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Further Activity at
Yellowstone Supervolcano
Further Activity at
Yellowstone Supervolcano
Jan 21, 2015
There have been over 102 small earthquakes in a 48 hour period at the exact same location in Yellowstone.
In the video there it alleges that “quiet” evacuations” are happening at the park and in certain residential areas surrounding the park
Volcanoes rumble across the planet – current activity Jan 2015
January
2015 – VOLCANIC
ACTIVITY – Bardarbunga
(Central Iceland): The visible intensity of the eruption continues to
decrease gradually. The Icelandic Met office conducted air-borne
measurements of the lava field last week, showing that it has
significantly thickened (rather than expanded laterally) during the
past weeks, and is now estimated to contain approx. 1.4 cubic
kilometers of lava. Effusion rates, although decreasing, are still
close to an impressive 100 m³ per second.
Fogo (Cape
Verde): The eruption still continues although most of the time
visible activity is very low and restricted to degassing. Minor lava
effusion and sporadic flares of strombolian activity of mild to
moderate size occur from time to time. Scientists from the Cabo Verde
volcano observatory (OVCV) who climbed the volcano on 25 January
observed small ash emissions, and published a detailed report about
the most recent significant activity during 20-23 January, when
explosions produced a short-lived ash plume that rose up to 1200
meters on the morning of 20 Jan, as well as a small lava flow on the
following day.
Kliuchevskoi (Kamchatka):
The eruption continues and a lava flow is active on the southeastern
upper flank. A collapse of lava from the flow and violent snow-lava
interaction produced a pyroclastic flow that descended to the base of
the steep mountain yesterday afternoon around 17:40 local time. From
webcam images, it can be estimated that the flow traveled approx 2000
meters in about 2 minutes, resulting in a mean velocity of around 16
meters per second.
Karymsky (Kamchatka):
Moderate explosive activity continues. Ash plumes from strombolian to
vulcanian eruptions were reported by KVERT, reaching approx. 14,000
ft (4.2 km) altitude and drifting north and later east from the
volcano. Aviation color code remains “orange”.
Shishaldin (United
States, Aleutian Islands): A faint thermal signal remains visible on
satellite imagery. According to the Alaska Volcano Observatory, weak
eruptive activity likely continues in the summit crater.
San
Miguel (El
Salvador): A small explosion occurred last Monday at 06:43 morning.
Probably phreatic in nature, it was the first eruptive activity since
minor ash emissions past July. According to MARN, falling blocks from
the eruption could be heard from people in the vicinity of the
volcano. No further eruptions have followed so far, and no
significant temperature signal can be detected at the summit, only
constant degassing reaching 150-250 m height. Seismic activity
remains relatively low, but sudden explosions of small to moderate
size remain a possibility.
Sangay (Ecuador):
Eruptive activity of some sort is likely in progress at the volcano.
Along with pilot reports of spotted plumes relayed through the
Washington VAAC, thermal signals detectable on satellite data have
been more and more frequent since early January, Culture Volcan
points out in his blog. It is unknown what kind of activity is
occurring, but the most likely scenario is mild to moderate
strombolian activity, which is typical for Sangay,- an extremely
remote, but at the same time very active, that often has this type of
activity. In many ways it is similar to its Kamchatka counterpart
Klyuchevskoy currently in eruption as well. –Volcano
Discovery
What would happen if the Yellowstone supervolcano actually erupted?
An aerial flight over Yellowstone’s Midway Geyser Basin in 2004 shows Grand Prismatic Spring and Excelsior Geyser Crater, which drain into the nearby Firehole River.
Vox,
15
December, 2015
If the
supervolcano underneath Yellowstone National Park ever had another
massive eruption, it could spew ash for thousands of miles across the
United States, damaging buildings, smothering crops, and shutting
down power plants. It'd be a huge disaster.
But
that doesn't mean we should all start freaking out. The odds of
that happening are thankfully pretty low. The Yellowstone
supervolcano — thousands of times more powerful than a
regular volcano — has only had three truly enormous eruptions in
history. One occurred 2.1 million years ago, one 1.3 million years
ago, and one 664,000 years ago.
And
despite what you sometimes hear in the press, there's no
indication that we're due for another "super-eruption"
anytime soon. In fact, it's even possible that Yellowstone
might neverhave
an eruption that large again.
