From the The Earth Institute at Columbia University
Waiting for Death Valley’s Big Bang
A volcanic explosion crater may have future potential
In California’s Death Valley, death is looking just a bit closer. Geologists have determined that the half-mile-wide Ubehebe Crater, formed by a prehistoric volcanic explosion, was created far more recently than previously thought—and that conditions for a sequel may exist today.
Up to now, geologists were vague on the age of the 600-foot deep crater, which formed when a rising plume of magma hit a pocket of underground water, creating an explosion. The most common estimate was about 6,000 years, based partly on Native American artifacts found under debris. Now, a team based at Columbia University’s Lamont-Doherty Earth Observatory has used isotopes in rocks blown out of the crater to show that it formed just 800 years ago, around the year 1200.
That geologic youth means it probably still has some vigor; moreover, the scientists think there is still enough groundwater and magma around for another eventual reaction. The study appears in the current issue of the journal Geophysical Research Letters.
Ubehebe (YOU-bee-HEE-bee) is the largest of a dozen such craters, or maars, clustered over about 3 square kilometers of Death Valley National Park. The violent mixing of magma and water, resulting in a so-called phreatomagmatic explosion, blew a hole in the overlying sedimentary rock, sending out superheated steam, volcanic ash and deadly gases such as sulfur dioxide. Study coauthor Brent Goehring, (now at Purdue University) says this would have created an atom-bomb-like mushroom cloud that collapsed on itself in a donut shape, then rushed outward along the ground at some 200 miles an hour, while rocks hailed down. Any creature within two miles or more would be fatally thrown, suffocated, burned and bombarded, though not necessarily in that order. “It would be fun to witness—but I’d want to be 10 miles away,” said Goehring of the explosion.
The team began its work after Goehring and Lamont-Doherty professor Nicholas Christie-Blick led students on a field trip to Death Valley. Noting that Ubehebe remained poorly studied, they got permission from the park to gather some 3- to 6-inch fragments of sandstone and quartzite, part of the sedimentary conglomerate rock that the explosion had torn out. In the lab, Goehring and Lamont-Doherty geochemist Joerg Schaefer applied recent advances in the analysis of beryllium isotopes, which change their weight when exposed to cosmic rays. The isotopes change at a predictable rate when exposed to the rays, so they could pinpoint when the stones were unearthed. An intern at Lamont-Doherty, Columbia College undergraduate Peri Sasnett, took a leading role in the analysis, and ended up as first author on the paper.
IMAGE: Geochemists dated the crater by analyzing rocks thrown out when it exploded. Lead author Peri Sasnett contemplates a sample.
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The dates clustered from 2,100 to 800 years ago; the scientists interpreted this as signaling a series of smaller explosions, culminating in the big one that created the main crater around 1200. A few other dates went back 3,000 to 5,000 years; these are thought to have come from earlier explosions at smaller nearby maars. Christie-Blick said the dates make it likely that magma is still lurking somewhere below. He pointed out that recent geophysical studies by other researchers have spotted what look like magma bodies under other parts of Death Valley. “Additional small bodies may exist in the region, even if they are sufficiently small not to show up geophysically,” he said. He added that the dates give a rough idea of eruption frequency: about every thousand years or less, which puts the current day within the realm of possibility. “There is no basis for thinking that Ubehebe is done,” he said.
Hydrological data points the same way. Phreatomagmatic explosions are thought to take place mainly in wet places, which would seem to exclude Death Valley–the hottest, driest place on the continent. Yet, as the researchers point out, Lamont-Doherty tree-ring researchers have already shown that the region was even hotter and drier during Medieval times, when the blowup took place. If there was sufficient water then, there is certainly enough now, they say. Observations of springs and modeling of groundwater levels suggests the modern water table starts about 500 feet below the crater floor. The researchers’ calculations suggest that it would take a spherical magma chamber as small as 300 feet across and an even smaller pocket of water to produce a Ubehebe-size incident.
Park officials are taking the study in stride. “We’ve typically viewed Ubehebe as a static feature, but of course we’re aware it could come back,” said geologist Stephanie Kyriazis, a park education specialist. “This certainly adds another dimension to what we tell the public.” (About a million people visit the park each year.) The scientists note that any reactivation of the crater would almost certainly be presaged by warning signs such as shallow earthquakes and opening of steam vents; this could go on for years before anything bigger happened.
For perspective, Yellowstone National Park, further east, is loaded with explosion craters made by related processes, plus the world’s largest concentration of volcanically driven hot springs, geysers and fumaroles. The U.S. Geological Survey expects an explosion big enough to create a 300-foot-wide crater in Yellowstone about every 200 years; there have already been at least 20 smaller blowouts in the past 130 years. Visitors sometimes are boiled alive in springs, but no one has yet been blown up. Death Valley’s own fatal dangers are mainly non-geological: single-vehicle car accidents, heat exhaustion and flash floods. Rock falls, rattlesnakes and scorpions provide extra hazards, said Kyriazis. The crater is not currently on the list. “Right now, we’re not planning to issue an orange alert or anything like that,” she said.
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The paper, “Do Phreatomagmatic Eruptions at Ubehebe Crater (Death Valley California) Relate to a Wetter Than Present Hydro-Climate?” is available from the authors, or The Earth Institute.
FYI, a half mile across and six hundred feet deep sounds big, but that’s only 31,000,780 cubic meters of stuff. Granted, it is a maar, and it did happen all at once (mostly), and that’s just the size of the hole… but Eyjafjallajökull dumped about 140,000,000 cubic meters of tephra in it’s last eruption.
Larger than a lot of stuff that the US has seen, but not what I would call “stupendous.” (Mt St Helens had 1,200,000,000 cubic meters of teprha in it’s 1980 eruption)
very minor observation/correction: Yellowstone is more north than east of Death Valley…. approx. 600 miles north vs approx. 200 miles east….
now, back to bed….
