Posted on 08/29/2015 5:30:26 PM PDT by markomalley
The wind shifts. The stench of rotten eggs makes it nearly impossible to breathe and the hot fog clouds my view. I hold my breath and close my eyes, imagining the fog growing thicker, crushing me. Then without warning the wind clears and Im enveloped once again in the cold, dry air. The heat feels like a lost dream. I shiver as I analyze my surroundings.
Before me lies a steaming blue spring with concentric rings of green, yellow and dark red. I turn around to see another pool. But the rising fog is so dense, I can only guess at the existence of blue water below. Sometimes I glimpse bubbles boiling from some unknown source. The pools are a small sampling of the 10,000 geothermal features that dot Yellowstones caldera and hint at a mysterious hot spot beneath the crust.
Yellowstone National Park: The Grand Prismatic Spring |
Its this alien landscape that makes it surprisingly easy to believe that northwestern Wyoming sits directly above a supervolcano a behemoth far more powerful than your average volcano, with the capacity to eject more than 240 cubic miles of material.
But why do scientists believe there is a supervolcano hidden below? When I asked Henry Heasler, a park geologist at Yellowstone this question, he waxed philosophical. Good science is nothing more than a progress report, he said. Its what we know at a certain time with the data that we have.
And this year scientists provided one of the most impressive progress reports yet: They peered deep beneath the Earths surface and created the first three-dimensional image of the supervolcanos plumbing. Although they had already imaged a plume, which brings molten rock up from deep below the mantle to a region about 60 kilometers below the surface, and a magma chamber about 10 kilometers below the surface, the new work had found the missing link between the two.
A second, 11,200-cubic-mile magma chamber connects the plume to the shallower magma chamber. Its 4.5 times larger than its shallow companion and has enough hot rock to fill the Grand Canyon nearly 14 times.
Hsin-Hua Huang, a seismologist from the University of Utah and his colleagues used earthquake data to capture this astonishing image. Its similar to an ultrasound, said Heasler. We have the skin of a surfaceof a personbut we want to see whats inside. When earthquakes travel through dense, hot spots they slow down. So if a seismic wave reaches a sensor later than expected, scientists know theres a low-velocity, and hence denser and hotter, region hidden deep within the Earth.
If we were just using one pathwayso one earthquake and one seismometerwe couldnt be able to tell where along that path that low velocity body was. Wed have no idea, said co-author Jamie Farrell from the University of Utah. Thats where multiple earthquakes and sensors come into play. Huangs team used 4,849 earthquakes, originating from all parts of the earth, plus 80 seismographs across Yellowstone and beyond, to create a rough three-dimensional picture.
Their study was also the first to combine both worldwide and local earthquakes. Distant earthquakes allow scientists to image deep structures (any earthquakes originating under India or China will first travel through the Earths core before reaching the U.S.) and local earthquakes allow for shallow structures. Combining the two let the team image the deep magma chamber for the first time. Given that natural earthquakes, however, are relatively rare eventseven in one of the most active areas in the worldthey had to collect 30 years worth of data.
But seismic tomography isnt the only way to peer deep underground. GPS satellites can scour the area searching for any ground movement; gravity satellites can look for any changes in the density below; and ground instruments can sample the heat and gases rising from the geothermal features.
All methods point to a supervolcano thats very much alive. From 1976 to 1984, GPS satellite data showed that the caldera floor was swelling upward. Magma was flowing from the deeper chamber into the shallow reservoir, causing the above ground to inflate. This influx of hot material, which happens to be less dense, was also reflected in gravity data. To a satellite orbiting directly above the inflow, the Earth will seem to pull on it a little less than expected. Meanwhile ground instruments measured increasing heat and gases rising from the active features.
Then from 1985 to 1995 the caldera sunk back down about 5.5 inches. Magma was either moving out of the system laterally or the shallow reservoir was simply cooling and contracting, letting gases seep through the surface. Later measurements show that the caldera floor is continuing to swell and sink. But scientists still dont understand the complex interplay between the supervolcanos moving parts.
I think our next stephopefullyis to be able to look at some smaller scale features of how these bigger features are connected to each other, said Farrell. If scientists can determine how the large magma chambers interact with each other, they will better understand how fluids and heat move the Earth. Then we can start looking at how long it would take for enough material to get from the deep to the shallow [reservoirs] and maybe where we are in the volcanic cycle of eruptions. But were not quite there yet.
Although past eruptions dot the Earths surface from Oregon to Wyoming, its hard to infer anything about a future eruption. And Farrell isnt convinced another super-eruption will happen at all. The system might be dying, he said. The Yellowstone hot spot is moving into thicker, colder continental crust. And it takes a lot more energy to burn through that crust than it did the thinner crust that its been burning through for the last 17 million years.
But as I watch Yellowstones surface boil over before my very eyes its hard to believe that the system deep beneath my feet might one day fade away. And as a geyser before me erupts, shooting steam and water tens of feet into the air, I have to wonder if its instead slowly building toward another super-eruption. After all, despite Farrells uncertainty, he continued to say: Its happened in the past, it could happen in the future.
Blow already!
Don’t let the EPA know about this. They will want to set it off and establish another super site.
It may blow up within the next 100,000 years, or not.
Latest polls show Trump beating everyone except Supervolcano.
Unless there is a way of stopping it from eventually happening, no point in thinking about it.
But they do know manmade global warming is a crisis.
Any geologists out there? Can some of the new oil reserves we are finding with fracking attributable to this type of phenomena?
Maybe that would knock some sense into this country’s “leaders”.
That would leave a helluva carbon footprint.
Good one!
That would be bad in a way that would make the Krakatoa eruption look like dinner theater. It would make Mt St Helen look like a controlled burn. It would look like the alternate ending to _Armageddon_; heck, it would be Armageddon.
We are all gonna die PING!
Sweet.
Maybe it is time for a massive reset
kinda looks hw the testicals and penis work
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