Even
so, the Yellowstone supervolcano remains an endless source of
apocalyptic fascination — and it's not hard to see why. In
September 2014, a team of scientists published
a paper inGeochemistry,
Geophysics, Geosystems exploring
what a Yellowstone super-eruption might actually look like.
Among
other things, they found the volcano was capable of burying states
like Wyoming, Montana, Idaho, and Colorado in three feet of
harmful volcanic ash —
a mix of splintered rock and glass — and blanket the Midwest. That
much ash could kill plants and animals, crush roofs, and short all
sorts of electrical Бequipment:
Ash,
ash, everywhere
An
example of the possible distribution of ash from a month-long
Yellowstone supereruption. (US Geological Survey)
When
I called up one of the study's co-authors, Jacob Lowenstern of the
US Geological Survey, he stressed that the paper was not any
sort of prediction of the future. "Even if Yellowstone did
erupt again, you probably wouldn't get that worst-case scenario,"
he says. "What's much, much more common are small eruptions —
that's a point that often gets ignored in the press." (And even
those small eruptions are very are.)
Lowenstern
is the Scientist-In-Charge of the Yellowstone
Volcano Observatory in Menlo Park, California. So I talked
to him further about what we actually know about the Yellowstone
supervolcano, what its eruptions might look like, and why the odds
of disaster are low.
An aerial flight over Yellowstone’s Midway Geyser Basin in 2004 shows Grand Prismatic Spring and Excelsior Geyser Crater, which drain into the nearby Firehole River.
Vox,
15
December, 2015
If the
supervolcano underneath Yellowstone National Park ever had another
massive eruption, it could spew ash for thousands of miles across the
United States, damaging buildings, smothering crops, and shutting
down power plants. It'd be a huge disaster.
And
despite what you sometimes hear in the press, there's no
indication that we're due for another "super-eruption"
anytime soon. In fact, it's even possible that Yellowstone
might neverhave
an eruption that large again.
Even
so, the Yellowstone supervolcano remains an endless source of
apocalyptic fascination — and it's not hard to see why. In
September 2014, a team of scientists published
a paper inGeochemistry,
Geophysics, Geosystems exploring
what a Yellowstone super-eruption might actually look like.
Among
other things, they found the volcano was capable of burying states
like Wyoming, Montana, Idaho, and Colorado in three feet of
harmful volcanic ash —
a mix of splintered rock and glass — and blanket the Midwest. That
much ash could kill plants and animals, crush roofs, and short all
sorts of electrical Бequipment:
Ash,
ash, everywhere
An
example of the possible distribution of ash from a month-long
Yellowstone supereruption. (US Geological Survey)
When
I called up one of the study's co-authors, Jacob Lowenstern of the
US Geological Survey, he stressed that the paper was not any
sort of prediction of the future. "Even if Yellowstone did
erupt again, you probably wouldn't get that worst-case scenario,"
he says. "What's much, much more common are small eruptions —
that's a point that often gets ignored in the press." (And even
those small eruptions are very are.)
Lowenstern
is the Scientist-In-Charge of the Yellowstone
Volcano Observatory in Menlo Park, California. So I talked
to him further about what we actually know about the Yellowstone
supervolcano, what its eruptions might look like, and why the odds
of disaster are low.
What is the Yellowstone supervolcano?
(National
Park Service)
Lurking
beneath Yellowstone National Park is a
reservoir of hot magma five miles deep, fed by a gigantic
plume of molten rock welling up from hundreds of miles below. That
heat is
responsiblefor many of the park's famous geysers and hot
springs. And as magma rises up into the chamber and cools, the
ground above periodically
rises and falls.
On
rare occasions throughout history, that magma chamber has erupted.
The vast, vast majority of those eruptions in Yellowstone have been
smaller lava flows — with the last occurring at Pitchstone
Plateau some 70,000 years ago.
But
the reason why Yellowstone gets so much attention is the remote
possibility of catastrophic "super-eruptions."
A super-eruption is
anything that measures magnitude 8 or more on the Volcano
Explosivity Index, in which at least 1,000 cubic kilometers (or
240 cubic miles) of material gets ejected. That's enough to bury
Texas five feet deep.
