Power Broadcasting

Last updated on 19 DEC 2020 NZT

... This page should automatically redirect you to the home page ...
-- If not, your browser may not be fully HTML5 compliant --

Civilization Reset Notices

... for ...
Australia, New Zealand and Pacific Islands

SEE ALSO :: Advice on Locations L-1 L-2 ++ Newsletters NL-1 NL-2

New Zealand

Where New Zealand will remain well above Mean Sea Level {MSL} after the polar relocation and subsequent North and South polar region melting and refreezing events -- Ateroa will be subject to the same forces during the shift as all other lands.

Tidal waves will assault Ateroa's coastlines with severity. Where cliffs or mountain ranges lie along a coastline, severe tidal bore actions can and will occur, bringing rushing seawater to a height (and into areas) not previously expected.

As New Zealand is a land of many mountain ranges it is advised to stay well inland at an elevation of at least 200m during the shifting events (to have a 40m safety margin). All polar relocation tidal bore actions should be over by 40 days after the polar relocation.

Only consider returning to the coastal areas some 5 to 10 days after the shift has occurred so as to allow for the sloshing oceans and high tides to settle (at least partly).

Where New Zealand lies along the fault lines of the Australian Plate and Pacific Plate (and thus has active volcanoes and geothermal areas because of this interaction) -- the 'tipping up actions' of the plates New Zealand lies on will reduce pressure during the hour of the shift.

Thus the incidence of exploding volcanoes etc ... will be lessened for this tipping deformation action. In essence, there will be a new space under the tipped plates for lava to fill during the shift, which will reduce the press of lava upward.

Where New Zealand rests primarily on the plate shared with Australia, a fault line runs to the east and to some degree under the land, and this will separate.

There are reasons that the North and South islands are all above water, in spite of the compression of the Pacific Plate system over he eons. 

Would the South Island not plunge under the Indo-Australian plate, as it appears it might?

The true Australian-Pacific fault line region lies to further to the east (underwater) and does not cross New Zealand above water at all. This is why the North and South Islands as a whole have risen.

What appears on the surface is land being deferentially dragged in a slip-slide land building manner.

This differential plate movement [and land building action] is just like snow being plowed will have an overall tendency to tumble to the side of a shovel or plow in an irregular manner -- RE:: The snow is not cleanly being (re)moved at the plowing edge.

When the Pacific Plates area shortens, the plate to the east of New Zealand will drop below the tipping plate shared with India, bolstering the tip up that New Zealand will experience. Tipping a plate that plunges, on one end, under a mountain range, will be in the main a continuation of what is already happening.

However, for the several hundred feet that India will drop below its current sea level, there will be a commensurate raise at the far end of the plate shared with Australia and New Zealand, with the major benefit of this raise at the New Zealand end.

The New Zealand landmass can expect [after all the ocean sloshing about has stopped] to find itself 500 Feet (150m) above the current mean sea level.

With the melting poles expected to raise the Mean Sea Level between 650 to 700 Feet (~190m to ~210m), this elevation gain will gradually disappear over time. What the raised land does mean for New Zealand is that more of NZ's land area will be above water after the poles melt, than elsewhere in the world.

The active volcanoes on New Zealand's North Island will not increase their activity during the pole shift, due to the relief of pressure suddenly available under their cones during the hour of the pole shift. In fact, this activity is likely to lessen.

Since the NZ populace is used to giving these volcanoes a wide berth and proper respect, this reasonable caution will (if anything) result in a pleasant surprise. The direction of zonal winds will shift after the pole shift. New Zealand will on the other hand be so very close to the Equator such that any ash from North Island volcanoes will blow back to what is now North, thus out to sea.

The future New Zealand will also not find itself a desert either, as winds laden with moisture from the ocean will be plentiful and will unload their moisture when rising up along mountain ranges. 

There are dozens of fault lines under New Zealand as yet undiscovered by modern geological methods.

What is considered the border between the Pacific and Indo-Australian plates, where the South Island lies on the Pacific Plate and the North Island the Indo-Australian Plate, it not at all the true plate border (which lies Eastward of NZ).

THEREFORE -- All of New Zealand rides with Australia during the polar relocation.

