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John Adams

Gobekli Tepe and the Younger Dryas



There are three blind remote viewing sessions presented here, two on what important event happened at Gobekli Tepe and one on the Younger Dryas Event. Perceptions for these targets include a comet or meteor (AOL of the dinosaur extinction asteroid), earthquake, massive flood, vulcanism, an arid and rocky region that is remote, a cold but also warm climate, primitivism, a structure with scaffolding being worked on by people, a village, clan members, a tribe, being overwhelmed and overtaken, an explosion, persons, observers, monuments, statues, an event in the sky, suffering and the wheel of time/karma.


Background


Gobekli Tepe at night
Gobekli Tepe at night - The Smithsonian

Gobekli Tepe is an ancient structure in Turkey that features temples and carved stone monoliths and is said to have been built around the end of the last Ice Age. It is the oldest known structure of its kind on Earth. Radiocarbon dating shows that the earliest exposed structures were built between 9500 and 9000 BCE. The environmental conditions at Göbekli Tepe during its time of occupation differed significantly from today, showing denser vegetation and a wide spread sediment cover. Evidence shows that the location was likely impacted by a flood in the way of silt and erosion.


Some believe that the biblical flood was caused by a comet, and that the survivors of the flood settled in Gobekli Tepe. They also believe that the stone structures in Gobekli Tepe refer to the altar created in the biblical story.


Gobekli Tepe
Gobekli Tepe. Source: the Smithsonian

The cyclical comet theory, also known as the comet shower theory, suggests that comet showers in the inner solar system are caused by gravitational perturbations of the Oort comet cloud. This theory proposes that these comet showers are linked to mass extinctions on Earth, and that the two events occur in a cyclical pattern (possibly every 3600, 12k. 26k years etc.)


Paper Remote Viewing session

Viewer: John Adams

Tasker: Patricia A.



Younger Dryas Event paper session (older highlights)

Viewer: John Adams

Tasker: Robert Ratliff



A study by Michael Rampino and Ken Caldeira found a correlation between mass extinctions and comet impacts over the past 260 million years. The study found that five of the six largest impact craters in the last 260 million years occurred around the time of mass extinctions. A companion star to the sun called Nemesis is another theory that proposes that comets are responsible for mass extinctions. The theory states that every 26–30 million years, Nemesis's gravitational pull unleashes a storm of comets into the inner solar system.


Evidence for the impact during the younger dryas roughly 12-13,000 years ago includes high levels of platinum group elements, microspherules, and nanodiamonds in ice samples from Greenland and other continents.


Research and analysis indicates that an impact occurred prior to start of the Neolithic period in the so-called Fertile Crescent of southwest Asia.


During this time, humans in the region — which spans parts of modern-day countries such as Egypt, Iraq, and Lebanon — switched from hunter-gatherer lifestyles to ones centered on agriculture and the creation of permanent settlements.


It is thought that the comet strike — known as the Younger Dryas impact — also wiped out many large animal species and ushered in a mini ice age that lasted more than 1,000 years.


"Now, researchers from the University of Edinburgh have reviewed evidence assessing the likelihood that an impact took place, and how the event may have unfolded.


The team says a large body of evidence supports the theory that a comet struck around 13,000 years ago. Researchers analyzed geological data from four continents, particularly North America and Greenland, where the largest fragments are thought to have struck.


Their analysis highlights excess levels of platinum, signs of materials melted at extremely high temperatures, and the detection of nanodiamonds known to exist inside comets and form during high-energy explosions. All of this evidence strongly supports the impact theory, researchers say.


The team says further research is needed to shed more light on how it may have affected global climate and associated changes in human populations or animal extinctions."


"The controversial large cosmic impact hypothesis (~12,800 years BP) over the Northern Hemisphere explains not only wildfires everywhere but also the rapid cooling of the Younger Dryas by destabilizing and melting parts of the Laurentide and probably Fennoscandian Ice Shield; flooding large parts of North America and draining into the North Atlantic, which caused a slowdown or shutdown of warm water northward. The assumption of an impact origin of the approx. 20 km in diameter and only 100 m deep bowl-shaped size of the Holocene Pagasitic Gulf (Thessaly, central Greece), is based on a large negative gravimetric residual anomaly and Quaternary morphotectonic criteria along its shores, the shape of embankments and mountainous surroundings; such as collapse structures, slumping and..." —12,800 years ago, Hellas and the World on Fire and Flood, by Evangelos Lagios https://www.academia.edu/59793174/12_800_years_ago_Hellas_and_the_World_on_Fire_and_Flood


Interestingly, according to recent research, there appears to be a growing number of "dark comets" being discovered in the solar system, which are comets that look like asteroids but exhibit subtle cometary behavior, suggesting a potential increase in the number of comets nearing the interior of the solar system; however, this could be due more to improved detection methods than an actual increase in the number of comets themselves.



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