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.

All rights reserved:



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 Khan on February 28, 2018 at 1:34am
Comment by Kojima on February 19, 2018 at 1:59pm

Da Nang’s beach in danger of landslides

Last update: 07:10 | 17/02/2018

VietNamNet Bridge - Da Nang beach, voted by Forbes as one of the six most attractive beaches on the planet, is in danger of being wiped out because of landslides and erosion.

Da Nang's beach is in danger

On My Khe Beach, landslides have caused serious damage to embankments and dangerous holes. A number of fences and internal roads have been damaged by sea waves. The local authorities have hung up boards forbidding residents and visitors to approach the site.

The same situation is seen in the coastal area from Man Thai Ward in Son Tra district to Hoa Hai ward on Ngu Hanh Son, where tens of kilometers of coastline have been damaged. 

The most affected area is in front of the apartment block developed by Muong Thanh Group and Holiday hotel complex.

On the two ‘hot spots’, construction works are nearly falling into the sea, while the roots of coconut trees are bare even though they were tens of meters away from the water edge. 

Subsidence, landslides and soil erosion have been damaging Da Nang beach seriously. The sea waves snap up the shore and swallow coastal areas reserved for restaurants.

Local people said the landslides are continuing, causing deep hollows of water, dangerous to visitors. The landslide may have a serious impact on tens of kilometers long of area if measures are not taken.

According to Nguyen Thi Tuyet, a local woman, the landslides began in 2016, but this is the first time the sea water had entered the mainland so deeply.

“If the local authorities don’t take action immediately, Da Nang Beach will be in a serious situation like Cua Dai beach in Hoi An,” Tuyet said.

Le Quang Nam, director of the Da Nang Environment Department, attributed the soil erosion to monsoons. The big volume of water discharged to the sea through the existing 50 outlets creates eddies which cause landslides.

Dr Nguyen Thi Minh from Duy Tan University believes the construction works on Vo Nguyen Giap street, which runs along the coastline, are the main cause.

To build multi-story buildings, contractors have to dig deep to set foundations and use a lot of underground water, which lead to weakening of the soil and depression. This, plus natural factors such as sea waves and seasonal rips, have caused landslides along the coastline.

Phuong said it is necessary to immediately stop activities exhausting the underground water. A reasonable plan on underground water exploitation also needs to be drawn up.

Comment by SongStar101 on January 7, 2018 at 8:15pm

And suddenly the sea disappeared! Major water receding in Santa Elena frightens fishermen in Ecuador

After the powerful hailstorm that buried several cars in ice in Biblian, another strange phenomenon occurred on the coast of Ecuador. After several months, the strange phenomenon of the ‘disappearing sea’ has been reported again by frightened fishermen in Santa Rosa, a small port located in the province of Santa Elena, Ecuador. Yes, the sea receded ‘a little more than normal‘, stranding at least 800 fishing boats on January 3, 2018 as well as two days before.

Sea disappeared in Santa Elena, Ecuador stranding hundreds of boats in the Bay. via Twitter

Fishermen from Santa Rosa decided not to go out to work on Wednesday afternoon for two reasons: the strong winds and because the sea began to recede, causing concerns among the locals. The receding was so powerful that hundreds of boats were left stranded in dry sand.

Unprecedented tides in Santa Elena, Ecuador baffle fishermen. via Twitter

Although known as ‘Aguaje‘ or ‘Syzygy Tides‘ to fishermen in Ecuador, the intensity of the creepy natural phenomenon was unprecedented and unusually strong on January 3, 2018. The sea has returned now, but again more slowly than normally.

The was no more water in Santa Rosa, Ecuador on January 3, 2018. via Twitter

According to scientists, such tides occur when the sun, the moon and the earth are aligned, producing high tides and low tides of unexpected intensity. I would also add the power of the Supermoon on January 1, 2018 and the strong winds.

The water is now back, but the tides were unprecedentely low. via Twitter

So the water disappearing wasn’t related to a tsunami. And don’t be surprise to read more about this since INOCA say the strange events may repeat until January 5, 2018.

Comment by SongStar101 on December 19, 2017 at 10:58am

Geological Phenomenon: Mass Of Warm Rock Is Rising Beneath Surface Of New England – An enormous mass of warm rock is rising slowly but steadily toward the surface of New England and for now, researchers cannot explain this kind of abrupt activity.

“Our study challenges the established notion of how the continents on which we live behave,” Vadim Levin, a geophysicist and professor at Rutgers University-New Brunswick, stated in a press release.