The presumed plate border is merely a surface fault line, and as the quakes pick up, more will emerge. NZ thus will to be an area that will fracture and crumble a lot.

It is not possible to detail every minor fault line that may create landslides or crevasses, as this will also be happening in many other around the globe.



New Geography

New Zealand will lie right on the New Equator.

  • The Wellington and Nelson metropolitan regions will be approximately at the New Equator, like NANDI and SUVA in FIJI in the current era.
  • Thus Ateroa's winds will come steadily from the New East, as the globe rotates in the new normal orientation.

The melting of the ice in Antarctica will keep NZ cool for some time before the tropical Sun is dominant.

The new climate will not be cooler than you are accustomed. This temporary coolness will merely provide land life with more time (in years) to adjust to the new tropical climate.

Cook Islands

The Cook islands are in an unfortunate position as they ride on a portion of the Pacific Pate System that will slide under the Indo-Australian Plate as the Pacific compresses. The Tonga Trench is the point of sheer stress.

The islands of New Zealand will not tear apart in any way during the plate movements.

The North Island and South Islands both cling to the Indo-Australian plate, despite any fault lines that might lead one to think otherwise.

The islands of the South Pacific [that share the Indo-Australian advantage -- such as the Western Samoa group], can expect a major elevation boost during the Polar Relocation, but the Cook Islands are not among these islands with the plate deformation advantage. Since the Cook Islands belong to New Zealand, the residents there can expect rescue from New Zealand.
This is subject to further information and circumstance.

New Zealand has asked for US assistance, logistically, should an emergency evacuation actually be required.

US ships may be positioned closer to the Cook Islands for this evacuation.

This will at first glance seem to be a push-back against so called China aggression.

Due to the continuing cover-up over the expected impact of the plate movements we have predicted -- the real reason for any such joint (AUS NZL US NATO) military presence will be denied.


Australia will both be in a good and bad situation during the physical polar relocation.

The western 2/3 will go suddenly under water, due to the plate shared with Indian sliding under the Himalayas.

However, the eastern 1/3 along with New Zealand will benefit from this action, raising slightly out of the water, gaining land above where the melting ice caps will place sea level within two years after the pole shift.

The eastern half of Australia and New Zealand benefit from this plate movement, lifting up as India is plunged under the Himalayas. Thus, even with the rising seas from melting poles, the mountains in eastern Australia and New Zealand will afford safe living areas.

Due to its attachment to the plate including India, the continent of Australia will both suffer and benefit from the coming pole shift. During those moments when the Earth's crust stops moving, after having been dragged along with the core during the pole shift, the western half of Australia will suddenly go under the waves.

This will seem, to the stunned residents, as though a tidal wave were steadily moving inland, and where the crest of the wave will not at first be high, the waters will just keep rising until all not afloat are drown. Those in boats may survive, though there is risk of capsizing, and they will find themselves out at sea and the washing about that will occur afterwards.

Australia should not be worried about volcanoes, as it does not have any volcanoes active within the last 10,000 years in this vicinity. New Zealand has them because it is on an active fault line, but Australia does not.

Certainly the Australian artesian basin will be affected by the Earth changes, and well before the tipping of the Indo-Australian Plate during the hour of the pole shift. We have mentioned that plates being raised will often bend at the point where they are rising up from ground level, and thus losing the support they used to enjoy.

For Australia this breaking point occurs 1/3 of the way across the continent from the eastern shore. East of that point it is rising from the magma, and west of that point being pushed down into the magma so the plate can plunge under the Himalayas.

Thus, the Australian Plate bending point is right in the middle of your artesian basin. This puts pressure on the artesian water pool, so presumably it would tend to spurt out any tap, but also breaks the rock giving it access to escape.

Overall, you will not lose your ground water supplies, but there may be much flux during the times leading into the shift, as well as for many years (perhaps in some areas for up to 40 to 60 Years) afterwards.

Plan for times when the water table seems or appears to be dropping, but do not expect such occurrences to last for long.

The western 2/3 of Australia will find itself under water as a result of the pole shift, and this is not yet accounting for the 675 foot rise in sea level that will occur within 2 Years after the pole shift.

