Younger Dryas:They happened around the same time, the YD ended (warmed very fast) about the time Atlantis was submerged and Gobekli Tepe was built. Now the onset of the YD is close to Sitchin's date for the Flood 13000 bp but I heard a Tlingit elder date their Flood to 14 kya, the older date is closer to a rapid burst in sea rise. Atlantis was in the northern hemisphere at sea level.
If the Sphinx was a symbolic representation of the time of the Flood then maybe the human head on the lion's body indicates the head of Virgo and the body of Leo forming the cusp of the constellations (like how we're on the cusp of Pisces to Aquarius). This is supported by the emphasis on bull worship and the transition to Aries the Ram in the time of Moses and why Jesus was the sacrificial lamb who became a fisher of men.
These cusps and transitory periods are not well-defined, even in the Bible we see Moses getting angry upon finding the people making their golden calf - the age of Taurus had ended. So the cusp of Virgo to Leo could be several centuries ranging on either side of 11000-10800 bc.
So it looks like there was no massive sudden rise in sea levels that fits with either Noah or Atlantis.Other features include the following:
Effects on agriculture[edit]
- Replacement of forest in Scandinavia with glacial tundra (which is the habitat of the plant Dryas octopetala)
- Glaciation or increased snow in mountain ranges around the world
- Formation of solifluction layers and loess deposits in Northern Europe
- More dust in the atmosphere, originating from deserts in Asia
- A decline in evidence for Natufian hunter gatherer permanent settlements in the Levant, suggesting a reversion to a more mobile way of life[46]
- The Huelmo–Mascardi Cold Reversal in the Southern Hemisphere ended at the same time
- Decline of the Clovis culture; while no definitive cause for the extinction of many species in North America such as the Columbian mammoth, as well as the Dire wolf, Camelops, and other Rancholabrean megafauna during the Younger Dryas has been determined, climate change and human hunting activities have been suggested as contributing factors.[47] Recently, it has been found that these megafauna populations collapsed 1000 years earlier
The Younger Dryas is often linked to the Neolithic Revolution, the adoption of agriculture in the Levant.[91][92] The cold and dry Younger Dryas arguably lowered the carrying capacity of the area and forced the sedentary early Natufian population into a more mobile subsistence pattern. Further climatic deterioration is thought to have brought about cereal cultivation. While relative consensus exists regarding the role of the Younger Dryas in the changing subsistence patterns during the Natufian, its connection to the beginning of agriculture at the end of the period is still being debated.
Sea level[edit]
Based upon solid geological evidence, consisting largely of the analysis of numerous deep cores from coral reefs, variations in the rates of sea level rise have been reconstructed for the postglacial period. For the early part of the sea level rise that is associated with deglaciation, three major periods of accelerated sea level rise, called meltwater pulses, occurred. They are commonly called
The Younger Dryas occurred after meltwater pulse 1A, a 13.5 m rise over about 290 years, centered at about 14,200 calibrated years ago, and before meltwater pulse 1B, a 7.5 m rise over about 160 years, centered at about 11,000 calibrated years ago.[95][96][97] Finally, not only did the Younger Dryas postdate both all of meltwater pulse 1A and predate all of meltwater pulse 1B, it was a period of significantly-reduced rate of sea level rise relative to the periods of time immediately before and after it.
- meltwater pulse 1A0 for the pulse between 19,000~19,500 calibrated years ago;
- meltwater pulse 1A for the pulse between 14,600~14,300 calibrated years ago;
- meltwater pulse 1B for the pulse between 11,400~11,100 calibrated years ago. [This is the sea rise at the end of the YD; Noah's flood!]