“The upwelling we detected is like a hot air balloon, and we infer that something is rising up through the deeper part of our planet under New England.”

“It is not Yellowstone (National Park)-like, but it’s a distant relative in the sense that something relatively small – no more than a couple hundred miles across – is happening.”

The study focused on New England, because scientists had previously documented an area of great warmth (hundreds of degrees Celsius warmer than neighboring areas) in the Earth’s upper mantle. For two years, data was gathered by the National Science Foundation’s EarthScope program and thousands of seismic measurement devices, which were 46.6 miles apart, covered the continental United States.

“We’re interested in what happens at the interface between tectonic plates – thick, solid parts that cover our planet – and material in the upper mantle beneath the plates,” Levin said.

“We want to see how North America is gliding over the deeper parts of our planet. It is a very large and relatively stable region, but we found an irregular pattern with rather abrupt changes in it.

The observations of seismic activity point to the upwelling pattern detected beneath central Vermont and western New Hampshire, but it’s also under western Massachusetts.

“The Atlantic margin of North America did not experience intense geologic activity for nearly 200 million years,” Levin said. “It is now a so-called ‘passive margin’ – a region where slow loss of heat within the Earth and erosion by wind and water on the surface are the primary change agents.

So we did not expect to find abrupt changes in physical properties beneath this region, and the likely explanation points to a much more dynamic regime underneath this old, geologically quiet area.”

“It will likely take millions of years for the upwelling to get where it’s going,” he added. “The next step is to try to understand how exactly it’s happening.”

The study was published in Geology.


Seismic evidence for a recently formed mantle upwelling beneath New England

Lateral changes in seismic velocity 100–300 km beneath the Appalachian orogen (eastern North America) do not follow the pattern of its major terranes, suggesting that more recent, and possibly ongoing, geodynamic processes are taking place in the sub-lithospheric mantle. One prominent, sharply delineated, seismically slow feature underlying parts of New England (USA) likely reflects a volume of significantly elevated temperatures in the asthenosphere.

Using numerous new observations of splitting in seismic shear waves from distant earthquakes, we show that this upper mantle volume also lacks the systematic directional dependence (anisotropy) of seismic wave speed that is ubiquitous beneath most of northeastern North America.

This regional anisotropic fabric, which likely forms as the asthenosphere is sheared by North American plate motion, appears to be locally erased beneath central New England, with changes in its strength occurring over distances on the order of 50 km.

Highly localized variation in the strength of seismic anisotropy in a region of strongly elevated asthenospheric temperature suggests the presence of a narrow thermal upwelling in the upper mantle beneath New England. The lack of obvious surface expressions (volcanism or uplift) and the small lateral scale of the hypothesized upwelling suggest a geologically recent phenomenon.

Comment by Stanislav on November 19, 2017 at 9:20pm

Land subsidence, not climate change, is the cause of water intrusion in and around Chesapeake Bay

GPS Data source: MIDAS - Nevada Geodetic LaboratoryBlewitt, G., C. Kreemer, W.C. Hammond, and J. Gazeaux (2016). MIDAS robust trend estimator for accurate GPS station velocities without step detection, Journal of Geophysical Research, 121, doi:10.1002/2015JB012552

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

6 November, 2017. "Land Subsidence" Is The Sinking Or Lowering Of The Land Surface, Mostly Due To Human Activity

A report released in October 2017 by the Nongovernmental International Panel on Climate Change (NIPCC), titled “Will Global Warming Overflow Chesapeake Bay?”, says the available research indicates water intrusion problems in the area around the Chesapeake Bay are not due to sea-level rise induced by anthropogenic (man-caused) global warming, “but primarily to land subsidence due to groundwater depletion and, to a lesser extent, subsidence from glacial isostatic adjustment." <...>

Bezdek also points out bedrock in the mid-Atlantic states is slowly moving downward in response to the melting of the Laurentide ice sheet, which covered a large chunk of North America during the most recent ice age. “When the ice sheet still existed, the weight of the ice pushed the underlying Earth’s crust downward and, in response, areas away from the ice sheet were forced upward (called glacial forebulge),” Bezdek wrote. “The southern Chesapeake Bay region is in the glacial forebulge area and was forced upward by the Laurentide ice sheet. … As the ice melted and its weight was removed, glacial forebulge areas, which previously had been forced upward, began sinking and continue to sink. This movement of Earth’s crust in response to ice loading or melting is called glacial isostatic adjustment.” - Tim Benson (2017, November 6). RESEARCH & COMMENTARY: LAND SUBSIDENCE, NOT CLIMATE CHANGE, IS THE CAUSE OF WATER INTRUSION IN AND AROUND CHESAPEAKE BAY. Retrieved November 12, 2017, from

Comment by Stanislav on November 6, 2017 at 4:21pm

What's behind the recent worst floods in the history of Penang, Malaysia? ZetaTalk knows the answer.

