Yellowstone National Park
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- sequoia0
what does the info on that graph represent?
- joseprieto0
wtf
- robotron3k0
i'm thinking some action is going on there... 200+ swarm earthquake in 24 hours and Old Faithful does not erupt for 3+ hours... (it's called Old Faithful because you can set your watch to the eruptions ever 10 minutes)
kinda all wants you to sit back and go hmmmmm....
- joseprieto0
so should we start drinking and wait for the worst????
but its not 2012 yet
- voiceof0
SUPER VOLCANO!
http://www.earthmountainview.com…
- xcarlx0
has the farthest point from a road in the lower 48 states.
- version30
"in what researchers at the University of Utah say is a common event."
"researchers have identified 79 earthquake swarms at Yellowstone since 1995... swarms generally last from a few days to weeks but sometimes last for months"
- version30
Posted by geologist Christopher C. Sanders on January 1, 2009.
"I am advising all State officials around Yellowstone National Park for a potential State of Emergency. In the last week over 252 earthquakes have been observed by the USGS. We have a 3D view on the movement of magma rising underground. We have all of the pre warning signs of a major eruption from a super volcano. - I want everyone to leave Yellowstone National Park and for 200 miles around the volcano caldera."
- version30
Yellowstone Supervolcano Bigger Than Once Thought
Published December 27, 2009 4:00 PMYou know that supervolcano beneath Yellowstone National Park? The one responsible for the steam that makes the place famous? Well, it turns out that supervolcano is super indeed — both bigger and deeper than scientists had previously known. Host Guy Raz speaks with geophysicist Robert Smith of the University of Utah about his new research on the larger-than-thought volcanic system beneath Yellowstone.
The supervolcano beneath Yellowstone National Park is bigger, much bigger, than scientists had previously thought. A team of researchers found that the plume of hot and molten rock that feeds the volcano rises from a depth of more than 400 miles below the earth's surface. And the reservoir that holds that molten rock, well, it's 20 percent larger than we once knew.
University of Utah geophysicist Robert Smith led that team and joins us from member station KUER in Salt Lake City.
Professor ROBERT SMITH (Geology and Geophysics, University of Utah; Geophysicist): Thank you. Glad to be here.
RAZ: Can you put this supervolcano into a perspective for us? I mean, how have its past eruptions compared to, you know, a volcano like Mount St. Helens?
Prof. SMITH: Well, recall that Yellowstone National Park, of course, is the quintessential geology park with hot springs and geysers. They derive their heat from magma from an active volcanic system that has been in the Yellowstone area active for about two million years.
In the two-million-year span, there's been three giant eruptions. And these, you know, occurred, well, two million years, 1.3 million and 640,000 years ago. And in between these eruptions and since the last one, there's been smaller eruptions, many much bigger than those of Mount St. Helens.
RAZ: Now, Professor Smith, presumably, you and your team could not start digging underground to find this magma chamber and actually measure it because you wouldn't be speaking to us now, how did you actually figure this out?
Prof. SMITH: Well, we use a method called seismic tomography, which is similar to a CAT scan of a human body.
RAZ: Mm-hmm.
Prof. SMITH: And we measure the speed of earthquake-produced waves that propagate through the earth. And we record them on a large array of seismographs at the surface. And when a seismic wave, just like a sound wave I'm talking to you is a seismic wave, if it's speeded up or slowed down by the rock material, and hot rock produces generally lower speeds of sound than cold rocks, and so what we then do is record, you know, literally thousands of earthquakes and do a computer reconstruction of where they were slowed down or speeded up. And from that, we can construct an image. We're illuminating a body just like turning on a light or like taking a CAT scan or an X-ray.
RAZ: Now, there are two components to this, right? I mean, there's the magma chamber, which is 20 percent larger.
Prof. SMITH: Right.
RAZ: But then there's this volcanic plume that is about 400 miles below the earth's surface, below - actually below the town of Wisdom, Montana, which is, what, about 100 miles from Yellowstone?
Prof. SMITH: Yeah, that discovery we've made in the sense that most people had originally implied that plumes in the earth, they're just vertical features like boiling water in a teapot. And what we found is, in fact, it's tilted because the Earth's mantle is moving at a few centimeters per year, and it's tilted because the hot material is caught in the wind of the mantle.
I'd like to use the analogy you see smoke rising, and when it gets into a breeze, it gets slightly tilted by the breeze. Well, that's what's happening in the Earth's mantle beneath the Yellowstone area.
RAZ: So, any reaction from the folks in Wisdom, Montana? I mean, are they sort of preparing to become a vacation destination in the next million years or so?
(Soundbite of laughter)
Prof. SMITH: I'm not sure that they've heard my story lately, but I doubt that they're too concerned about that. Nothing that's going to have any effect on the surface of the Earth there at all.
- xcarlx0
"With the caldera slowing its rise and seismic activity in the Park receding to normal levels, a new stretch of stability may in store for the Yellowstone National Park supervolcano.
A report from the Yellowstone Volcano Observatory noted the slowdown in the rise of the caldera, as measured by GPS data collected between mid-2004 and mid-2009; in fact, the slowdown is total and could indicate a stop in the rise, according to researchers. This fits with predictions made back in 2007 about how the supervolcano would act: researchers had predicted the caldera would rise for a relatively short period of tume but then the uplift would end, leading to a stable period in supervolcano activity. The uplift has indeed apparently ended.Add to that a relatively quiet month in seismic activity, and you have the makings of stability. The December readings indicated a normal month, with only 70 earthquakes recorded in the Yellowstone National Park region. No earthquake swarms were recorded in December.
Speculation on a Yellowstone supervolcano eruption always makes for good TV rating and Website page views. But the best evidence indicates nothing spectacular is on the horizon."
- the west coast is about to be hit with 20+ inches of rain. rain in yellowstone causes steam, breaking rocks and then...robotron3k
- see soundtrack below.robotron3k
- CGN0
- robotron3k0
we need some theme music for this event
- marychain0
- meanwhile, eat cake and have a paaaaaaarty. :-)akrokdesign
- 74LEO0
Thanks for posting this now! Now I'm on youtube watching supervolcano at 12:20am when I gotta get up in 5 hours. Thanks a lot!