Please Place Evidence of the 7 of 10 Plate Movements Here

Kojima had created small snips of Konstantin's animation of the 7 of 10 Plate Movements.

Here is the full 7 of 10 Animation by Konstantin.

This blog is the place to document ongoing earth changes related to the 7 of 10  plate movements as described by the Zetas.

ZetaTalk: 7 of 10 Sequence
written October 16, 2010

The 7 of 10 scenarios describe plate movements, and for this to occur something has to release the deadlock, the current stalemate where the plates are locked against each other. Once the deadlock is broken and the plates start moving, sliding past each other, new points where the plates are locked against each other develop, but these are weaker locks than the one at present. The current lock, as we have so often stated, is the Indo-Australian Plate which is being driven under the Himalayans. This is no small lock, as the height of the Himalayans attests. Nevertheless, the activity in this region shows this likely to be the first of the 7 of 10 scenarios to manifest. Bangladesh is sinking and the Coral Sea is rising, showing the overall tipping of the Indo-Australian Plate. Now Pakistan is sinking and not draining its floods as it should, while Jakarta on the tongue of Indonesia is also sinking rapidly, showing that the tilt that will allow Indonesia to sink has already started.

Meanwhile, S America is showing signs of a roll to the west. Explosions on islands just to the north of the S American Plate occurred recently, on Bonaire and Trinidad-Tobago, and the Andes are regularly being pummeled. There is a relationship. As the Indo-Australia Plate lifts and slides, this allows the Pacific plates to shift west, which allows S America to shift west also. This is greatly increased by the folding of the Mariana Trench and the Philippine Plate. But it is the Indo-Australian Plate that gives way to incite change in these other plates, and this is what is manifesting now to those closely following the changes. Once the folding of the Pacific has occurred, Japan has been destabilized. We are not allowed to give a time frame for any of these plate movements, but would point out that it is not until the North Island of Japan experiences its strong quakes that a tsunami causing sloshing near Victoria occurs. There are clues that the New Madrid will be next.

Where the N American continent is under great stress, it has not slipped because it is held in place on both sides. The Pacific side holds due to subduction friction along the San Andreas, and the Atlantic side holds due to the Atlantic Rift's reluctance to rip open. What changes this dynamic? When S America rolls, almost in step with the folding Pacific, it tears the Atlantic Rift on the southern side. This allows Africa freedom to move and it rolls too, dropping the Mediterranean floor above Algeria. What is holding the N American continent together has thus eased, so that when the Japan adjustments are made, there is less holding the N American continent in place than before, and the New Madrid gives way. We are also not allowed to provide the time frame between the Japan quakes and New Madrid. Other than the relationship in time between the New Madrid and the European tsunami, no time frame can be given. The sequence of events is, thus:

  • a tipping Indo-Australia Plate with Indonesia sinking,
  • a folding Pacific allowing S America to roll,
  • a tearing of the south Atlantic Rift allowing Africa to roll and the floor of the Mediterranean to drop,
  • great quakes in Japan followed by the New Madrid adjustment,
  • which is followed almost instantly by the tearing of the north Atlantic Rift with consequent European tsunami.



Tipping Indo-Australia Plate with Indonesia sinking,

Folding Pacific


South American Roll


African Roll


Japan Quakes

New Madrid

European Tsunami


Due to the slowing of the 7 of 10 plate movements by the Council of Worlds the impact of some of the events described above will be lessened.

The Zetas explain:

ZetaTalk: Pace Slowed

Written May 19, 2012

The effect of the thousands of humming boxes placed along fault lines and plate borders can be seen in several incidents that have occurred since the start of the 7 of 10 plate movements. The lack of tsunami during the 7 of 10 sinking of the Sunda Plate is one such example. We predicted at the start of the 7 of 10 scenarios in late 2010 that the Sunda Plate sinking would occur within 2-3 weeks, yet it dragged on through 2011. At the time we had predicted tsunami on the Sunda Plate, in general equivalent in height to the loss of elevation for a coastline. None of this occurred due to the slower pace. 

The pace of mountain building in S America, where slowed, has still resulted in rumpling up and down the Andes, and stretch zone accidents likewise in lands to the east of the Andes. The shape of S America has clearly changed. Will the islands in the Caribbean be spared? At some point, as with the magnitude 7.9 quake in Acapulco on March 2, 2012 a significant adjustment will need to occur, and this will include depressing the Caribbean Plate so it tilts, sinking the islands and lands on that portion of the plate to the degree predicted. But the S American roll will likely continue to avoid the magnitude 8 quakes we originally predicted in deference to slow rumpling mountain building. The African roll was anticipated to be a silent roll in any case, so the slowed pace would not affect the outcome.