D3.js code [7]

"6 November, 2017. 5 dead in worst floods in Penang history

An overview of an inundated George Town this morning. Chief Minister Lim Guan Eng says Penang will review its standard operating procedure for flood relief for better coordination between state and federal agencies. – The Malaysian Insight pic courtesy of Goh Ban Keat, November 5, 2017. Image source:

THE death toll in floods that have ravaged Penang since yesterday has risen to five. Heavy rains and strong winds, which began at 2pm yesterday, led to what has been described at the worst flooding in the state's history." [6]

Source of infographic:

And again we see strange high tides that prevent water from flowing:

"5 November, 2017Guan Eng: Penang’s unusual rainfall likely due to Typhoon Damrey

An aerial view shows a flooded George Town city in Penang, Malaysia, Sunday, Nov. 5, 2017. A northern Malaysian state has been paralyzed by a severe storm that led to two deaths and some 2,000 people evacuated in the worst flooding in years, officials say. (AP Photo)  (Copyright 2017 The Associated Press. All rights reserved.) Image source:

Penang Federation of Malaysian Manufacturers slams Meteorological Department for late warning on heavy rainfall.
State flood mitigation committee chairman Chow Kon Yeow said the situation was made worse by the high tide as most rivers and drains could not cope with the high volume of water." [3]

While the number of floods has increased:

"Penang records 119 flash flood incidences since 2013: State govt

Penang has experienced a total of 119 flash flood incidences since 2013 until Oct 15 this year. State Local Government Committee chairman Chow Kon Yeow said there were 22 flash flood incidences in 2013, 20 cases (2014), 26 cases (2015), 30 cases (2016) and 21 cases between January and Oct 15 this year.

<...> She said some of the flash flood incidences were not necessarily caused by heavy rainfall." [5]

Tide Gauge data

Tide gauge data [1], D3.js code [8]

We see a slight rise in sea level, especially since 2010. But these data have many drawbacks and and they can't be used in terms of the scale of subsidence (sinking). This is only an indirect proof, as there is obviously still a sea-level rise factor. Nevertheless, some scientists use this data to determine the land subsidence.

Tide gauge data [1], D3.js code [8]

But there some issue:

"FOLLOWING PSMSL DOCUMENTATION ADDED 19-Sep-2012 : From the publication Tidal Observation Records 2010 the Primary benchmark has changed from BM P0001 to BM P0379 4.962m above TGZ." [1] 

Can this 'damage' the data? I did not find any information about this, so we can only guess.

GNSS data

As the some data in Penang province are incomplete and I used the nearest data from the Kedah province, Pendang (Kedah also suffered from floods).

GNSS data - Nevada Geodetic Laboratory [4], D3.js code [8]

Data can be processed by these instructions

Main step:

"Since units from xyz2latlon.m are degrees (for latitude and longitude) and meters (for height), convert each to mm before plotting. This will show the north, east and vertical change in position over time better than the actual position"

Instead of matlab I used Excel.

Penang floods. Image source:

We see gradual sinking. Can we say that sinking in Kedah has such a velocity? No. GNSS is just point, while sinking can be uneven (and this is confirmed by satellite data and etc)


How accurate a guide are the current elevation maps provided by Google and GPS? If they reflect land that lies on solid rock, on a plate that will remain level and not tilt, accurate enough. But as we have explained, Java and Sumatra are land that is rubble, scrapped up as the plate tongue has been pushed down in the past. It is an illusion of solid land when rubble can jumble and toss. The placement of Jakarta in the past involved some logic, as tests were made to determine if the rock beneath could sustain buildings. But sinking is occurring there, not admitted in the press. At some point the airport will become unusable. In addition to the issue of solid rock vs jumble, there is the issue of the accordion folding of the plate tongue. Some parts will rise, others sink, and this will not be an even process nor even predictable. Thus Google will not be a certain guide to what lands will sink or stay above the waves.

