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Hot Topic Solar System Meteorites, Comets and Asteroids Small Rocks Make Big Impacts
Small Rocks Make Big Impacts
Based on a Sandia National Laboratories news release
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Meteorites, Comets and Asteroids
Posted:   01/03/08

Summary: Researchers have found that a smaller asteroid than previously thought caused the destructive 1908 Tunguska impact in Siberia. The finding is helping scientists determine the amount of damage small asteroids can potentially cause to ecosystems and human populations.
When a 20-meter asteroid struck the Tunguska forest in Siberia, trees were incinerated in a 9-mile radius and knocked over in a 25-mile radius. Luckily, the asteroid did not strike a heavily populated area.
Credit: Smithsonian Institution

The stunning amount of forest devastation at Tunguska a century ago in Siberia may have been caused by an asteroid only a fraction as large as previously published estimates, Sandia National Laboratories supercomputer simulations suggest.

“The asteroid that caused the extensive damage was much smaller than we had thought,” says Sandia principal investigator Mark Boslough of the impact that occurred June 30, 1908. “That such a small object can do this kind of destruction suggests that smaller asteroids are something to consider. Their smaller size indicates such collisions are not as improbable as we had believed.”

Because smaller asteroids approach Earth statistically more frequently than larger ones, he says, “We should be making more efforts at detecting the smaller ones than we have till now.”

The effects of the impact in Tunguska are still visible a century after the event.
Credit: Galena HS

The new simulation - which more closely matches the widely known facts of destruction than earlier models - shows that the center of mass of an asteroid exploding above the ground is transported downward at speeds faster than sound. It takes the form of a high-temperature jet of expanding gas called a fireball.

This causes stronger blast waves and thermal radiation pulses at the surface than would be predicted by an explosion limited to the height at which the blast was initiated.

“Our understanding was oversimplified,” says Boslough, “We no longer have to make the same simplifying assumptions, because present-day supercomputers allow us to do things with high resolution in 3-D. Everything gets clearer as you look at things with more refined tools.”

Sandia is a National Nuclear Security Administration laboratory.

The new interpretation also accounts for the fact that winds were amplified above ridgelines where trees tended to be blown down, and that the forest at the time of the explosion, according to foresters, was not healthy. Thus previous scientific estimates had overstated the devastation caused by the asteroid, since topographic and ecologic factors contributing to the result had not been taken into account.

Sandia researcher, Mark Boslough, led the team that used a supercomputer to simulate how a 'fireball' might form from an asteroid exploding in the Earth's atmosphere.
Credit: Sandia/Randy Montoya

“There’s actually less devastation than previously thought,” says Boslough, “but it was caused by a far smaller asteroid. Unfortunately, it’s not a complete wash in terms of the potential hazard, because there are more smaller asteroids than larger ones.”

Boslough and colleagues achieved fame more than a decade ago by accurately predicting that that the fireball caused by the intersection of the comet Shoemaker-Levy 9 with Jupiter would be observable from Earth.

Simulations show that the material of an incoming asteroid is compressed by the increasing resistance of Earth’s atmosphere. As it penetrates deeper, the more and more resistant atmospheric wall causes it to explode as an airburst that precipitates the downward flow of heated gas.

Because of the additional energy transported toward the surface by the fireball, what scientists had thought to be an explosion between 10 and 20 megatons was more likely only three to five megatons. The physical size of the asteroid, says Boslough, depends upon its speed and whether it is porous or nonporous, icy or waterless, and other material characteristics.

“Any strategy for defense or deflection should take into consideration this revised understanding of the mechanism of explosion,” says Boslough.

One of the most prominent papers in estimating frequency of impact was published five years ago in Nature by Sandia researcher Dick Spalding and his colleagues, from satellite data on explosions in atmosphere. “They can count those events and estimate frequencies of arrival through probabilistic arguments,” says Boslough.

This painting depicts an asteroid slamming into tropical, shallow seas of the Yucatan Peninsula. This famous impact, which occurred approximately 65 million years ago, is believed to have caused the extinction of the dinosaurs and many other species on Earth. Now scientists are interested in the effects of smaller impacts on Earth, which can happen much more frequently.
Credit: Donald E. Davis

Most studies of asteroid impacts on Earth have focused on large-scale impacts that can cause drastic changes in the global environment. The new findings concerning the Tunguska impact are now helping astrobiologists understand what role small asteroid impacts may have played in the history of life on Earth, and the potential threat they may pose for the future of life on our planet.

The work was presented at the American Geophysical Union meeting in San Francisco on Dec. 11. A paper on the phenomenon, co-authored by Sandia researcher Dave Crawford and entitled “Low-altitude airbursts and the impact threat” has been accepted for publication in the International Journal of Impact Engineering. The research was paid for by Sandia’s Laboratory-Directed Research and Development office.

Related Web Sites

The Threat of Small Rocks
The Art of Asteroid Avoidance
Asteroid Skywriters
What Happened at Meteor Crater?
Great Impact Debate I: Benefits of Hard Bodies
Multiple Impacts?
Toutatis: Almost Too Close for Comfort

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