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Hot Topic Solar System Mars Chasing Dust Devils
 
Chasing Dust Devils
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Mars
Posted:   06/01/04

Summary: One of the fascinating movies one could make on Mars today is time-lapse film of an afternoon dust devil, or miniature tornado. While Spirit rover scientists capture this kind of tiny twister, the hope remains that such an interesting weather pattern might give clues to how energy and dust gets moved around on red planet.


Mars Global Surveyor
Ares Vallis Dust Devil MGS MOC Release No. MOC2-724, 12 May 2004. Image Credit: Mars Global Surveyor, Malin Space Systems
Dust devils are like miniature tornadoes, about 10 to 100 meters wide with 20- to 60-mile-per-hour (32- to 96-km/hr) winds swirling around a hot column of rising air.

Mars has only a faint atmosphere [less than one percent of terrestrial pressures], yet offers up its history of dust devils as swirling tracks in a remarkable landscape of wind-swept and carved terrain. These tiny twisters tend to appear in the middle afternoon on Mars, when solar heating is maximum and when warm air rises and collides with other pressure fronts to cause circulation.

In his first press conference after the Spirit rover landed, the principal investigator for the rover's science package, Cornell's Steven Squyres, described one instance his team has been discussing: the intriguing possibility that at Gusev, over their three-month mission, the rover's camera may actually be able to animate a dust devil in action.

Squyres informally proposed a mini-series of frames, or twister movie which with some meterological luck, might offer a rare example of surface weather on another planet.

Ares Vallis Dust Devil

When it was operating in the Ares/Tiu Valles region of Chryse Planitia, Mars, in 1997, Mars Pathfinder detected dust devils that passed over and near the lander. From orbit, no images of dust devils at the Mars Pathfinder site have yet been acquired, but this Mars Global Surveyor (MGS) Mars Orbiter Camera (MOC) image shows a summertime dust devil near the rim of a 610-meter (~670 yards)-diameter impact crater in the same general region as the Mars Pathfinder site. This scene [right] is near 19.6 degrees N, 32.9 degrees W, in part of the Ares Vallis system. The dust devil in this case is not making a streak, as dust devils tend to do in some regions of Mars. The dark feature to the right (east) of the dust devil is its shadow. This picture covers an area approximately 3 km (1.9 mi) across and is illuminated by sunlight from the left/upper left.

Dust Events

By comparison to how a dust devil in Arizona might stir up uncultivated farmland, the scale on Mars is much more daunting. Smith's camera's in fact had to survive just such an onslaught one stormy afternoon during the 83rd Martian day (or sol) back in 1997.

Mars Global Surveyor
Dust Event MGS MOC Release No. MOC2-737, 25 May 2004, From time to time, the Mars Global Surveyor (MGS) Mars Orbiter Camera (MOC) catches--in action--an afternoon dust storm, dust devil, or other dust-raising event. The dust-raising event shown here, probably the result of a sudden strong gust of wind, occurred in November 2003 in a crater located near 57.5 degrees S, 60.6 degrees W. Sunlight illuminates the scene from the upper left, so the dark area below the dust plume is its shadow. The picture covers an area about 3 km (1.9 mi) across. Image Credit: Mars Global Surveyor, Malin Space Systems
"These martian dust devils dwarf the five-to-10 meter terrestrial ones, can be greater than 500 meters in diameter and several thousand meters high. The track patterns are known to change from season to season, so these huge dust pipes must be a large factor in transporting dust and could be responsible for eroding landforms," said Peter Smith of the University of Arizona (Tucson) who led the 2002 MATADOR (Martian Atmosphere and Dust in the Optical and Radio) activity.

"At the Pathfinder site during its 83 sol mission, approximately thirty dust devils were either sensed by the pressure drop as they passed over the lander, or were imaged by the Pathfinder camera," says Smith. "Based on these observations, one might expect to see several dust devils per hour from an active site on Mars between 10 am and 3 pm. Few, if any dust devils will be present at other times. Dust devils typically form during late spring and summer and can be found at all latitudes. Exactly, how their population density varies around the planet is currently unknown."