Will the slowed pace prevent the 7 of 10 scenarios for the Northern Hemisphere? Bowing of the N American continent has reached the point of pain, with breaking rock booming from coast to coast, but still there have been no significant quakes in the New Madrid area. Yet this is past due, and cannot be held back indefinitely. What has and will continue to occur for the Northern Hemisphere scenarios are silent quakes for Japan, which has already experienced drastic subduction under the north island of Hokkaido where mountain building is occurring as a rumple rather than a jolt. However, the anticipated New Madrid adjustment cannot be achieved without trauma. But this could potentially occur in steps and stages such that any European tsunami would be significantly lessened.

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ZetaTalk , Written March 10, 2012

 What happens when the pace of plate movement is slowed? The likelihood of tsunami is definitely reduced, as can be seen in the sinking on the Sunda Plate. The sinking occurred, and is almost complete, yet the possibility of tsunami we predicted for various regions on the Sunda Plate were avoided. The height and force of a tsunami is directly related to the degree of displacement in the sea floor, and if this happens in steps rather than all at once the displacement will be less for any given step.

This bodes well for the European tsunami. If the Council of Worlds is still imposing a slower pace on the 7 of 10 plate movements, this tsunami will definitely be lessened. The tear in the North Atlantic will be slight, each time. The amount of water pouring into this void will be less, each time. And the rebound toward the UK will likewise be less, each time. But our prediction is the worst case situation, and it also reflects what the Earth changes, unabated, would produce.

But what does a slower pace do to land masses where jolting quakes are expected? Does this reduce the overall magnitude of the quakes anticipated? Large magnitude quakes result when a catch point along plate borders is highly resistant, but snapping of rock finally results. Usually there is one place, the epicenter, where this catch point resides and a long distance along the plate border where smaller quakes have prepared the border for easy movement. A point of resistance within the body of a plate, such as the New Madrid, can likewise resist and suddenly give.

There is no way to lessen the resistance at these catch points, though the tension that accompanies such points can be reduced so that the quake itself is delayed. What this means for a slower 7 of 10 pace is that large magnitude quakes will be spread apart in time, and their relationship to our predictions thus able to be camouflaged by the establishment. Where sinking (such as the Caribbean Island of Trinidad) or spreading apart (such as to the west of the Mississippi River) are to occur, these land changes will eventually arrive. But like the sinking of the Sunda Plate, a slower pace unfortunately allows the cover-up time to maneuver and develop excuses.

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Comment by Stanislav on February 10, 2017 at 8:30am

Methane levels have increased in Marcellus Shale region, US despite dip in well installation

Drexel researchers have been studying air pollution in the Marcellus Shale regions of Pennsylvania for several years. Credit: Drexel University

9 February, 2017. Despite a slow down in the number of new natural gas wells in the Marcellus Shale region of Northeast Pennsylvania, new research led by Drexel University finds that atmospheric methane levels in the area are still increasing. Measurements of methane and other air pollutants taken three years apart in the rural areas of Pennsylvania that have been the target of natural gas development over the last decade, revealed a substantial increase from 2012 to 2015.

"Methane is increasing globally, but the rate of increase for this region is much more rapid than global increases," said Peter DeCarlo, PhD, an assistant professor who studies atmospheric chemistry in Drexel's College of Engineering and College of Arts and Sciences, who led the study. "The rapid increase in methane is likely due to the increased production of natural gas from the region which has increased significantly over the 2012 to 2015 period. With the increased background levels of methane, the relative climate benefit of natural gas over coal for power production is reduced."

Since the first shale gas wells were drilled in the Marcellus Shale Basin, a region that diagonally bisects the state from the northeast to the southwest, there have been concerns about what unlocking the new stores of fossil fuel by an unconventional method, called hydraulic fracturing, could mean for the environment. Nearly a decade later, researchers are still working to understand just how the chemicals released and the chemicals used to release them are lingering in the water and air.
This study, which was published in the journal Elementa: Science of the Anthropocene, is the latest in a series conducted by DeCarlo and the Drexel Air Resources Research Lab, indicates that levels of atmospheric methane in the region are likely linked to increased natural gas production, rather than the number of new wells drilled in the area. The researchers did not observe this increase for other pollutants, such as carbon monoxide. This suggests that different gas extraction activities—drilling versus production—produce different chemical emissions, according to DeCarlo.
Data from this study was compared to the team's 2012 findings in the same area, which was the first effort to measure background levels of various atmospheric pollutants associated with shale gas extraction in the Marcellus Shale region of Pennsylvania. The team traversed the area using Drexel's Mobile Laboratory, a Ford cargo van equipped with all the equipment necessary for measuring concentrations of chemicals and particles in the air at 1-10 second intervals while driving.

