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Mars Rover Curiosity Offers Tantalizing Taste Of 2-Tone Mineral Veins

Mars Rover Curiosity Offers Tantalizing Taste Of 2-Tone Mineral Veins

By Amina Khan, Los Angeles Times (TNS)

Climbing up Mt. Sharp in the middle of Gale Crater, NASA’s Mars rover Curiosity has discovered a two-tone vein of minerals that reveal multiple episodes of water flowing through rock — even after the lake that once filled the bottom of the crater had ceased to be.

The rover’s discovery points to an even more complex, and perhaps long-lived, watery environment on the Red Planet.

“Not only does this help us try to understand the chemistry of the rocks that we measure in the region, but on a different sort of scale it tells us that fluids were around on Mars for a long time,” said Linda Kah, a sedimentary geologist at the University of Tennessee, Knoxville, and a member of Curiosity’s science team.

The duo-tone deposits, at a spot called Garden City, sit some 39 feet above the lower edge of the Pahrump Hills outcrop, which is part of the basal layer of the 3-mile-high Mt. Sharp. They feature both light and dark regions. They rise about 2.5 inches above the rock surface like ridges, because the rock that once surrounded them has worn away. These kinds of veins are formed when fluid flows through cracks in a rock and leaves some minerals behind.

Most veins have been bright and light-colored, Kah said, often filled with calcium sulfate. On Earth, such mineral deposits are often associated with salty water. But the dark deposits were somewhat unexpected, she said.

The dark parts often seem to line either side of the white veins, rather like an ice cream sandwich — a description Kah’s 10-year-old son Douglas came up with while looking over his mother’s shoulder at images of the deposits.

“I think they’re incredibly gorgeous and beautiful,” she said.

Whether appetizing or attractive, the two different tones are scientifically telling. Researchers look at Martian rocks in part to see how water (and the stuff in the water) may have affected a particular rock during a particular era. But if the same rock is getting soaked with very different kinds of water sources over time, then it may show a confusing mix of traits from a long period in which the environment dramatically changed over and over again.

That’s why the mineral veins are so helpful. The deposits in the cracks can look very different from the surrounding rock because they were formed much later than the rock itself. So while the rock’s chemistry and mineralogy will have been affected by multiple environments, the mineral vein offers a snapshot of at least one individual era in the Red Planet’s history.

In this case, this mineral vein actually offers snapshots into three environments. At first the scientists thought there were two different epochs, represented by the light and dark deposits, but it turns out that some dark spots are chemically very different from other dark areas.

“It was really very exciting for us,” Kah said. “Now we’ve just added complexity, so it makes it more fun to figure it out in the long run.”

The scientists think this environment existed long after the lake that once filled the bottom of Gale Crater dried up for good, and that these deposits were created by water under a significant amount of rock — enough to exert the kind of pressure that would force the fluid to push through cracks in the stone.

It’s also unclear how hot or cold or acidic or salty this water was; the fluid’s chemistry could have been very different from the potentially potable liquid in that long-gone lake.

But it’s still quite possible that microbial life, if it ever existed, could have thrived in this environment, just as they thrive in the rock fractures at the hot springs of Yellowstone National Park, she added.

(c)2015 Los Angeles Times, Distributed by Tribune Content Agency, LLC

Image Credit: NASA/JPL-Caltech/MSSS

NASA’s Mars Rover Curiosity Finally Arrives At Mount Sharp

NASA’s Mars Rover Curiosity Finally Arrives At Mount Sharp

By Amina Khan, Los Angeles Times

After wandering in the Martian desert for 25 months, NASA’s Curiosity rover has finally arrived at its promised land: the base of Mount Sharp, the 3-mile-high mound in the middle of Gale Crater.

The arrival marks the beginning of the Mars Science Laboratory rover’s original mission: to read the mountain’s clay-rich lower layers like pages in a history book, pages that could reveal an array of life-friendly environments on the Red Planet.

“We have finally arrived at the far frontier that we have sought for so long,” project scientist and California Institute of Technology geologist John Grotzinger said Thursday.

Getting to Mount Sharp has been a long time coming. The trip was delayed in part by a detour the rover took to look at a promising spot called Yellowknife Bay. Although it cost the team at Jet Propulsion Laboratory about half a year, the gamble paid off; rocks drilled there revealed a smorgasbord of chemical elements that would have been suitable for microbial life, if it ever existed.

Now that the scientists know habitable environments did exist on the Red Planet, part of the next step will be looking for those particular environments that have a higher likelihood of preserving organic molecules, Grotzinger said.

The rover is closing in on a spot known as Pahrump Hills, an outcrop that wasn’t on the original itinerary — a happy outcome of the detour Curiosity took to avoid sharp rocks that had been causing an alarming amount of damage on the rover’s thin wheels. This spot will now be the gateway to Mount Sharp, and it probably holds Curiosity’s first official drilling target. Grotzinger said the rover would make it there in the next week or two.

The scientists are particularly interested in a stretch of rock known as the Murray Formation, which it will cross en route to its original stopping point, Murray Buttes. Kathryn Stack, Curiosity rover mission scientist, pointed out that the Murray Formation could provide an unprecedented wealth of information about the history of habitable environments on Mars. After all, the Yellowknife Bay formation where Curiosity found its first life-friendly spot was only 5 meters thick, representing perhaps thousands to hundreds of thousands of years of sedimentary deposits. The Murray Formation, by contrast, is 200 meters thick.

“We potentially have millions to tens of millions of years of Martian history just waiting for us to explore,” Stack said.

The hard part, scientists said, will be deciding how much time to devote to Pahrump Hills, Murray Buttes and the next interesting unit up the slopes, called Hematite Ridge. Grotzinger said he was particularly interested in the silicon in the upcoming rocks, because the element’s distribution can often signal the movement of water.

Mission officials also responded to criticism from a NASA Planetary Senior Review panel report released this summer. The report contended that the plan to explore Mount Sharp did not make good use of the rover’s instruments, calling it “a poor science return for such a large investment in a flagship mission.”

“I think the principal recommendation of the panel is that we drive less and drill more,” Grotzinger said, and he said that’s not far from what they are going to end up doing. “I think that the recommendations of the review and what we want to do as a science team are going to align, because we have now arrived at Mount Sharp, we are going to do a lot more drilling.”

Photo via WikiCommons

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