These
super-eruptions are thousands of times more powerful than even the
biggest eruptions we're used to. Here's a
chart from USGS comparing the Yellowstone super-eruptions
with the Mt. St. Helens eruption of 1980. The difference is
staggering:
Super-eruptions
vs ordinary eruptions
(US
Geological Survey)
Yellowstone
has had three of these really massive eruptions in its history —
2.1 million years ago, 1.3 million years ago, and 664,000 years ago.
The last of those, at Yellowstone Lava Creek, ejected so much
material from below that it left a 34-mile-by-50-mile depression in
the ground — what we see today as the Yellowstone Caldera:
Location
of past Yellowstone super-eruptions
It's
worth noting that Yellowstone is hardly the only supervolcano
out there — geologists have found evidence of at
least 47 super-eruptions in Earth's history.
The most
recent occurred in New Zealand's Lake
Taupo some 26,000 years ago.
More
dramatically, there was the gargantuan Toba eruption 74,000
years ago, caused by shifting tectonic plates. That triggered a
dramatic 6- to 10-year global winter and (according to some) may
have nearly
wiped out the nascent human race.
On
average, the Earth has seen roughly one super-eruption every 100,000
years, although that's not an ironclad law.
(National
Park Service)
Lurking
beneath Yellowstone National Park is a
reservoir of hot magma five miles deep, fed by a gigantic
plume of molten rock welling up from hundreds of miles below. That
heat is
responsiblefor many of the park's famous geysers and hot
springs. And as magma rises up into the chamber and cools, the
ground above periodically
rises and falls.
But
the reason why Yellowstone gets so much attention is the remote
possibility of catastrophic "super-eruptions."
A super-eruption is
anything that measures magnitude 8 or more on the Volcano
Explosivity Index, in which at least 1,000 cubic kilometers (or
240 cubic miles) of material gets ejected. That's enough to bury
Texas five feet deep.
These
super-eruptions are thousands of times more powerful than even the
biggest eruptions we're used to. Here's a
chart from USGS comparing the Yellowstone super-eruptions
with the Mt. St. Helens eruption of 1980. The difference is
staggering:
Super-eruptions
vs ordinary eruptions
(US
Geological Survey)
Yellowstone
has had three of these really massive eruptions in its history —
2.1 million years ago, 1.3 million years ago, and 664,000 years ago.
The last of those, at Yellowstone Lava Creek, ejected so much
material from below that it left a 34-mile-by-50-mile depression in
the ground — what we see today as the Yellowstone Caldera:
Location
of past Yellowstone super-eruptions
It's
worth noting that Yellowstone is hardly the only supervolcano
out there — geologists have found evidence of at
least 47 super-eruptions in Earth's history.
The most
recent occurred in New Zealand's Lake
Taupo some 26,000 years ago.
More
dramatically, there was the gargantuan Toba eruption 74,000
years ago, caused by shifting tectonic plates. That triggered a
dramatic 6- to 10-year global winter and (according to some) may
have nearly
wiped out the nascent human race.
On
average, the Earth has seen roughly one super-eruption every 100,000
years, although that's not an ironclad law.
So what would a Yellowstone eruption look like?
Let's
reiterate that the odds of any sort of Yellowstone
eruption, big or small, are very low. But if we're speaking
hypothetically…
The
most likely eruption scenario in Yellowstone is a smaller event that
produced lava flows (similar to what's happening at
Iceland's Bárðarbunga right now) and possible a typical
volcanic explosion. This would likely be precipitated by a swarm of
earthquakes in a specific region of the park as the magma made its
way to the surface.
Now,
in the unlikely event of a much bigger super-eruption, the
warning signs would be much bigger. "We'd likely first see
intense seismic activity across the entire park," Lowenstern
says. It could take weeks or months for those earthquakes to break
up the rocks above the magma before an eruption.
And
what if we did get a super-eruption — an event
that was 1,000 times more powerful than a regular volcanic eruption,
ejected at least 240 cubic miles of material, and lasted weeks or
months? The lava flows themselves would be contained within a
relatively small radius within the park — say, 40 miles or so. In
fact, only about one-third of the material would actually make it up
into the atmosphere.
The
main damage would come from volcanic ash — a combination of
splintered rock and glass — that was ejected miles into the air
and scattered around the country. In their
new paper, Lowenstern and his colleagues looked at both
historical ash deposits and advanced modeling to conclude that an
eruption would create an umbrella cloud, expanding even in all
directions. (This was actually a
surprising finding.)