This sort of ground-level monitoring is a useful way to collect data because the sample air is the same that residents of the area are exposed to. The team covered a large portion of the northeast region of Pennsylvania that included parts of Bradford, Clinton, Columbia, Luzerne, Lycoming, Potter, Susquehanna and Tioga counties and northeast and north central Pennsylvania.
"Our 2015 field study covered a larger spatial area and was funded to focus on pipeline and pipeline technology," DeCarlo said. "But we also overlapped with the 2012 study area and were able to cross check the background concentrations of several pollutants and found the methane levels were higher while the carbon monoxide levels were lower in the overlap regions."
Initial measurements in 2012 showed methane levels at 1960 parts per billion—roughly 50 parts per billion higher than would be expected in a rural area without natural gas development. Three years later that concentration jumped another 100 parts per billion. Atmospheric concentrations without natural gas development rose at 6 parts per billion, so this increase is quite substantial compared to the global increase, according to DeCarlo.
Overall natural gas production from the Marcellus Shale region has climbed to 16 billion cubic feet per day, which is twice as much as any other unconventional natural gas resource in the country, according to the researchers. Over the last three years alone, production of natural gas from the region more than doubled, despite the fact that there were about half as many new wells drilled in 2015 as there were in 2012, according to Pennsylvania Department of Environmental Protection figures cited in the paper.
"Though the rate at which new wells are being drilled and completed has slowed down, the overall infrastructure, and production has increased," DeCarlo said. "That means that the volume of gas moving through pipelines, compressor stations and processing plants is increasing. If the leakage rate of methane is constant per cubic foot of gas, it would not be surprising that the background methane has increased as much as it has while other pollutants like carbon monoxide, which is more associated with drilling and trucking, are showing a decline."

This finding could also suggest that measures taken by natural gas producers to decrease leakage from well completions, while still necessary, are not sufficient to reduce methane leakage in the Marcellus Shale region. And with the bulk of environmental protection regulations from the PADEP focusing on ground water contamination, it is possible that atmospheric emissions from the natural gas infrastructure could persist until research can more clearly identify the source of the leaks and identify the impact of specific emissions on public health.

The team also used the methodology developed for this study to analyze data from other studies such as the SENEX campaign, undertaken by NOAA researchers from a research aircraft in 2013. The new methodology lays out a roadmap for analysis that can be applied to datasets from other groups and will allow researchers to monitor the background levels of various pollutants in the region as natural gas extraction continues.

"This study is a snapshot from three years development in the Marcellus Shale region," DeCarlo said. "While it has clearly demonstrated trends in various pollutant emissions and subsequent atmospheric background levels, continued monitoring in these regions in Pennsylvania are required to track the continued impact of natural gas development and production infrastructure on sparsely monitored areas of the state." Source:

Comment by Stanislav on January 26, 2017 at 8:47pm

Stunning pictures of Marsalforn, Malta under water as sea engulfs promenade

6 January, 2017. These stunning photos show how Marsalforn promenade ended up under water as the rough seas engulfed the land

The photos were taken by Teddie Attard, and show the calm before the storm as clouds and fog gather on the horizon and, later, when the sea became so rough to literally flood the main promenade in this popular summer resort


Comment by Stanislav on January 26, 2017 at 8:39pm

Salt water floods Cedros streets, Trinidad and Tobago

15 January, 2017. The failure to complete repairs to a flood-gate along the main drain leading to the sea at Bonasse Village in Cedros has been blamed for several roads being under water over the past few days.

Cedros councillor Shankar Teelucksingh, in a telephone interview yesterday, said the situation could have been avoided had repairs to a bridge and flood-gate in the Bonasse/Cedros area been completed.

“Due to spring tides we are having, salt water or sea water is coming up that main drain and running straight to all the other linked drains in the Bonasse district causing flooding in almost six streets with almost 50 residents being affected by that salt water,” Teelucksingh said.

“Floods used to happen before but not as bad because it was controlled by the flood gate and the contractor came down and they removed one part of the flood gate and if that project had finished, it would have prevented this salt water from coming up the main drain in Cedros,’ He said residents, as well as a team from the Siparia Regional Corporation spent the past few nights attempting to reopen the flood-gate to release the salt water that had become trapped after the tides had receded.

“People yards are in a terrible condition,” he said, adding, “salt water is not like rain water so when it dry, a stench is emanating from that salt water, it’s giving off a mangrove smell, and businesses are being affected by it,’ he said.

He said the salt water can also cause significant damage to vehicles and residents were either forced top leave their vehicles at home and not drive along the flooded streets or take them to higher ground when the tides began to rise.

Meanwhile, a rough seas bulletin was issued by the Met Service yesterday stated that sea conditions were expected to intensify over the next 24 hours due to northerly swells which is attributed to a disturbance in the North Atlantic Ocean.

