http://SaturnianCosmology.Org/ mirrored file
   For complete access to all the files of this collection
        see http://SaturnianCosmology.org/search.php
  ==========================================================


Younger Dryas event

From Wikipedia, the free encyclopedia

(Redirected from Younger Dryas impact event ) Jump to: navigation , search

The *Younger Dryas impact event* or *Clovis comet hypothesis* refers to
the hypothesized large air burst or earth impact of an object or objects
from outer space that initiated the Younger Dryas cold period about 10,900
BCE , or 12,900 BP calibrated (10,900 BP uncalibrated).

One scenario proposes that an air burst and/or earth impact with a rare
swarm of carbonaceous chondrites or comets set vast areas of the North
American continent on fire, causing the extinction of most of the large
animals in North America and the demise of the North American Clovis
culture at the end of the last glacial period .^[1] This swarm would have
exploded above or even into the Laurentide Ice Sheet north of the Great
Lakes . An airburst would have been similar to but many orders of
magnitude larger than the Tunguska event of 1908. Animal and human life
not directly killed by the blast or the resulting coast to coast wildfires
would have starved on the burned surface of the continent.

The scenario is the product of a team of geologists at American
universities, among them James Kennett of the University of California
Santa Barbara , Richard Firestone of Lawrence Berkeley National Laboratory
, as well as archaeologists Douglas Kennett ^[1] and Jon Erlandson of the
University of Oregon .

Forest destroyed by the similar Tunguska airburst event

Contents

[hide ]

* 1 Evidence 
* 2 Results 
* 3 History of the hypothesis 
* 4 Criticisms of the hypothesis 
* 5 See also 
* 6 References 
* 7 External reading 
* 8 External links 


[edit ] Evidence

The evidence claimed for an impact event includes a charred carbon-rich
layer of soil that has been found at some 50 Clovis-age sites across the
continent. The layer contains unusual materials (nanodiamonds , metallic
microspherules , carbon spherules, magnetic spherules , iridium ,
charcoal, soot, and fullerenes enriched in helium-3 ) interpreted as
evidence of an impact event, at the very bottom of the "black mat" of
organic material that marks the beginning of the Younger Dryas.^[2]


[edit ] Results

It is conjectured that this impact event brought about the extinction of
many North American large mammals. These animals included camels ,
mammoths , the giant short-faced bear and numerous other species. The
markers for the impact event also appear at the end of the Clovis culture
.^[3]


[edit ] History of the hypothesis

The British science journal /Nature/ addressed the theory in a news story
on 17 May 2007.^[4] On 24 May 2007, a session at the spring 2007 joint
assembly of the American Geophysical Union in Acapulco, Mexico was held to
discuss this hypothesis and reveal the evidence.^[3] On 27 September 2007,
a paper presenting the findings of the Acapulco group was pre-published
online at the Proceedings of the National Academy of Sciences website.
According to the study, the impact event may have led to an immediate
decline in human populations in North America at that time.^[5]


Less than a year later substantial support for the synchronous nature of
the black mat was provided by leading Clovis archaeologist, C. Vance
Haynes , also in the PNAS . Says Haynes:

Further analysis is in progress and other Clovis sites need independent
study and verification of this evidence. Until then I remain skeptical of
the ET impact hypothesis as the cause of the YD onset and the megafaunal
extinction. However, I reiterate, something major happened at 10,900 B.P.
that we have yet to understand.^[6]


The theory drew new scrutiny in March 2008 at the annual meeting of the
Society for American Archaeology in Vancouver, Canada. In August 2008, at
the annual Pecos Archaeological Conference

Allen West , a lead proponent of the Clovis Comet theory, and Ted Bunch ,
a co-author of the original PNAS paper and former NASA chief of
exobiology, presented new evidence, and participated in a panel discussion
of the findings with Sandia Labs asteroid impact modeler Mark Boslough ,
and comet hunter Carolyn Shoemaker .^[7] Independent verification of
Firestone and West's identification of ET material in Clovis stratigraphy
was presented by Mustafa Fayek and Sharon Hull of the University of
Manitoba .^[8]