In addition to Pathfinder's run-in with a dust devil, previous missions to Mars have run into very dusty days. For instance, there was a dust storm covering the Viking Lander I (VL-1) site on Martian day (1742) or sol 1742 (1 Martian year=669 Earth days). In 1971, Mariner 9 and 2 USSR missions all arrived during a dust storm.

No dust devils have been imaged yet at the Spirit site, Gusev Crater, but mission scientists continue to look in the mid-afternoon for rising, circulating air that might be compared with a dusty pattern on the horizon.

But actually chasing such a storm on Mars is something any rover will likely need to steer clear from. Martian dust includes magnetic, composite particles, with a mean size of one micron--the equivalent to powdered cement or fluor in consistency. This size range is about five percent the width of a human hair.

"Rovers and other robots must be carefully designed to withstand the sandblasting that they will endure from dust devils," said Smith. "Bearing surfaces and solar panels must be protected and dust accumulation on solar panels will lower their efficiency."

viking_map
Viking Lander-1 (1976) showed dramatic changes during dust storm activity. The appearance of the sky changes with the atmospheric dust content. Although the colors shown here are processed, not real, they do show relative changes in atmospheric opacity over many sols. Credit: JPL/NASA
Squyres has had to prepare for a host of such dust related issues that may affect the timing of certain instruments on-board the rovers. He wrote in his mission diaries: "Our Microscopic Imager has to have a dust cover. After all, if you're going to be waving a sensitive scientific camera around on the surface of the dustiest planet in the solar system, it makes sense to have a cover to keep the lens clean. And the cover has to be transparent. We use a motor to open and close it, and the motor is a very reliable one. But even so, if it fails for some reason, we want to be sure we still can take pictures...Lori Shiraishi and a couple of the other mechanical wizards at JPL looked real hard at the thing, and somehow managed to come up with a special tool that let them snake their way in there, get to the cover, and get it off the camera. If they weren't mechanical engineers, I think they'd be safe crackers".

The color calibration of the Pancam is strongly affected by dust in the atmosphere, just as terrestrial dust scatters light here on Earth and casts a blue sky during the day. On Mars, the sky is pinkish-orange, depending on local conditions. The Pancam has its own color-calibration targets to adjust for changes in local dustiness, but as Bill Nye, project lead for analyzing solar shadows on Mars for his Marsdial project, "If it's dusty out, we won't do the sundial observation time-lapse that day. But, the photometric calibration targets are still useful on dusty days. They have color patches and reflective surfaces, and so on. If the shadow is washed out by diffused light, well, the useful effects of pink or orange shadows have to be inferred and approximated without observation. As far as I know, the pan-cams are to be run every day or sol. The useful time for the missions and the cameras is probably going to depend on how much dust settles on the solar panels. It's an odd or surprising constraint. But that's it, if nothing else goes wrong. We may be able to fire the space crafts back up during the next Martian summer. We'll see, perhaps literally."

Planetary scientist, Bill Hartmann, is a member of the MGS team and also a talented painter and author. Before the mission, he spoke with Astrobiology Magazine about the interesting possiblities for interpreting not just the geology of the landing site, but also atmospheric phenomena like dust devils and weather. "On my easel I have a newly started painting of the light filtering through a Martian dust storm."

Other dust devils caught in the act by orbital cameras are highlighted below:

  • Daedalia Dust Devil
  • Exhumed Crater with Slope Streaks
  • Peering Into A Cerberus Fossae Trough
  • Buried Mid-Latitude Craters
  • Terby Sedimentary Rocks
  • South Polar Mesas
  • Small Dust Storm in Syria/Claritas
  •  


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    Malin Space Systems
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    Mars 2001 Odyssey

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