Last evening, sea water also affected motorists using the South Trunk Road as high tides led to flooding from the Mosquito Creek. Source:

Comment by Howard on January 26, 2017 at 4:29am

Massive Land Fissure in Arizona (Jan 23)

A fissure almost two miles long has been discovered in the Arizona desert.

Drone footage uploaded to YouTube by the Arizona Geological Survey shows the massive fissure in the desert surface.


Comment by Kojima on January 19, 2017 at 12:21pm
Comment by Kojima on January 19, 2017 at 7:27am


09:25, M 5.3; Central Italy

13:51, M 4.7; Northern Mid-Atlantic Ridge

21:48, M 4.7; Niger

22:31, M 4.3; Leeward Islands

Comment by Howard on January 14, 2017 at 4:16am

Massive Land Fissure Opens in South Africa (Jan 12)

A massive crack in the land opened in the Northern Cape along the R31 between Daniëlskuil and Kuruman on January 12.

As a result, the R31 has permanently been closed, according to Arrive Alive.


Comment by Stanislav on January 4, 2017 at 7:44pm

Nigerian seismologists are all agreed that Nigeria is no longer an earthquake-free zone (aseismic)
as previously believed following the series of earth tremors in different parts of the country in recent times. This development requires that measures be put in place to mitigate the devastating effects when a major earthquake occurs in Nigeria. In this report, Vanguard Features presents the solutions as proffered by experts.

4 January, 2017. Increasing seismic activities You may not have come to terms with its threatening reality. But some experts are convinced that there is a real possibility of an earthquake occurring somewhere within our shores. It all began with Mr. Umar Afegbua of the Centre for Geodesy and Geodynamics, National Space Research and Development Agency. According to him: “The recent trend of earthquakes/tremors in Nigeria is an indication that seismic activities within the country are increasing and urgent measures need to be adopted to avert devastating consequences of big earthquakes in the most populous black nation in the world.

The seismic events whose vibrations were felt heavily close to epicenters at the respective communities are now causing the entire country and indeed, the global seismological community a great concern” .

Professor Alexander Lar of the Department of Geology, University of Jos took it up from there. “Geologically, Nigeria is located in a so-called stable Pre-Cambrain–Paleozoic age Basement terrain believed to be seismically safe.
However, records have shown that earth tremors (minor earthquakes) have occurred in Nigeria from 1933-2016. An overview of these events would leave us with no other explanation than to question the previous assertion that Nigeria is seismically safe,” he submitted.

Timeline: Nigeria experienced tremor in 1933, 1939, 1964, 1984, 1985 (in Komba Yaya), 1987 (in Akko) near Gombe; 1990, 1994, 1997, 2000, 2006, 2009 and 2016. Most of these occurrences were not instrumentally recorded because there were no functional seismological observatories in Nigeria but those of 1984 at Ijebu-Ode, 1990 at Ibadan and 2000 at Jushi Kwari were recorded.

South-West as epicentre “Earth tremors with different magnitudes and intensities have been observed or instrumentally recorded in Nigeria over the past 70 years. The epicenters of most of these events were mainly located in South-West Nigeria. However, no loss of lives or noticeable damages to property was recorded until recently in 2016,” said Afegbua. In their publication occurrences_and_observations_ n_Nigeria, Ajakaiye et al. 1988; Akpan, Yakubu 2010; Tsalha et al. 2015 noted that “the most frequent earthquakes were observed in the South-West of Nigeria, near Warri, Lagos, Ibadan and Akure. There are also records of earthquakes in Upper Benue Trough near Gombe, as well as Yola (in 1984 and 2005).”

“In 2016 alone, series of events with scary shakings were observed in Shaki community of Oyo State. Although the tremors were not recorded by the closest seismic station located in Ile-Ife, however, from the field observation and well-structured questionnaires data gathered by a team of experts from the Centre for Geodesy and Geodynamics under the National Space Research and Development Agency, NASRDA, the intensity of the tremors was established to range from three to four on the Modified Mercalli, MM, Intensity Scale, and the magnitudes subsequently estimated from the Ritcher Intensity-Magnitude Scale table,” stated Afegbua.

Bayelsa/Rivers: She continued: “While residents in the ancient community of Shaki were trying to come to terms with the tremors some residents described as strange and mysterious, the border communities of Bayelsa and Rivers states were hit with yet another tremor on July 10, 2016, and structures were seriously damaged in this case, but no loss of lives.

