Skip to comments.Sweeping Civilization Away In A Single Wave
Posted on 05/28/2003 5:36:53 PM PDT by RightWhale
Sweeping Civilization Away In A Single Wave
Santa Cruz - May 28, 2003
If an asteroid crashes into the Earth, it is likely to splash down somewhere in the oceans that cover 70 percent of the planet's surface. Huge tsunami waves, spreading out from the impact site like the ripples from a rock tossed into a pond, would inundate heavily populated coastal areas.
A computer simulation of an asteroid impact tsunami developed by scientists at the University of California, Santa Cruz, shows waves as high as 400 feet sweeping onto the Atlantic Coast of the United States. The researchers based their simulation on a real asteroid known to be on course for a close encounter with Earth eight centuries from now. Steven Ward, a researcher at the Institute of Geophysics and Planetary Physics at UCSC, and Erik Asphaug, an associate professor of Earth sciences, report their findings in the June issue of the Geophysical Journal International.
March 16, 2880, is the day the asteroid known as 1950 DA, a huge rock two-thirds of a mile in diameter, is due to swing so close to Earth it could slam into the Atlantic Ocean at 38,000 miles per hour.
The probability of a direct hit is pretty small, but over the long timescales of Earth's history, asteroids this size and larger have periodically hammered the planet, sometimes with calamitous effects. The so-called K/T impact, for example, ended the age of the dinosaurs 65 million years ago. "From a geologic perspective, events like this have happened many times in the past. Asteroids the size of 1950 DA have probably struck the Earth about 600 times since the age of the dinosaurs," Ward said.
Ward and Asphaug's study is part of a general effort to conduct a rational assessment of asteroid impact hazards. Asphaug, who organized a NASA-sponsored scientific workshop on asteroids last year, noted that asteroid risks are interesting because the probabilities are so small while the potential consequences are enormous. Furthermore, the laws of orbital mechanics make it possible for scientists to predict an impact if they are able to detect the asteroid in advance.
"It's like knowing the exact time when Mount Shasta will erupt," Asphaug said. "The way to deal with any natural hazard is to improve our knowledge base, so we can turn the kind of human fear that gets played on in the movies into something that we have a handle on." Although the probability of an impact from 1950 DA is only about 0.3 percent, it is the only asteroid yet detected that scientists cannot entirely dismiss as a threat. A team of scientists led by researchers at NASA's Jet Propulsion Laboratory reported on the probability of 1950 DA crossing paths with the Earth in the April 5, 2002, issue of the journal Science.
"It's a low threat, actually a bit lower than the threat of being hit by an as-yet-undiscovered asteroid in the same size range over the same period of time, but it provided a good representative scenario for us to analyze," Asphaug said.
For the simulation, the researchers chose an impact site consistent with the orientation of the Earth at the time of the predicted encounter: in the Atlantic Ocean about 360 miles from the U.S. coast. Ward summarized the results as follows: The 60,000-megaton blast of the impact vaporizes the asteroid and blows a cavity in the ocean 11 miles across and all the way down to the seafloor, which is about 3 miles deep at that point. The blast even excavates some of the seafloor. Water then rushes back in to fill the cavity, and a ring of waves spreads out in all directions. The impact creates tsunami waves of all frequencies and wavelengths, with a peak wavelength about the same as the diameter of the cavity. Because lower-frequency waves travel faster than waves with higher frequencies, the initial impulse spreads out into a series of waves. "In the movies they show one big wave, but you actually end up with dozens of waves. The first ones to arrive are pretty small, and they gradually increase in height, arriving at intervals of 3 or 4 minutes," Ward said.
The waves propagate all through the Atlantic Ocean and the Caribbean. The waves decay as they travel, so coastal areas closest to the impact get hit by the largest waves. Two hours after impact, 400-foot waves reach beaches from Cape Cod to Cape Hatteras, and by four hours after impact the entire East Coast has experienced waves at least 200 feet high, Ward said. It takes 8 hours for the waves to reach Europe, where they come ashore at heights of about 30 to 50 feet.
