Opportunity Rover Survives Worst Part of Another Martian Winter As It Continues Study of Ancient Gully

Winnemucca mesa, near the entrance to Perseverance Valley. Photo Credit: NASA/JPL-Caltech

As incredible as it is to believe, NASA’s Opportunity rover is still going strong on Mars, nearly fourteen years after landing in January 2004. And now once again, it has just passed the shortest daylight time of the Martian year, the worst part of the Martian winter, with pretty clean solar panels to boot. Unlike the newer Curiosity rover which uses nuclear power, Opportunity, and its now-dead twin Spirit, uses solar panels for energy. At the same time, the rover continues to study an ancient gully thought to have been carved by water in the distant past.

“I didn’t start working on this project until about Sol 300, and I was told not to get too settled in because Spirit and Opportunity probably wouldn’t make it through that first Martian winter,” recalled Jennifer Herman, power subsystem operations team lead for Opportunity at NASA’s Jet Propulsion Laboratory in Pasadena, California. “Now, Opportunity has made it through the worst part of its eighth Martian winter.”

Just like Earth, Mars has a tilted axis and seasons, although the Martian year is about twice as long. The period of shortest daylight this year was in October and November, Earth time.

Another recent view of Opportunity looking back at its tracks as it continues to move down the slope in Perseverance Valley. Photo Credit: NASA/JPL-Caltech
A light-toned rock outcrop in the valley called La Bajada, which contains little “nobs” on the rocks, with “tails” of material behind them. Photo Credit: NASA/JPL-Caltech
A closer look at some of the “nobs” on the rocks, thought to be evidence of more recent wind erosion. Photo Credit: NASA/JPL-Caltech

Having fairly clean solar panels is good, including because scientists are anticipating that there may be another planet-wide dust storm in 2018. The last such storm was in 2007.

“We were worried that the dust accumulation this winter would be similar to some of the worst winters we’ve had, and that we might come out of the winter with a very dusty array, but we’ve had some recent dust cleaning that was nice to see,” Herman said. “Now I’m more optimistic. If Opportunity’s solar arrays keep getting cleaned as they have recently, she’ll be in a good position to survive a major dust storm. It’s been more than 10 Earth years since the last one and we need to be vigilant.”

“Relying on solar energy for Opportunity keeps us constantly aware of the season on Mars and the terrain that the rover is on, more than for Curiosity,” she added.

Recent image showing Opportunity’s solar panels to be relatively dust-free – good news for the rover as it prepares to enter 2018. Photo Credit: NASA/JPL-Caltech

In the meantime, Opportunity has been busy investigating Perseverance Valley, a gully in the rim of Endeavour crater that scientists think was carved by liquid water a few billion years ago. The rover has been going to different specific locations within the valley, referred to as “lily pads,” to examine the rocks and soil.

“We have not been seeing anything screamingly diagnostic, in the valley itself, about how much water was involved in the flow,” said Opportunity Project Scientist Matt Golombek, of JPL. “We may get good diagnostic clues from the deposits at the bottom of the valley, but we don’t want to be there yet, because that’s level ground with no more lily pads.”

“We are confident this is a fluid-carved gully, and that water was involved,” said Principal Investigator Steve Squyres of Cornell University in Ithaca, N.Y. “Fluid-carved gullies on Mars have been seen from orbit since the 1970s, but none had been examined up close on the surface before. One of the three main objectives of our new mission extension is to investigate this gully. We hope to learn whether the fluid was a debris flow, with lots of rubble lubricated by water, or a flow with mostly water and less other material.”

 

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3 Comments

  1. I wish we could have used the technology used by Opportunity earlier in our exploration of space after our moon landing. We could be building outposts on Mars by now.

  2. Fourteen years and “still ticking!” Who would have thought that possible? The pictures continue to amaze us. Someday in the distant future, these artifacts will be found and hopefully displayed in some sort of Martian museum.

    • “…artifacts will be found and hopefully displayed”

      Unless they are scavenged for their parts.
      I started a project a few years ago to document every component of every spacecraft on the surface of Mars. And I do mean every single component, every nut, bolt, screw, wire, connector, tube, motor, capacitor, inductor, solar cell, lens…E V E R Y T H I N G. This database will go on a CD (or flash drive -whatever) to be carried by early explorers who must pack as lightly as possible.

      When I’m ready to retire, I will do a Kickstarter campaign to help pay for another trip to Russia for more digging at TsKBEM and NPO Lavochkin.

      Why? Because there is no Ace Hardware on Mars (yet), a piece of titanium tubing from a dead space probe could save someone’s life in a pinch.

      I would recommend that Viking I be made a “memorial” to be left alone, unless scavenging a part from it is truly a life-or-death situation.

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