The tremors were widely felt within Bayelsa and Rivers states and this has changed the age-long belief that Nigeria is not active or free from earthquakes; and consequently, paving way for a new thinking and new focus on occurrence of earth tremors in the most populous Black nation. “Swiftly tailing the Bayelsa/Rivers states’ slip-up, were the Kaduna earthquakes, especially those that were witnessed at Kwoi and surrounding villages of Nok, Sanbang Daji and Chori, all in Jaba Local Government Area of Kaduna State on Sunday, 11th and Monday, 12th September, 2016. Damages to structures were noticed in the affected communities. The earthquakes at Kwoi were recorded by the seismic station at Kujama, Kaduna State and also operated by the Centre for Geodesy and Geodynamics, with magnitudes ranging from 2.6 to 3.0.”

Earthquake-causing faults: Earthquakes are said to occur along tectonic boundaries, faults, etc, as a result of sudden release of energy from strain failure. “Studies in Nigeria have suggested and in some cases, confirmed the existence of earthquake-causing faults within the country. Whether these intra faults are active or not, is a big question yet to be answered,” said Afegbua.


Comment by Kojima on December 21, 2016 at 3:36am

Attention REV and USArrayMonitor Users:

Due to major facilities maintenance on our building, REV and USArrayMonitor will be down for the next few weeks.

As these websites are quite old, it is possible that they will not be restarted after the facilities project is complete. We will confirm their status in the new year.

Comment by Stanislav on October 22, 2016 at 6:47pm

 7 of 10 ZetaTalk accuracy. GNSS/GPS CORS show Southeastern US sinking and New Madrid strike-slip fault. 

GNSS/GPS permanent stations for geodesy geodesy.unr.edudata. Velocity (rates) in mm (millimeter) / year

GPS data: 

Blewitt, G., C. Kreemer, W.C. Hammond, J. Gazeaux, 2016, MIDAS robust trend estimator for accurate GPS station velocities without step detection, accepted for publication in the Journal of Geophysical Research, doi: 10.1002/2015JB012552. geodesy.unr.edudata

Important note on GPS (GNSS CORS) stations:

1) GPS stations measure changes only "point" and not on the area so that the rate of sinking or uplift should be used with cautiously. (as example see Houston-Gavelston area which already lose around 3 metres elevation) These maps should be used to see the trend! It's only around 6000 points on North America continent!

2) Many stations are relatively new and difficult to see the trend

3) 5 year minimum observation ( ... - 2016)

  • Florida sinking
  • Atlantic coast sinking
  • Gulf of Mexico sinking
  • New England uplift
  • Great Lakes area sinking (stretching)

East Coast, US Continental rip, which is what occurs during pole shifts rather than continental drift, occurs down the length of the Atlantic Ocean. Prior to the rip, there is tension and consequent dragging down of the coast line on either side. 

The East Coast of the US south of the New England area will suffer during the pole shift, due to this general stretching that the plates under the Atlantic during the crustal tension ahead of the shift. With the crust resisting a ripping apart so that the land on the edges of the Atlantic Ocean are pulled down. 

This is most intense the closer one gets to the equator. This will bring the islands in the British Isles underwater, and along the southeastern US too for an astonishing drop in level beyond what the inhabitant think possible. 

The New England states will find themselves bouncing up during the shift, due to the quick ripping of the already separating St. Lawrence Seaway prior to the shift, where the southern states will find themselves pulled under the water prior to the shift. The entire peninsula from central Pennsylvania north, will experience a bounce, but being on the edge of this drama, Pennsylvania will have its toes in water but its head above water.

Where tidal waves elsewhere will in general have the potential of rolling a hundred miles inland to a height of 200 feet or more within that buffer zone, for the East Coast south of the New England area, this must be calculated to be up to 500 miles inland where flat land or tidal bore has facilitated water flow. The land will drop in sea level, during the shift, 150 feet. 

The water will rise steadily, not in a tidal wave, so that it will take many by surprise. This tension, and dragging down, will not be relieved until the shift itself, so where land might eventually be above water, prior to the sift it will be under water. Thus, the majority of the populace not well into the Appalachian mountains will drown.


Severe flooding in Louisiana. Associated USA flood around Gulf of Mexico with 7 of 10? I do not know why but I think it is a loss of height. [and from another] Flood waters submerged parts of southern Louisiana Tuesday after heavy rains caused flash flooding and forced hundreds of rescues. The National Weather Service estimated 12 to 18 inches of rain fell across the region, with totals reaching up to 20 inches in some areas. Among the hardest hit areas in Lafayette Parish was Carencro, where reports indicated water was as high as high as 8 feet on some roads.

Just as the bowing in the S American Plate has produced stretching and consequent sinking in the swath of land from Rio to Buenos Aires, the bowing in the N American Plate has produced stretching and consequent sinking along the eastern seaboard and land bordering the Gulf of Mexico. Stretched land has only so many options. It can rip open to form a crevasse or a landslide or a sinkhole, or rock layers can pull apart so that train rails zip and zag and cause derailments and bridges pull from their moorings. In this case there is an adjustment in certain places, a pulling apart, which relieves the stress.

