiting planets outside the solar system. In a new study, a pair of researchers has found that exomoons are just as likely to support life as exoplanets.

The research, conducted by Rory Barnes of the University of Washington and the NASA Astrobiology Institute and René Heller of Germany’s Leibniz Institute for Astrophysics Potsdam, will appear in the January issue of Astrobiology. Heller is lead author of the paper. (more…)

Curiosity Rover Nearing Yellowknife Bay

By Guest PostDecember 14, 2012Sciencecalculation, camera, chemcam, chemistry, curiosity, curiosity traverse map, glenelg area, jet propulsion laboratory, layered martian outcrop, mars, mars rover, mast camera, mastcam, mount sharp, NASA, navcam, navigation camera, outcrop, pasadena, point lake, rick welch, rock composition, sam, sample analysis, science laboratory mission, shaler, sol 123, status report, yellowknife bay

Mars Science Laboratory Mission Status Report

PASADENA, Calif. –– The NASA Mars rover Curiosity drove 63 feet (19 meters) northeastward early Monday, Dec. 10, approaching a step down into a slightly lower area called “Yellowknife Bay,” where researchers intend to choose a rock to drill.

The drive was Curiosity’s fourth consecutive driving day since leaving a site near an outcrop called “Point Lake,” where it arrived last month. These drives totaled 260 feet (79 meters) and brought the mission’s total odometry to 0.37 mile (598 meters). (more…)

NASA Mars Rover Fully Analyzes First Soil Samples

By Guest PostDecember 4, 2012Scienceanalyze, carbon organics, chemin, chemistry, chlorine, curiosity rover, gale crater, ingredient, john grotzinger, ken edgett, life, mahli camera, mars, martian organics, martian soil, mount, NASA, organic compounds, pathfinder, paul mahaffy, rock sample, rocknest, sam, sample analysis, sharp, sulfur, water, water molecules, windblown dust

PASADENA, Calif. – NASA’s Mars Curiosity rover has used its full array of instruments to analyze Martian soil for the first time, and found a complex chemistry within the Martian soil. Water and sulfur and chlorine-containing substances, among other ingredients, showed up in samples Curiosity’s arm delivered to an analytical laboratory inside the rover.

Detection of the substances during this early phase of the mission demonstrates the laboratory’s capability to analyze diverse soil and rock samples over the next two years. Scientists also have been verifying the capabilities of the rover’s instruments. (more…)

NASA Observations Point to ‘Dry Ice’ Snowfall on Mars

By Guest PostSeptember 13, 2012Sciencecarbon dioxide, data, david kass, dry ice, frozen, ice, jpl, mars, mars climate sounder, martian air, martian atmosphere, NASA, particle, paul hayne, phoenix lander, polar caps, reconnaissance orbiter, red planet, residual cap, snow, snow cloud, snowfall, solar system, water

PASADENA, Calif. — NASA’s Mars Reconnaissance Orbiter data have given scientists the clearest evidence yet of carbon-dioxide snowfalls on Mars. This reveals the only known example of carbon-dioxide snow falling anywhere in our solar system.

Frozen carbon dioxide, better known as “dry ice,” requires temperatures of about minus 193 degrees Fahrenheit (minus 125 Celsius), which is much colder than needed for freezing water. Carbon-dioxide snow reminds scientists that although some parts of Mars may look quite Earth-like, the Red Planet is very different. The report is being published in the Journal of Geophysical Research. (more…)

UCLA Scientist Discovers Plate Tectonics on Mars

By Guest PostAugust 10, 2012Sciencean yin, california, canyons, context camera, dead sea, death valley, deformation, egg shell, fault motion, fault system, geological phenomenon, google mars, grand canyon, high resolution, himalayas, hirise, lithosphere, mariner valleys, mars, mola, NASA, planetary geologist, plate tectonics, reconnaissance orbiter, san andreas fault, science team, surface of mars, themis, tibet, ucla, valles marineris

For years, many scientists had thought that plate tectonics existed nowhere in our solar system but on Earth. Now, a UCLA scientist has discovered that the geological phenomenon, which involves the movement of huge crustal plates beneath a planet’s surface, also exists on Mars.

“Mars is at a primitive stage of plate tectonics. It gives us a glimpse of how the early Earth may have looked and may help us understand how plate tectonics began on Earth,” said An Yin, a UCLA professor of Earth and space sciences and the sole author of the new research. (more…)

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