Computer simulations not only give scientists a better handle on the potential hazards of asteroid impacts, they can also help researchers interpret the geologic evidence of past events, Ward said. Geologists have found evidence of past asteroid impact tsunamis in the form of inland sediment deposits and disturbed sediment layers in the seafloor that correlate with craters, meteorite fragments, and other impact evidence. An important feature of Ward's simulation is that it enabled him to calculate the speed of the water flows created by the tsunami at the bottom of the ocean--more than 3 feet per second out to distances of several hundred miles from the impact. "That's like a raging river, so as these waves cross the ocean they're going to stir up the seafloor, eroding sediments on the slopes of seamounts, and we may be able to identify more places where this has happened," Ward said.
He added that the waves may also destabilize undersea slopes, causing landslides that could trigger secondary tsunamis. Ward has also done computer simulations of tsunamis generated by submarine landslides. He showed, for example, that the collapse of an unstable volcanic slope in the Canary Islands could send a massive tsunami toward the U.S. East Coast.
A tsunami warning system has been established for the Pacific Ocean involving an international effort to evaluate earthquakes for their potential to generate tsunamis. Ward said that asteroid impact tsunamis could also be incorporated into such a system. "Tsunamis travel fast, but the ocean is very big, so even if a small or moderate-sized asteroid comes out of nowhere you could still have several hours of advance warning before the tsunami reaches land," he said. "We have a pretty good handle on the size of the waves that would be generated if we can estimate the size of the asteroid."
Planetary scientists, meanwhile, are getting a better handle on the risks of asteroid impacts. A NASA-led campaign to detect large asteroids in near-Earth orbits is about half way toward its goal of detecting 90 percent of those larger than 1 kilometer in diameter (the size of 1950 DA) by 2008. "Until we detect all the big ones and can predict their orbits, we could be struck without warning," said Asphaug. "With the ongoing search campaigns, we'll probably be able to sound the 'all clear' by 2030 for 90 percent of the impacts that could trigger a global catastrophe." Rogue comets visiting the inner solar system for the first time, however, may never be detected very long in advance. Smaller asteroids that can still cause major tsunami damage may also go undetected. "Those are risks we may just have to live with," Asphaug said.
we could be struck without warning
Or there could be warning. If it matters.
How fast would these dissipate?
With 400 footers you're toast in either location. It will wash right over Delmarva and keep going till about Frederick or so.
The question will be for these idiots. Will we awards darwin awards per person, or just one for the entire group.
Seems like a good day for a party. Who brings the beer?
I'm still trying to figure out whether it's a Tuesday or a Wednesday. They didn't give a time zone for the imact. Zulu? CST, EST, PST? This is why I miss specials on the History channel...
I'm (if I'm still around in 800 years) going to go up to the beach, well it will be. There is a great spot about 50 miles west of NYC with an elevation of almost 1000 feet above sea level that has a great view of the city that would soon be gone. ;-)
Am I reading this right--the guy's name is Ass Fog?
The computer simulation further showed the waves seeking out the poor and homeless, particularly minorities and working single mothers, and sweeping them all out to sea, but not without first flooding inner city voting locations and thus further disenfranchising the most needy.
Am I reading this right--the guy's name is Ass Fog?
ROFLMAO!!! Great catch!
Asphaug's the name, deep methane deposits are my game!
You know the Spam will keep.
In 800 years there won't be any of that, provided the Dems take the White House next time around. There weren't any poor and homeless, particularly minorities and working single mothers under Clinton's admin were there? No, all these poor and homeless, particularly minorities and working single mothers are Bush's fault. Any Dem will do; Al Sharpton is an excellent choice.
The Spam will be okay unless you got that low-fat, low-sodium nerf-spam.
At any rate it covers more land area than just NYC and DC. It even goes inland to West
I'd guess that you've read "Lucifer's Hammer."
Maybe I need to get people on the Eastern Shore to plant really tall trees -- or build hills out of NJ trash.
Saw this on the Discovery Channel, possible 700 foot wave to hit New York.
They found some of his notes, but he was watching from a bridge or the like. I can't remember what happened to the
spectacle viewers at the narrow end of the bay.
Tried to read that. Just about the only SF book I couln't get through. I had previously read N&P's "Footfall". Same plot, similar characters, except it's more interesting because aliens dropped the asteroid on purpose, and Earth must be avenged.
Did get up to the part where the surfer rides the big wave into the side of a skyscraper, however. And I believe some people would try it.