Stretched land also almost invariably drops in elevation, because the crust is thinned. This may not be apparent on the surface if the rock layers are pulling apart deep underground or under a river bed. But the underlying rock cannot spread out and thin without some evidence of this process above. For Florida, this evidence is the increasing number of sinkholes swallowing houses. Lopsided buildings, drooping roadways, and swamps extending their borders are other such symptoms. Drainage is invariably affected, as water lingers where it formerly drained. Rains and tides thus confuse the issue, with high tides blamed for much flooding, when sinking due to stretching is the cause.

ZetaTalk Chat Q&A for March 17, 2012

GPS data: 

Blewitt, G., C. Kreemer, W.C. Hammond, J. Gazeaux, 2016, MIDAS robust trend estimator for accurate GPS station velocities without step detection, accepted for publication in the Journal of Geophysical Research, doi: 10.1002/2015JB012552. geodesy.unr.edudata

7 Dead, Dozens Injured In I-35W Bridge Collapse [Aug 2] Interstate 35W bridge spanning the Mississippi River in Minneapolis collapsed, sending cars, people and debris into the river below. The collapse was likely structural in nature. It was not an act of terrorism. The bridge was undergoing repair work when it collapsed. Of the eight lanes on the roadway, four were closed for repair to the 40-year-old bridge's deck, joints, guardrails and lights. None of it would be related to the structure. The bridge was inspected by the Minnesota Department of Transportation in 2005 and 2006 and that no structural problems were noted. [and from another] Bridge Collapse Probe Focuses on Unexplained Shift [Aug 3] Investigators trying to figure out what caused Wednesday's massive bridge collapse are focusing on the southern end of the span. The NTSB says one part of the bridge shifted 50 feet as it fell, while other sections collapsed in place. What's getting investigators' attention is the way the southern part of the bridge fell in a video they've already examined -- recorded by a security camera near the bridge's north end -- and the way the section settled after the collapse. It appears that it has shifted approximately 50 feet to the east and when we compare that to what we've seen in the rest of the bridge -- the rest of the bridge appears to have collapsed in place. [and from another] I live in a suburb of Minneapolis and nothing has ever happened like this before. There were reports in the news of a 'rotten egg smell' and an outbreak of of algae just a few days prior to this. I also felt, or heard, a strange frequency a couple of hours before this happened. [and from another] VIDEO: YouTube at Moment of Collapse

We have predicted that bridges crossing the Mississippi will be affected when the New Madrid and related fault lines adjust, going into the pole shift. Was this bridge collapse which crossed the Mississippi in Minnesota caused by such an adjustment, the footings on one side of the bridge moving in an opposite direction from the footings on the other side, or perhaps the bridge being pulled apart? The Mississippi River is born in Minnesota, tumbling out of the headwaters in the highlands of Minnesota over a series of natural falls. This is a clue that adjustments in the rock strata could be involved. The highlands of Minnesota come to a point at Minneapolis, with lower land lying to the East along this point. What caused the land to the East to drop, unless this land was stretched in the past?

We have stated that the ripping apart of the St. Lawrence Seaway ends in the rumpled Black Hills of SD. Run a line from Montreal, at the mouth of the seaway, to Rapid City, SD and the line runs through Minneapolis. Why would an adjustment be made in the middle of this stretch zone while the seaway itself did not part? When we described the diagonal pull the N American continent is enduring, and just how this will snap when adjustments are made, we did not intend that this process would occur smoothly, all at once as described. Weak points along the rip lines give way one by one, each such adjustment placing stress on other points in a domino manner. The I35W bridge, being the larger of the bridges crossing the Mississippi at this point, was less able to adapt to a change in position vis-a-vis its footings on either side of the river, as it was an interstate bridge supporting several lanes, and thus had massive and thus rigid supports. Smaller bridges have more flexibility as they are built to withstand uneven loads on either end, thus are more springy by design.

Will there be more such disasters along the Mississippi and in the cities that will be affected by the New Madrid and seaway rip? This is just the start, and when the pace picks up, there will be no question that something other than Global Warming is the cause. 