A
super-eruption could conceivably bury the northern Rockies in three
feet of ash — devastating large swaths of Wyoming, Idaho,
Colorado, Montana, and Utah. Meanwhile, the Midwest would get a few
inches of ash, while both coasts would see even smaller amounts. The
exact distribution would depend on the time of year and weather
patterns:
Modeling
the spread of ash from a Yellowstone super-eruption
Any
of those scenarios would be terrible news. That much volcanic ash is
capable of killing people, plants, and animals and crushing
buildings. Even a few inches of ash (which is what much of the
country can get) can destroy farms, clog roadways, cause serious
respiratory problems, block sewer lines, and even short out
transformers. Air travel would have to shut down across much of
North America.
A
volcanic eruption that big would also have major effects on the
global climate. Volcanoes can emit sulfur aerosols that reflect
sunlight back into the atmosphere cool the climate. These particles
are short-lived in the atmosphere, so the effect is only temporary,
but it can still be dramatic.
When
Pinatubo erupted in 1991, it
cooled the planet by about 1°C (1.8°F) for a few years.
The Tambora
eruption in 1815 cooled the planet enough to damage crops
around the world — possibly leading to famines in some areas. And
those were relatively tiny eruptions
compared to what a supervolcano is, in theory, capable of.
Let's
reiterate that the odds of any sort of Yellowstone
eruption, big or small, are very low. But if we're speaking
hypothetically…
The
most likely eruption scenario in Yellowstone is a smaller event that
produced lava flows (similar to what's happening at
Iceland's Bárðarbunga right now) and possible a typical
volcanic explosion. This would likely be precipitated by a swarm of
earthquakes in a specific region of the park as the magma made its
way to the surface.
Now,
in the unlikely event of a much bigger super-eruption, the
warning signs would be much bigger. "We'd likely first see
intense seismic activity across the entire park," Lowenstern
says. It could take weeks or months for those earthquakes to break
up the rocks above the magma before an eruption.
And
what if we did get a super-eruption — an event
that was 1,000 times more powerful than a regular volcanic eruption,
ejected at least 240 cubic miles of material, and lasted weeks or
months? The lava flows themselves would be contained within a
relatively small radius within the park — say, 40 miles or so. In
fact, only about one-third of the material would actually make it up
into the atmosphere.
The
main damage would come from volcanic ash — a combination of
splintered rock and glass — that was ejected miles into the air
and scattered around the country. In their
new paper, Lowenstern and his colleagues looked at both
historical ash deposits and advanced modeling to conclude that an
eruption would create an umbrella cloud, expanding even in all
directions. (This was actually a
surprising finding.)
A
super-eruption could conceivably bury the northern Rockies in three
feet of ash — devastating large swaths of Wyoming, Idaho,
Colorado, Montana, and Utah. Meanwhile, the Midwest would get a few
inches of ash, while both coasts would see even smaller amounts. The
exact distribution would depend on the time of year and weather
patterns:
Modeling
the spread of ash from a Yellowstone super-eruption
Any
of those scenarios would be terrible news. That much volcanic ash is
capable of killing people, plants, and animals and crushing
buildings. Even a few inches of ash (which is what much of the
country can get) can destroy farms, clog roadways, cause serious
respiratory problems, block sewer lines, and even short out
transformers. Air travel would have to shut down across much of
North America.
When
Pinatubo erupted in 1991, it
cooled the planet by about 1°C (1.8°F) for a few years.
The Tambora
eruption in 1815 cooled the planet enough to damage crops
around the world — possibly leading to famines in some areas. And
those were relatively tiny eruptions
compared to what a supervolcano is, in theory, capable of.
Yikes! So what are the odds of a Yellowstone super-eruption?
Very,
very low. In fact, it's even possible Yellowstone might never erupt
again.
Right
now, there's no sign of a pending eruption. Yellowstone park does
continue to get earthquakes, and the ground continues to rise and
fall, but that's nothing out of the ordinary. "Yellowstone is
behaving as it has for the past 140 years," the USGS points
out. "Odds are very high that Yellowstone will be
eruption-free for the coming centuries."
The
USGS also notes that, if you simply took the past three eruptions,
the odds of Yellowstone erupting in any given year are 0.00014
percent — lower than the odds of getting hit by a
civilization-destroying asteroid. But even that's not a good
estimate, since it's not at all certain that Yellowstone erupts on a
regular cycle or that it's "overdue" for another eruption.