New Zealand can anticipate a rise in elevation of 500 Feet (150m). This elevation increase assists the eastern coastline of Australia too -- but overall the Indo-Australia Plate takes a plunge under the Himalayas -- losing elevation overall.

If the outback of Australia is going to be under water -- where its elevation today rises to 3000 to 4000 feet in places -- then it does not compute that the lowlands in the center of Australia will be exempt from ocean occupation.

The lowlands in the eastern 1/3 of Australia likewise will not be safe, for this reason.

For safety, survival communities should be clustered along the eastern seaboard of Australia, but if not able to make that distance during the last weeks, higher ground on the eastern 1/3 of Australia will provide a staging area until migration by boat can be arranged.

We have described the plunging of the western 2/3 of Australia as quite dramatic and steep.

Meanwhile the eastern part levels off due to a bending of the plate through the center of Australia. This can almost be seen if one looks at a relief map of Australia, as the lowlands of Australia, where the bending occurs, are between the eastern and western mountain ranges.

There is more going on than an ordinary physical plate bending action taking place though the center region of Australia.

Some consider the Indo-Australian Plate to be two separate plates (one holds India, the other Australia) -- though they both in reality physically operate as one unitary plate.

The reason for this theory is fault lines though the center, which can be seen on undersea relief maps.

The eastern part of the Indo-Australian Plate will be raised, including New Zealand and eastern Australia. This is heavy lifting plate action as hinted earlier.

Sadly this is more than mere bending in the center of Australia than the plate structure can physically alleviate.

As the plate is hammered under the Himalayas, there is pressure on these fault lines to bend, and bend they do in such a way as to drop that portion of the plate sliding under India sharply. This causes that portion of the plate holding western Australia to rise from that drop point at a steeper angle, but when the climb reaches the center of Australia, it levels off.

Will the entire western 2/3 of Australia be under water at the hour of the pole shift?

If not, any high peak will be so washed over by the ocean in turmoil, rushing into the void, that survival clinging to these mountain peaks will not be feasible. We advise no one to attempt to survive in western Australia for this reason.

The Indo-Australia Plate bends in several places, as the tilt that this plate is forced to assume, being driven under the Himalaya, is extreme. Australia bends through the lowlands, as we have described, bending such that the eastern part of the Indo-Australian Plate can rest on magma and not just jut into the air.

Because the Coral Sea also is a weak point in the plate that is already bending of plate, there will be a difference between the lift that Queensland gets vs the lift that New South Wales gets. The rise from the center of the Indo-Australia Plate is sharp going toward Queensland, as after bending down just east of Mount Isa, it can level off toward the Coral Sea where there is this additional bend.

The heavy lifting that the section of this plate east of Queensland must endure is alleviated in essence by the bend at the Coral Sea region.

Because of this sharper tilt, more of Queensland will be under deeper water.

Queensland will not experience an overall boost in elevation. New South Wales and Victoria, however, will bend at the Central Lowlands and then maintain a steady land shelf on toward the South Island of New Zealand.

Thus, one can prorate the boost that New South Wales and Victoria will get.

Assume the area around Melbourne to have an approximate 125 Foot boost.


The pole shift itself will be magnitude 9.0 MMS worldwide.

Aftershocks as large as magnitude scale MMS 8 or even MMS 9 can be anticipated to be strongest in those parts of the world where extreme subduction has occurred, as thus the weight of a land plate will be pressing down and some rock strata snapping as it breaks under this pressure.

The shear cliff at Yosemite is an example of such rock breakage.

This would be true, after the pole shift, for New Zealand and eastern Australia, the region of Tibet, Japan, Kamchatka and the Aleutian Islands, a few hundred miles into the West Coast of the Americas (both North America and South America).

In areas experiencing stretch, the land will likewise be restless for some time. This will be in the form of jiggling when some lingering support gives way and allows a portion of a land plate to drop further.

Where it is assumed that the new course of a river has been established, there may be days of jiggling with the result that the river has round a new course, for instance. Construction in all such regions should be of light materials designed to be highly flexible.

The ancient Japanese perfected these construction techniques, which could be studied. Items that can shatter should always be on the floor where they can roll, rather than drop. For the Japanese, this often included human beings, who lived and rested close to the floor for just such reasons.

Gray levels and
                PNG browser test for mobiles