Meltwater pulse 1B
Meltwater pulse 1B (MWP1b) is the name used by Quaternary geologists, paleoclimatologists, and oceanographers for a period of either rapid or just accelerated post-glacial sea level rise that some hypothesize to have occurred between 11,500 and 11,200 years ago at the beginning of the Holocene and after the end of the Younger Dryas.[1] Meltwater pulse 1B is also known as catastrophic rise event 2 (CRE2) in the Caribbean Sea.[2]
Other named, postglacial meltwater pulses are known most commonly as meltwater pulse 1A0 (meltwaterpulse19ka), meltwater pulse 1A, meltwater pulse 1C, meltwater pulse 1D, and meltwater pulse 2. It and these other periods of proposed rapid sea level rise are known as meltwater pulses because the inferred cause of them was the rapid release of meltwater into the oceans from the collapse of continental ice sheets.[1]
Sea level
There is considerable unresolved disagreement over the significance, timing, magnitude, and even existence of meltwater pulse 1B. It was first recognized by Fairbanks in his coral reef studies in Barbados. From the analysis of data from cores of coral reefs surrounding Barbados, he concluded that during meltwater pulse 1B, sea level rose 28 meters (92 ft) in about 500 years about 11,300 calendar years ago.[3]
However, in 1996 and 2010, Bard and others published detailed analysis of data from cores from coral reefs surrounding Tahiti. They concluded that meltwater pulse 1B was, at best, just an acceleration of sea level rise at about 11,300 calendar years ago and it was, at worst, not statistically different from a constant rate sea level rise between 11,500 and 10,200 calendar years ago. They argued that meltwater pulse 1B was certainly not an abrupt jump in sea level, which they would consider to be a meltwater pulse. They argue that the 28 meters (92 ft) rise in sea level estimated by Fairbanks from cores is an artifact created by differential tectonic uplift between different sides of a tectonic structure lying between the two Barbados cores used to identify meltwater pulse 1B and calculate its magnitude.[4][5]
Other differing estimates about the magnitude of meltwater pulse 1B have been published. In 2010, Standford and others found it to be "robustly expressed" as a multi-millennial interval of enhanced rates of sea-level rise between 11,500 and 8,800 calendar years ago with peak rates of rise of up to 25 mm/yr.[6] In 2004, Liu and Milliman reexamined the original data from Barbados and Tahiti and reconsidered the mechanics and sedimentology of reef drowning by sea level rise. They concluded that meltwater pulse 1B occurred between 11,500 and 11,200 calendar years ago, a 300-calendar year interval, during which sea level rose 13 meters (43 ft) from −58 meters (−190 ft) to −45 meters (−148 ft), giving a mean annual rate of around 40mm/yr[7] Other studies have revised the estimated magnitude of meltwater pulse 1B downward to between 7.5 meters (25 ft) and less than 6 meters (20 ft).[2][8]
Source(s) of meltwater pulse 1B
Given the disagreement over its timing, magnitude, and even existence, it has been very difficult to constrain the source of meltwater pulse 1B. In his modeling of global glacial isostatic adjustment, Peltier assumed that the predominant source for MWP-1B was the Antarctic Ice Sheet. However, no justification for this assumption is provided in his papers.[9][10] In addition, Leventer and others argue that the timing of deglaciation in eastern Antarctica roughly coincides with the onset of meltwater pulse 1B and the Antarctic Ice Sheet is a likely source.[11] Finally, McKay and others suggested that recession of the West Antarctic Ice Sheet may have supplied the meltwater needed to the start meltwater pulse 1B.[12]
However, later studies involving the surface exposure dating of glacial erratics, nunataks, and other formerly glaciated exposures using cosmogenic dating contradicted the above arguments and assumptions.[13] These studies tentatively concluded that the actual amount of thinning of the East Antarctic Ice Sheet is too small 50 to 200 meters (160 to 660 ft) and likely too gradual and too late to have contributed any significant amount of meltwater to meltwater pulse 1B. They also concluded that the ice sheet retreat and thinning accelerated for the West Antarctic Ice Sheet only after 7,000 calendar years ago.[13] Although other researchers have concluded that the abrupt decay of the Laurentide Ice Sheet might have been sufficient to have been responsible for meltwater pulse 1B, its sources remain an unresolved mystery.[13] For example, recent research in West Antarctica found that sufficient deglaciation contemporaneous with meltwater pulse 1B occurred to readily explain this rapid period of global sea level rise.
https://en.wikipedia.org/wiki/Younger_Dryas
https://en.wikipedia.org/wiki/Meltwater_pulse_1B