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ZetaTalk: Mountain Ranges
Mountain building during this coming shift will be in proportion to the compression any given range comes under. Those
areas in the world where mountain building has occurred in the past are obvious, as sheer rock is broken into cliffs or juts
skyward like a missile or monstrous rocks are in a jumble. The rock is fresh, not weathered and broken down, and often
covered with trees or vegetation, soil having formed from the dust that lodges there. Often these are called new mountain
ranges or old ranges, to differentiate. Why would a new range become an old range, and how might this information help
those seeking safe places during the coming shift?
At one point in the Earth's history, the land mass was all in one clump, the Earth having been injured with a gaping wound
where the Pacific is now, so that it became lopsided. Water pooled in the low places, leaving the land all on one side.
Repeated pole shifts jerked this land mass to and fro until weak spots tore and the continental drift, or rip as we prefer to
call it, began. Very old land shows less marks of mountain building and more hardened mud flats, but in the interim, when
the plates were separating, lava hardening in between, and then thrust against each other during forthcoming pole shifts,
mountain building began.
- The Himalayas are a good example of a spot on the Earth where mountain building invariably occurs. These mountains
are backed up against a solid old land mass, with broken and smaller plates subducting under them at each shift. Thus,
these are both old and new mountain, never escaping fresh discombobulating.
- The mountains lining the west coast of both North and South America are likewise never at peace, as they form the
cutting edge of land being pushed into the Pacific where the plates in the Pacific are being pushed under this edge.
Each time the Pacific shortens, these ranges go through rock and roll, with new mountain building occurring.
- The mountains on the east coast of both the North and South Americas are old mountains, with notably not volcanoes
active and no stress toward mountain building because the land to the east is being stretched, not compressed. These
old mountains were built when the plates first separated and were bumping against each other during those early
periods. These times are past, for these lands masses, now.
- This is likewise the case within Africa, where the mountains are covered with trees unless to high to sustain vegetation
and the only sign of stress volcanoes caused by weak places make thin by the stretch of the land. African volcanoes,
recently active, can be expected to erupt, but very ancient volcanoes will not as the stress is less on this land mass
now.
- The high deserts in Mongolia and the Urals in Russia are likewise not under stress, being too far inland to suffer
subduction of plates, and not being stretched. But where the land masses of Russia and Area front the Pacific Rim,
volcanoes will erupt with great force. This will devastate land from the Russian peninsula in the north through Japan
to Indonesia in the south. Mountain building in these areas will not be noticed, as death will come from volcanic hot
ash and gas.
- The Mediterranean area is a weak spot in the plates, where movement has invariably occurred. During the times when
the plates were separating, the Alps were built, due to bumping between the plates on the move. As Africa is a very
solid land mass, Europe invariably was the loser during this bumping, creating the Alps. However, during this coming
shift, the strong stretch of the Atlantic will pull Africa away from Europe, not a push toward. The volcanoes in the
Mediterranean will explode due to churning of the core, and an increased thinning in the crust. All mountains
surrounding the area will not experience strong mountain building, as a consequence.
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