ZetaTalk: Minneapolis Bridge written Aug 2, 2007

GPS data: 

Blewitt, G., C. Kreemer, W.C. Hammond, J. Gazeaux, 2016, MIDAS robust trend estimator for accurate GPS station velocities without step detection, accepted for publication in the Journal of Geophysical Research, doi: 10.1002/2015JB012552. geodesy.unr.edudata

  • Florida sinking
  • Atlantic coast sinking 
  • Gulf Coast sinking
  • Great lakes area sinking (stretching)
  • New Madrid stress accumulation
  • New Englanf uplift

Data faults:

The ZetaTalk Newsletter Issue 76, Sunday May 4, 2008

GPS data: 

Blewitt, G., C. Kreemer, W.C. Hammond, J. Gazeaux, 2016, MIDAS robust trend estimator for accurate GPS station velocities without step detection, accepted for publication in the Journal of Geophysical Research, doi: 10.1002/2015JB012552. geodesy.unr.edudata

What are the areas affected the most, by being in the stretch zone, during the pole shift?

Stretching out into the ocean, Florida has a tenuous position during the coming cataclysms. The strikes against it are many. The land is too low to offer safe haven to tidal waves, which will roll over the state without hindrance, from one side to the other. 

When the Atlantic stretches, just prior to the shift, the lands closest to the equator will feel the draw the most, as this is where the Atlantic rifts are deepest. Thus, where land in the southeastern US will be pulled under to the degree that water may lap at cities high in the Appalachian mountains, along the eastern seaboard, it will surely pull Florida under the water long enough to drown the populace totally. 

Those in boats will find they must contend with whirlpools and sloshing water that can capsize even large ocean going vessels. And those in skyscrapers likewise should not assume that their foundations will not be undercut and eroded. This is not a safe place.
Low lying lands along the eastern coast of the United States will be drawn below sea level some 150 feet at the start of the pole shift, water rushing in over land pulled down temporarily by the stretch that the sea floor of the Atlantic will experience. 

This in combination with the tidal waves that all ocean coasts can expect will wreak havoc on states such as Georgia. Where Georgia has land in it's headlands that border the Appalachian Mountains, the steady rise of land from coast to foothills will actually encourage the water to rise higher, as it will gain momentum. 

Those living in the low lands of Georgia will in all likelihood drown, unless in boats that can deal with wildly sloshing water. Following the shift, these low lands will also steadily go under water due to the melting poles. Those wishing to survive are advised to move.
Southern cities on the East Coast, such as Atlanta, Georgia, at an 800 foot above sea level height, will watch a flood approach. This is due in part to the timing of the stretch and rip, as the stretch will be sustained for the better part of an hour during a time when water will rush from the poles, where it has moved during the stopped rotation, and will have the push of on-coming water behind it as it flows up against the coastline. Atlanta, stationed between the Gulf and the Atlantic, will also find itself at a place where two floods, both with their own timing of ebb and flow, clash. This has the potential of heightening the water, forcing it up to an astonishing degree, where the clash occurs.
South Carolina
As with all area along the Eastern Seaboard, south of New York City, elevation will not save them from a dunking unless they are close to 1,000 feet in elevation and several hundred miles from the coast. The coastline will be pulled down several hundred feet just prior to continental rip, which will rent the deep Atlantic Ocean rifts further apart. 

The permanent effect on the coastline along the southern portion of the US will be a drop of 150 feet, below its former level. For residents unprepared for this, the rise is sea level will be steady, not a wave as in a tidal wave, and will be completely confusing to those unaware of the coming changes. 

The water will simply rise up to their feet and then over their heads, steadily. Those in the foothills of the Appalachian Mountains may find their toes only wet, but for safety, go to higher ground and return home after the shift.
New Jersey
All areas along the Eastern Coast will have to deal with tidal waves as a fact they cannot discount, during the coming pole shift. No wall will be strong enough to resist the weight of water that will rise up, 100 feet high, in a steady flood tide, nor are there walls in place today constructed with that in mind. High rise buildings with doors and windows and sewage connections will do more than flood, on the lower floors, they will crush and drop, as the water will create uneven pressure on outside walls, pressure they were never expected to have to resist. New Jersey does not have the elevation or distance from the coast to assure safety.
Montreal, Canada
Because the tearing of the St. Lawrence seaway will begin as soon as the stretching of the Atlantic occurs, land along this seaway will not submerge nor will any noticeable influx of ocean water occur, as the influx will be filling the new river bed area, now to become more of a lake. The tear will occur principally where the St. Lawrence seaway now runs, as this is a low point only because of the existing tear. Weak spots are deep within the rock strata under the river bed, and the tearing is less of a deep rift than a pulling apart in many places, so the surface seems relatively smooth. Beneath this tear are many feathery fingers of rock, reaching toward each other, soon filled with hardened magma to solidify. Thus, even though Montreal is surrounded by water, it will simply find itself more of an island than another Atlantis.
Niagara Falls
Niagara Falls will split during the widening of the St. Lawrence Seaway, as will all natural and manmade barriers between the Great Lakes and the Atlantic. This will change the level of the lakes, and the drainage patterns, to some degree, depending upon the level of bordering land and the ocean tides. Salt water will be detected all the way up to Lake Michigan and Lake Superior, which will appear to be the fresh water lakes they are now. Niagara Falls appears dramatic only because the water way spills suddenly, rather than gradually, and being shattered and spread during the widening of the seaway, the falls will become merely rock walls along the new course of the waterway. Thus, the great seaway will become a mode of travel, and cities along this course such as Buffalo and Hamilton can anticipate being travel stops and point of commerce among survivors.
The Ottawa River will swell during the pole shift, and not return to it's former size. During the stretching of the Atlantic that occurs during the pole shift, and consequent widening of the St. Lawrence Seaway, Ottawa will also be stretched, with the result that the Ottawa River will become ocean, saltwater, and the two halves of Ottawa separated. Where this will not be the case in the northern region, this will go under water shortly so the separation by water will seem complete. The land close to Ottawa, the city, will ride high, and be relatively secure from the havoc from earthquakes and volcanoes that rack some other parts of the world along fault lines. Plan on fishing as a source of food, in the main, during the Aftertime.


