preceding the pole shift? It is no secret that Mammoth Lake and the caldera of Yellowstone are warming up, and the
populace has been prepared for these occurrences by the movie Volcano where there, in the middle of LA, lava is
bubbling up. In fact, there is a fault line running from the approximate San Diego/LA area, up into the Sierras, and this
is liable to rupture rather violently during one of the quakes that precedes the pole shift by some months. Volcanic
eruptions from that area in the Sierras can be expected. Will Mount St. Helen erupt? All volcanoes that have been
active within the memory of man will begin spewing and burping and oozing, and many that were not expected to
become active will reactive. How long will it take the volcanoes to settle down? 100 years, but in a reducing ratio, over
this time. By the end of 100 years, their activity will seem as today. Nevertheless, for those downwind, this post shift
burping is virtually a death sentence!
Note: below added during the November 9, 2002 Live ZetaTalk IRC Session.
Earthquakes and volcanoes share, and also do not share, causes. Common causes of quakes and eruptions are pressures
upon plates to move, which causes, in addition to the plate scrapping and crunching along the edges, lava surges.
Volcanoes erupt because the lava just beneath the volcano is trapped, under pressure, and the point of least resistance
is an opening. Where volcanoes perpetually ooze, this is such a pressure situation, without abrupt pressure changes. In
Hawaii, where volcanoes perpetually ooze, there are layers of rock, more plates overlapping, than mankind assumes.
These plates are being pushed up, but other Pacific plates subducting under Hawaii, so the lava has many places to go
other than up. It can move sideways, and the oozing is only one outlet, so no eruptions. Where a volcano is associated
with plate crunching, such as Popo in Mexico, eruptions occur and are closely associated with quakes. Here the
eruption does not settle down until the trapped lava, under pressure, has the pressure reduced. During the shift, when
all volcanoes both active and inactive will erupt or ooze dramatically, there is more than plate movement and pressure
involved. The core of the Earth is roiling then, in motion and continuing in motion even after the crust has stopped.
Thus, volcanoes have pressure not only from trapped lava, they have it from lava surges from the core itself.
Note: below added during the November 16, 2002 Live ZetaTalk IRC Session.
We have stated that all volcanoes active within the last 10,000 years can be considered candidates to blow, or ooze
during the shift. During every pole shift, there are places on Earth where the earth is stretched, like the Atlantic, such
that mountain ranges such as the Appalachians have not experienced mountain building and scarcely any rock
outcropping are bare. Places like the Himalayas are subducting, so that rock layers are being laid under one another,
and protection from the lava occurs. Hawaii, likewise, is expected to do better than one would think, because the
compression of the Pacific will layer rock strata and protect the oozing volcanoes from roiling lava. In New Zealand,
where that edge of the plate will tip up, it will be some protection from exploding volcanoes as the pressure will be
relieved. Likewise, where there is a stretch, as Iceland will experience, there will be continued oozing, but explosions
caused by lava under pressure unlikely to happen.
Inland cauldera, like Yellowstone, have their basis in pressure that has a long route to climb before heating the surface.
During the shift, the fact that they are and have been an outlet for pressure competes with what is occurring in the rock
strata. What comes first, for Yellowstone, will not be the rock strata thickening, as during the start of the shift the
Atlantic is stretched, the plates on the move, and the core roiling. Thus, there will be explosions, though not violent, of
lava, from volcanoes however active along the Sierras and Andes. The later part of the hour sees rock strata pushed
under the West Coast of the Americas, shutting off access of lava from those volcanoes, which should speed the easing
but not prevent the explosion in the first place. In areas under stretch in Europe and the Middle East, likewise, the
http://www.zetatalk2.com/poleshft/p120.htm[2/5/2012 9:55:53 AM]
ZetaTalk: Volcanoes
roiling will cause oozing and where volcanoes are already open to the air, an outlet established, such as in Italy, they
will continue during the early part of the shift to explode and ooze. One must, thus, analyze the past of local volcanoes
or caulderas, to gauge their actions during the shift.
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ZetaTalk: Yellowstone
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ZetaTalk: Yellowstone
written Dec 5, 2003, during Lou Gentile show.
We have indicated in the past that Yellowstone would not be exempt from erupting during the pole shift, and this still
stands. But the eruption will not be what many fear. It has evidence of being a super volcano at a time when the world
was in complete global turmoil, not due to a pole shifts but due to impacts and being careened out of its orbit and
closer to the Sun. The injury to the crust so deep it almost reached the core. So clearly that was an exceptional
situation, not this situation. What should be born in mind is that this is a subduction area, with layers of the North
American Plate pushing all the way to the Continental Divide. Even though Yellowstone lies in an area which is a hot
spot, there’s enough crust flakes overlapping that it is not just a direct siphon of lava to go kaboom in an explosion.
But it will cause ash for some 100 miles in all direction, bad enough that life may be snuffed in those areas. So we
would recommend anyone wanting to survive the shift itself, not to be close to Yellowstone but to allow a 100 miles
buffer, more miles would be better.
Below recorded during May 30, 2004 F2F Live Radio broadcast
We have stated that Yellowstone will become an active volcano during the pole shift, but will not meet the fear of
many that it will become the super volcano that it was in the past. It is more to ooze than blow and will give plenty of
warning well before it starts to ooze which we do not expect to be until the Earth is grinding to a halt during rotation
stoppage. Right now the West Coast volcanoes, including Yellowstone, are increasingly worrisome but this is being
held back from the public because the government does not want to explain how Global Warming is causing all this.
Its all tied together. The cover-up is so tightly interwoven that everything that would point to the existence of Planet X
and the cover-up is held back. But when it gets to the point where it is worrisome there will be no denying it, because
local people will begin talking about it. Treat it like any other volcano with respect to when you should move away and