Fascinating post.
@ur momisugly Bill Parsons
Every school child now knows that it was colder during the Medieval Warm Period. That’s why we enlightened and well-funded beings now calls it the “putative warm period” p-u-t-a-t-i-v-e.”
I did not realise that the correct terminology is not the “putative warm period.” Thanks for enlightening me. About 13 years ago I visited Greenland and saw some of the Norse ruins there including a church. I now realise that it was just an optical illusion – a putative church built by putative Vikings!
In my last message I should have written “is now the putative warm period”, and NOT “is not the putative warm period.”
Rocky Road,
And your point is ? Otherwise you posted a non sequitur….?
GeoLurking said:
Eyjafjallajökull,
Yeah, say that 5 times fast, i dare you…. You’ll hurt yourself…
Year 1200?
That curiously coincides with the widespread abandonment and migration of peoples and a shift of climate in southwestern United States estimated to have occurred between 1150 and 1400. It’s been a huge mystery and there isn’t a strong story of an eruption in the oral tradition of the tribes. It’d be an interesting if the eruption was the answer.
Rocky Road
“… and the vast majority of volcanoes demonstrate this type of signature’.
If the hypothesis only covers the… ‘vast majority’… is it missing something?
arrggh. Tangeng beat me to the disapparance of the Cliff Dwelers tie. If this were the case then there should be geologic evidence of the eruption at the Cliff Dweller sites which would confirm both the erruption date and the plausability of such a tie.
That being said Detroit is becoming a ghost town without a smidge of volcanic activity. Maybe the Cliff Dwellers created an unsustainable welfare state and its younger population just moved to a place where they could have a life devoid of obliged slavery curtesy of their idiot elders.
Well it’s a good thing we are using up all of the ground water. No explosion if all of that pesky water is used up.
As a relatively soon-to-be resident of Montana, I’m much more concerned about the Yellowstone Caldera, which is overdue…
I don’t think this is a new finding. From National Geographic January 1970 pp.98-99–
“Ashes and cinders spewed over northern Death Valley, perhaps as recently as 1,000 years ago, when a mountain blew its top…Little Hebe on its shoulder may have formed even later.”
The picture accompanying the caption shows the multiple craters not really visible in the article above. The NatGeo article clearly shows the silt and sand carried to the bottom of the craters by rainwater and erosion, and it’s not a great amount. This alone should have told the scientists that the explosion was fairly recent. Interestingly in the NatGeo article it mentions that in 1970 Death Valley had an 18 mile long lake in it formed by a recent 2″ rain which was enough to entirely wash out roads. During the ice age 20,000 years ago, they reckoned the lake to have been 90 miles long. Death Valley is a graben surrounded by mountains.
RockyRoad says:
January 24, 2012 at 9:15 pm
R. Gates says:
January 24, 2012 at 3:33 pm
“Or, nothing could happen at this site for 10 000 years or more.
That’s exactly my prediction about Global Warming, with one exceptional caveat emptor: The next Ice Age, which is just as certain as death and taxes, and just about as pleasant–coming, as it were, to a neighborhood near you.
Bank on it.”
I believe you mean glaciation as we are supposedly presently in an interglacial warming period within an “ice age” . Ice being the “normal” condition of our part of the world. Indeed, you can bank on it. Burn more coal, drive your SUV more, arrange to have your cattle be more flatulent, forget the windmills and solar panels.
For perspective, the Hale’mau’mau crater, situated in the Kilauea caldera, is active now. Just a few years ago the rim of the crater had an overlook so that you could see down into the crater which, at that time, was completely solid. Then one morning, around 3:00 AM the area under the tourist overlook exploded. It has been erupting ever since. Needless to say, the overlook was destroyed and no one but geologists get very close to Hale’mau’mau these days.
Surely not! Hailing Michael Mann.
Discussion of the article and the crater at the Eruptions web site. Cheers –
http://www.wired.com/wiredscience/2012/01/ubehebe-crater-possibly-younger-but-no-imminent-danger-of-an-eruption/
The name Ubehebe means “basket in the earth” allegedly. If you head a couple hundred miles to the east from Death Valley, you reach the equally interesting area around Flagstaff AZ, with San Francisco Mountain which is a dead ringer for Mt. St. Helens, another stratovolcano which “blew its top.” In the same area are many many cinder cones; one of the neatest of which is Sunset Crater which erupted about 900 years ago. This area is also a seismic area which is migrating eastward. I wonder if the two areas are somehow related?
As the East Pacific Rise got subducted, the underlying mantle convection had to go somewhere. I doubt it stopped. It may have simply continued and now resides right underneath the Great Basin.
Explosions like this one, or Mt. St. Helens, are trivial compared to some of what’s in the in the geologic record. The first big eruption at Yellowstone released about 600 cubic *miles* of tephra, blanketing everything from California to Iowa. That was about 2 million years ago. The latest major eruption was only about 600,000 years ago. And the big caldera collapse eruptions like Yellowstone are trivial compared to flood basalts like Columbia River, which was about 40,000 cubic miles. That’s a whole lot of hot, liquid rock.
@TomL January 25, 2012 at 1:20 pm
“…And the big caldera collapse eruptions like Yellowstone are trivial compared to flood basalts like Columbia River, which was about 40,000 cubic miles. That’s a whole lot of hot, liquid rock.”
Want some fun? Ruminate on this:
Antipodal Hot Spot Relationships…
http://www.mantleplumes.org/WebDocuments/Antip_hot.pdf
Fun with model simulations …
Abrupt onset of the Little Ice Age triggered by volcanism and sustained by sea-ice/ocean feedbacks