GPS data: 

Blewitt, G., C. Kreemer, W.C. Hammond, J. Gazeaux, 2016, MIDAS robust trend estimator for accurate GPS station velocities without step detection, accepted for publication in the Journal of Geophysical Research, doi: 10.1002/2015JB012552. geodesy.unr.edudata

GPS data: 

Blewitt, G., C. Kreemer, W.C. Hammond, J. Gazeaux, 2016, MIDAS robust trend estimator for accurate GPS station velocities without step detection, accepted for publication in the Journal of Geophysical Research, doi: 10.1002/2015JB012552. geodesy.unr.edudata


  • Northern California uplift
  • From San Diego to Moneterey uplift
  • Sierra Nevada uplift
  • West US summary uplift
  • Great Basin some uplift
  • Vancouver Island uplift (below image)

The San Andreas Fault line runs up through California and thence out into the Pacific. This is a slip-slide zone through California, so that mountain building occurs on both sides of the San Andreas Fault. Why would this be so, when the Pacific compresses greatly? There are points out in the Pacific, which is not one plate but at least four, that give more readily, thus sparing California from immediate subduction trauma. Yet the plates pushing under the West Coast of N America do cause mountain building all the way to the Continental Divide. How can this seeming contradiction exist? Plates are composed of layers of rock, a fact to which we have often alluded. These layers can pull apart to create a thinner crust in those parts of the globe that are in the stretch zone, thus causing those regions to drop in elevation, to sag. 

Where the various rock layers find they meet a barrier, but some of the rock layers (perhaps the surface layers) have more resistance than the deeper layers, sliding of these layers can occur. This is a deep adjustment within the plate, which like a stack of papers finds it is still just as thick, though parts of the stack have shifted to this or that side. This is occurring in California. The top layers of the Pacific Plate pushing under the West Coast scrape off and rumple, creating the coastal mountains while the deeper layers proceed to push under all the way to the Continental Divide. This process will continue to occur during the pole shift, and thus there will be rumpling along the coastal mountains from San Diego to Monterey, though this new rumpling will occur at a deep level and not likely toss those on the surface about. There will be an elevation increase of perhaps 57 feet for this region.

For northern California there is a similar rise in elevation but higher, perhaps to 92 feet. The San Francisco Bay area will notice this, as the rivers emptying into the Bay will become a waterfall at their joint outlet. However, as the oceans rise 675 feet within two years after the shift, this too will be covered in water. This rise in elevation does not continue beyond northern California, as the Juan de Fuca Plate absorbs any pressure from the push of the Pacific Plate. Thus the elevation rise for Oregon and Washington is not expected to be more than 25-30 feet. We have stated that Vancouver Island will get an increase of 100 feet and travel 100 miles further north from the Canadian coastline due to the fracturing of the Juan de Fuca and N American plates at this point. The tiny Explorer Plate is an indication of this. The San Andreas slip-slide will drag Vancouver Island along, and rumple this up to 100 feet above where it is today.

ZetaTalk ™ December 25, 2010 

ZetaTalk Troubled times: San Andreas Slide

GPS data: 

Blewitt, G., C. Kreemer, W.C. Hammond, J. Gazeaux, 2016, MIDAS robust trend estimator for accurate GPS station velocities without step detection, accepted for publication in the Journal of Geophysical Research, doi: 10.1002/2015JB012552. geodesy.unr.edudata

GPS data: 

Blewitt, G., C. Kreemer, W.C. Hammond, J. Gazeaux, 2016, MIDAS robust trend estimator for accurate GPS station velocities without step detection, accepted for publication in the Journal of Geophysical Research, doi: 10.1002/2015JB012552. geodesy.unr.edudata

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