Are The Gōbekli Tepe Enclosures Giant Lunisolar Calendars?
Situated in southern Turkey near the upper Euphrates, Gōbekli Tepe has become famous for its surprisingly advanced megalithic architecture and symbolism, seemingly too early for the hunter-gather culture that built it. Enclosure D at Gōbekli Tepe is dated to around 9500 BC, although it is obvious that Gōbekli Tepe’s origin must significantly predate this. How, and more interestingly why, did its builders make such a magnificent structure at such an early time? Something utterly dramatic must have happened to motivate them. This mystery has attracted many to try and interpret the symbols that cover its megalithic pillars. Archaeoastronomy likely holds the key. Considering that Gōbekli Tepe sits at the threshold of the origin of civilization in the region, anything one can learn about this issue is profoundly important.
Left: G ōbekli Tepe, southern Turkey, with its round temple-like enclosures of megalithic pillars. Right: plan view of enclosures A to D, with T-shaped pillars represented by filled rectangles.
In 2017 Sweatman and Tsikritsis proposed that Pillar 43 from enclosure D at Gōbekli Tepe was thought to encode a date using precession of the equinoxes, where the animal symbols represent familiar constellations and the circular disk symbol represents the position of the sun on the summer solstice. The date apparently ‘written’ on the pillar, taking the head and wings of the vulture/eagle symbol to represent the teapot asterism of Sagittarius, is consistent with the Younger Dryas impact to within a hundred years or so.
Other pillars at Gōbekli Tepe appear to support this interpretation. For example, the fox and tall birds on Pillar 33, from which a tangle of snakes leap out, can be interpreted as a very nice picture of the Taurid meteor stream. This is because when Gōbekli Tepe was occupied, roughly 10,000 BC, the Taurid meteor stream would have emanated from Aquarius (the fox) and then Pisces (the tall birds) over the course of a few weeks. And it is this meteor stream that is credited with providing the cometary debris for the Younger Dryas impact, circa 10,800 BC. It is possible, then, that this mighty extinction-level event, which is now essentially confirmed and is thought to have triggered a mini Ice-Age lasting over 1,000 years, also sparked the development of civilization in the Fertile Crescent of south-west Asia.
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