ZetaTalk Chat Q&A for January 22, 2011

So we can really say that Pendang, Kedah province is sinking (but the velocity and scale is a mystery)

Meanwhile, a small scandal is flaring up:

"6 November, 2017. Met Dept denies giving late warning on heavy rain in Penang

An aerial view of Sg Dua in George Town shows how badly the flood has affected the area, Nov 6, 2017.— Sunpix by Ashraf Shamsul. Image source:

The Malaysian Meteorological Department (Met Dept) has denied claims that it was late in issuing a warning about the severe thunderstorm that hit Penang and Kedah on Saturday.
It was responding to a claim by the Penang branch of the Federation of Malaysian Manufacturers (FMM) which said that the Met Dept’s warning was only issued at 9.30pm on Saturday.

Floods cause havoc in Penang, Kedah and Perak. Source of image:

Penang FMM chairperson Ooi Eng Hock was reported as saying that the Met Dept warning only came at 9.30pm on Saturday, just hours before the severe thunderstorm lashed the state.
“What is the use of issuing such a warning at night when the heavy rainfall started early in the morning (a few hours later)?
“Didn’t the department forecast heavy rainfall coming to the area due to a tropical storm?
“Is our meteorological radar equipment so backdated that we cannot forecast this bad weather affecting our country?” he was quoted as saying in Malaysiakini." [2]


Land sinking (or subsidence) is one of the factors that worsens floods. From 2013 there were already 119 flash floods in Penang! [5]. High tides prevent water from draining, which may indicate temporary loss of elevation. Sinking makes the land more prone to flooding and causes more 'water stagnation'. In combination with a record rain, all this leads to an increasingly strong flooding and the current flood has become the worst in the history of the state of Penang [6]

Is there a method that will prove that Penang is slowly sinking? Yes, it's Sentinel-1 but this another research


[1] Permanent Service for Mean Sea Level (PSMSL), 2017, "Tide Gauge Data", Retrieved 6 Nov2017 from
Simon J. Holgate, Andrew Matthews, Philip L. Woodworth, Lesley J. Rickards, Mark E. Tamisiea, Elizabeth Bradshaw, Peter R. Foden, Kathleen M. Gordon, Svetlana Jevrejeva, and Jeff Pugh (2013) New Data Systems and Products at the Permanent Service for Mean Sea Level. Journal of Coastal Research: Volume 29, Issue 3: pp. 493 – 504. doi:10.2112/JCOASTRES-D-12-00175.1 Link

[2] Met Dept denies giving late warning on heavy rain in Penang. (2017, November 06). Retrieved November 06, 2017, from

[3] Guan Eng: Penang's unusual rainfall likely due to Typhoon Damrey. (2017, November 05). Retrieved November 06, 2017, from


[5] Dermawan, A. (2017, November 02). Penang records 119 flash flood incidences since 2013: State govt. Retrieved November 06, 2017, from

[6] 5 dead in worst floods in Penang history. (2017, November 6). Retrieved November 6, 2017, from

[7] D3.js barchart.htmldata.csv; (Based on this example:

[8] D3.js linechart.htmldata.csv; (Based on this example:

Comment by jorge namour on October 23, 2017 at 4:45pm


There are at least twelve sites in the country's capital with critical deformations. We are talking about the City of MEXICO who according to a recent study is sinking
in an accelerated and irregular way. In some places the city sank 40 cm a year in another 20.

These cracks that are generated reach the surface by destroying street and house pipes. Government authorities have commissioned the CENAPRED Department of Geophysics and Disaster Prevention to identify and map the phenomenon.

• This information is valuable for the planning of the reconstruction of the city after the earthquake of 19 September, IN SPANISH

Comment by Howard on October 17, 2017 at 5:18am

Giant Land Fissures Open in Thailand (Oct 16) 

Huge cracks suddenly opened in the ground of Lampang’s Mae Mo district, Thailand over more than 1.3 hectares, heavily damaging 8 houses. 


Comment by Stanislav on October 4, 2017 at 4:10pm

Scientific team sent to identify mysterious land sinking phenomenon in Tazirbu, southeastern Libya

4 October, 2017. "The Department of the Implementation and Management of the Man Made River Industrial Project sent a special team to the area of ​​Tazirbu to inspect the phenomenon of land sinking in the region.

The department stated that it commissioned specialized teams to research the phenomenon of land drift and sinking, which occurred recently in the area of ​​ Tazirbu, in southeastern Libya.

The department confirmed that the decision of commissioning the team is a continuation of efforts made by different scientific team in the past, to identify the causes of this phenomenon, and assess all possibilities that may cause them.Reference: Scientific team sent to identify mysterious land sinking phenomenon. (n.d.). Retrieved October 04, 2017, from

Comment by Nancy Lieder on September 27, 2017 at 11:08am

African Roll, caught on camera! Does not look like a landslide, as no hillside evident.

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