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Curiosity’s success paves way for human trips to Mars: NASA

Robot next will head toward layered mountain, keep looking for signs of life

AFP-JIJI

The dazzling success of NASA’s rover Curiosity has paved the way for a human conquest of Mars, scientists say, almost one year after the groundbreaking probe first touched down on the red planet.

Since it successfully alighted on the Martian surface on Aug. 6, 2012, Curiosity has gathered and beamed back to Earth a treasure trove of information that is expected to be vital when a manned mission to Mars eventually takes place.

Curiosity, roughly the size of a small 4×4 vehicle and weighing around a ton, has already ticked one of the most important boxes of its mission: establishing beyond doubt that Mars’ environment was capable of supporting microbial life in the distant past.

That breakthrough in March means the rover’s mission is likely to be extended beyond its provisional two-year mandate.

“Successes of our Curiosity — that dramatic touchdown a year ago and the science findings since then — advance us toward further exploration, including sending humans to an asteroid and Mars,” said NASA Administrator Charles Bolden. “Wheel tracks now will lead to boot prints later.”

Curiosity’s nerve-jangling touchdown last year — when the six-wheeled robot landed in the Gale Crater, roughly 10 km from the foot of the planet’s 5,000-meter-tall Mount Sharp, had also provided crucial encouragement for those hoping to one day mastermind a successful human mission.

The complex nature of the landing showed that successfully landing heavier loads on the planet — something that has been regarded as one of the major technological challenges of a manned mission — is possible.

“We have been extremely pleased so far this year,” said Michael Meyer, the lead scientist of NASA’s Mars program. “In terms of contribution to general exploration, it’s a fantastic step forward, because for one, the landing system is new, so that represents a way to get to the planetary surface. We put a metric ton on the surface. The more we learn about Mars, the better informed we will be to send humans in the future.”

Since its arrival on Mars, Curiosity has provided more than 190 gigabits of data — equivalent to around 45,600 songs stored in MP3 files — while beaming back some 36,700 full images and 35,000 thumbnail images.

The rover has also fired more than 75,000 laser shots to investigate the composition of the Martian surface while collecting and analyzing sample material from two rocks.

The rover has traveled more than 1½ km and is heading toward Mount Sharp, where NASA hopes it will yield more clues about the planet’s makeup.

Curiosity’s instruments and cameras enabled it to quickly determine the question of whether Mars could support microbial life, Meyer said.

Shortly after landing, Curiosity detected clusters of pebbles and gravel formed by the flow of water in an ancient riverbed.

Analysis of rocks in the area then determined that the water, which had once flowed, was not too salty or acidic to prevent life.

At Mount Sharp, scientists hope that analysis of sedimentary layers will enable them to determine when Mars may have been suitable to support life.

“If you find that multiple environments were habitable, it increases the likelihood that there was life on Mars,” said John Logsdon, former director of the Space Policy Institute and a current member of NASA’s advisory committee. “The mission has been remarkably successful. It’s been pushing the envelope in both technical and human capabilities, and it is something that everybody should be proud of,” he added.

Meyer expressed optimism that Curiosity may even be able to detect more definitive signs of life during the year ahead.

“Curiosity could make a major discovery — it has the capability to be very lucky,” he said. “The instruments are specifically selected to determine whether or not at a certain time in the past Mars could support life,” he explained. “But it does have the capability to measure organic (matter), so if there is a significant signature of life from the past, it might be able to sort it out.

“However, any confirmation of past life or even life today will require another mission,” said Meyer, noting that NASA plans to send a second rover to Mars — Curiosity 2 — in 2020.

Meanwhile, the Euro-Russian ExoMars robot, a rover that will also search for signatures of Martian life, is to launch in 2018.