杏吧原创

Airbursts trigger dust avalanches on Mars

Shock waves from falling meteorites set off huge landslides, scouring the Martian surface
Airbursts trigger dust avalanches on Mars
(Image: University of Arizona/JPL/Getty)

THE surface of Mars may be cold and desolate, but it is not unchanging. New images show that avalanches of dust scour dozens of Martian sites each year.

Without the abundant water and plate tectonics that keep Earth鈥檚 surface in motion, the surface of Mars is much slower to change. But in one way it is more active. While Earth鈥檚 atmosphere shields us from asteroids smaller than 30 metres across, which burn up or shatter too high above the ground to have much effect on us, Mars鈥檚 atmosphere is just 1 per cent the density of Earth鈥檚. Even rocks less than a metre across make it to the ground and gouge out craters.

spots about 20 new craters between 1 and 50 metres across on Mars each year 鈥 scars that were not present in earlier images. Now closer scrutiny of these images has found thousands of small avalanches near 16 of the craters.

The avalanches appear as dark streaks on the hilly terrain that surrounds the craters (a similar but more dramatic avalanche is shown in the image). They show up only in areas where there is a lot of light-coloured dust on the ground. To form, it seems the surface鈥檚 dust coating was shaken loose and slid downhill, revealing the darker rocks beneath, says a team led by Kaylan Burleigh of the University of Arizona in Tucson (, ).

The team carried out computer simulations that showed that, surprisingly, the avalanches do not seem to be caused by meteorites hitting the ground, but by the shock wave generated by a rock鈥檚 passage through the atmosphere. This spreads across an area about a million times larger than the craters. 鈥淚t was astonishing that a relatively small impact could affect a large area,鈥 says team member of Purdue University in West Lafayette, Indiana.

聯It was astonishing that a relatively small meteorite impact could affect a large area with dust avalanches聰

In one case, a cluster of 20-metre-wide craters is surrounded by thousands of dust avalanches in an area 4 kilometres square. The many small avalanches give the whole area a darker hue, like a giant black eye around the craters 鈥 except for a narrow light zone shaped like a curved dagger.

That light zone is telling. As a rock tears through the atmosphere at supersonic speed it generates a shock wave, before triggering a second blast when it hits the ground. The team鈥檚 simulations show that the second shock interferes with the first, reinforcing it in some places and cancelling it out in others. Where it is cancelled out, a narrow curved strip of relatively undisturbed ground is left behind 鈥 just like the light zone seen around the crater cluster, says Melosh.

The Martian surface may be the best place in the solar system for recording the effects of these shock waves, since fewer impactors are blocked by its atmosphere than on Earth, says of Sandia National Laboratory in Albuquerque, New Mexico.

But they do occasionally cause devastation closer to home. The atmospheric shock wave from a 30 to 50-metre asteroid or comet levelled 2000 square kilometres of forest in Siberia in 1908. Studying shock waves on Mars might help us predict their effects on Earth, says Boslough.

Fault lines hint at tectonic activity

Avalanches aren鈥檛 the only sign that Mars is alive (see main story). Two fresh fault lines suggest that its landscape may be tectonically active, and could explain how methane gets into the planet鈥檚 atmosphere.

Mars is usually regarded as a geological relic, but Mauro Spagnuolo of the University of Buenos Aires in Argentina and colleagues have found what appear to be recent faults in a region known as . In images, they saw large cracks near the base of two plateaus. One slices through a landslide deposit thought to be 1.9 million years old, meaning it must be younger than that ().

The fault could have produced quakes as powerful as magnitude 5, the team estimates. This could mean the Martian surface still shakes occasionally. 鈥淭wo million years ago is to Mars what two weeks ago is to you or I,鈥 says of the Colorado School of Mines in Golden, who was not involved in the study. 鈥淚f Mars has been tectonically active in the last 2 million years, it is active now.鈥 If so, the faults could act as conduits for methane to escape from the Martian interior.

While that does not tell us how the methane was produced, such fissures could be good places to look for extraterrestrial life. 鈥淲e know that on Earth faults are planes of weakness where all kind of fluids circulate,鈥 says Spagnuolo. So faults on Mars may provide water, warmth and shelter from the harsh conditions on the planet鈥檚 surface.

Michael Reilly

Topics: Mars / Solar system