In fact, there might never be a big eruption in Yellowstone again.
"The
Earth will see super-eruptions in the future, but will they come in
Yellowstone? That's not a sure thing," says Lowenstern.
"Yellowstone's already lived a good long life. It may not even
see a fourth eruption."
Volcanoes,
after all, do die out. The magma chamber below Yellowstone is being
affected by two opposing forces — the heat welling up from below
and the relative cold from the surface. If less heat comes in from
below, then the chamber could conceivably freeze, eventually
turning into a solid granite body.
It's
also worth noting that the
volcanic hotspot underneath Yellowstone is slowly migrating
to the northeast (or, more accurately, the North American tectonic
plate above the hotspot is migrating southwest). You can see the
migration below:
The
volcanic hotspot is sloooooowly moving northeast
(USGS)
On
a long enough time scale, the hotspot will move out from under
Yellowstone — and the Yellowstone supervolcano would, presumably,
die out. Of course, it's possible that another supervolcano could
emerge further in the northeast, but the hotspot would first have to
heat up and melt the cold crust first. And that process could take a
million years or longer.
"It's
hard to get our minds around something like a million years,"
Lowenstern says. "Humans are a relatively brand-new species.
But Earth's been around a very long time, and these systems take a
long time to do what they do."
Very,
very low. In fact, it's even possible Yellowstone might never erupt
again.
The
USGS also notes that, if you simply took the past three eruptions,
the odds of Yellowstone erupting in any given year are 0.00014
percent — lower than the odds of getting hit by a
civilization-destroying asteroid. But even that's not a good
estimate, since it's not at all certain that Yellowstone erupts on a
regular cycle or that it's "overdue" for another eruption.
In fact, there might never be a big eruption in Yellowstone again.
"The
Earth will see super-eruptions in the future, but will they come in
Yellowstone? That's not a sure thing," says Lowenstern.
"Yellowstone's already lived a good long life. It may not even
see a fourth eruption."
Volcanoes,
after all, do die out. The magma chamber below Yellowstone is being
affected by two opposing forces — the heat welling up from below
and the relative cold from the surface. If less heat comes in from
below, then the chamber could conceivably freeze, eventually
turning into a solid granite body.
It's
also worth noting that the
volcanic hotspot underneath Yellowstone is slowly migrating
to the northeast (or, more accurately, the North American tectonic
plate above the hotspot is migrating southwest). You can see the
migration below:
The
volcanic hotspot is sloooooowly moving northeast
(USGS)
On
a long enough time scale, the hotspot will move out from under
Yellowstone — and the Yellowstone supervolcano would, presumably,
die out. Of course, it's possible that another supervolcano could
emerge further in the northeast, but the hotspot would first have to
heat up and melt the cold crust first. And that process could take a
million years or longer.
"It's
hard to get our minds around something like a million years,"
Lowenstern says. "Humans are a relatively brand-new species.
But Earth's been around a very long time, and these systems take a
long time to do what they do."
Further reading
--
The US Geological survey has
an excellent FAQ on the Yellowstone supervolcano. They also
have a great rundown of the most recent paper modeling a
super-eruption.
--
Here's a fascinating (and very accessible) paper Lowenstern
wrote in 2006 explaining how scientists actually monitor the
Yellowstone volcanic system. A key line: "One obstacle to
accurate forecasting of large volcanic events is humanity's lack of
familiarity with the singals leading up to the largest class of
volcanic eruptions."
--
In the New
Yorker,
George Black wrote
a fun piece about how unhinged fears (and misinformation)
about the Yellowstone supervolcano keep going viral.
--
The US Geological survey has
an excellent FAQ on the Yellowstone supervolcano. They also
have a great rundown of the most recent paper modeling a
super-eruption.
--
Here's a fascinating (and very accessible) paper Lowenstern
wrote in 2006 explaining how scientists actually monitor the
Yellowstone volcanic system. A key line: "One obstacle to
accurate forecasting of large volcanic events is humanity's lack of
familiarity with the singals leading up to the largest class of
volcanic eruptions."
--
In the New
Yorker,
George Black wrote
a fun piece about how unhinged fears (and misinformation)
about the Yellowstone supervolcano keep going viral.
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