Most recently, In January 2009, transmission electron microscopy
evidence showing nanodiamonds from the geologic moment of the event was
published in the journal /Science/^[9] and reviewed in the International
Herald Tribune.^[10] Also, in the same issue, D.J. Kennett reported that:

These diamonds provide strong evidence for Earth's collision with a rare
swarm of carbonaceous chondrites or comets at the onset of the Younger
Dryas cool interval, producing multiple airbursts and possible surface
impacts, with severe repercussions for plants, animals, and humans in
North America.^[1]

April 12, 2010: "Earth collided with debris from a vast comet, measuring
50-100 kilometres (31-62 miles) across, that had wandered into the inner
Solar System some 30,000 years ago before breaking up, says Bill Napier, a
professor at Cardiff University's Astrobiology Centre.

The impact unleashed a firestorm that blanketed the atmosphere with ash
and dust, reducing heat and light from the Sun, Napier suggests in Monthly
Notices, a journal of the Royal Astronomical Society."
http://www.france24.com/en/20100402-did-comet-smashup-unleash-earths-mini-ice-age


[edit ] Criticisms of the hypothesis

A study of Paleoindian demography published in August 2008 (almost a year
after the first publication in PNAS) states "The results of the analyses
were not consistent with the predictions of extraterrestrial impact
hypothesis. No evidence of a population decline among the Paleoindians at
12,900 ± 100 calBP was found. Thus, minimally, the study suggests the
extraterrestrial impact hypothesis should be amended." ^[11] ^[12] Nor is
there evidence of continent-wide wildfires at any time during terminal
Pleistocene deglaciation,^[13] which calls into question the origin of the
"black mat". Iridium, magnetic minerals, microspherules, carbon, and
nanodiamonds are all subject to differing interpretations as to their
nature and origin, and may be explained in many cases by purely
terrestrial and/or non-catastrophic factors.^[14]

Since it is assumed the effects of the putative impact on Earth's biota
would have been brief, all extinctions caused by the impact should have
occurred simultaneously. However, there is evidence that the megafaunal
extinctions that occurred across northern Eurasia, North America and South
America at the end of the Pleistocene were not synchronous. The
extinctions in South America appear to have occurred at least 400 years
after the extinctions in North America.^[15] ^[16] ^[17] The extinction of
woolly mammoths in Siberia also appears to have occurred later than in
North America.^[15] A greater disparity in extinction timings is apparent
in island megafaunal extinctions that lagged nearby continental
extinctions by thousands of years; examples include the survival of woolly
mammoths on Wrangel Island , Russia , until 3700 BP,^[15] ^[16] and the
survival of ground sloths in the Antilles , the Caribbean , until 4700 cal
BP.^[15] ^[16] ^[17]


The megafaunal extinction pattern observed in North America poses a
problem for the bolide impact scenario, since it raises the question why
large mammals should be preferentially exterminated over small mammals or
other vertebrates.^[18] Additionally, some extant megafaunal species such
as bison and grizzlies seem to have been little affected by the extinction
event, while the environmental devastation caused by a bolide impact would
not be expected to discriminate.^[15]


[edit ] See also

* Pleistocene megafauna * Holocene extinction event


[edit ] References

1. ^ ^/*a*/ ^/*b*/ ^/*c*/ Kennett,, D. J. Kennett; J. P. Kennett, A. West,
C. Mercer, S. S.Que Hee, L. Bement, T. E. Bunch, M. Sellers, W. S. Wolbach
(2009-1). "Nanodiamonds in the Younger Dryas Boundary Sediment Layer" .
/Science/ (American Association for the Advancement of Science) *323.*
(5910): 94. doi :10.1126/science.1162819 . ISSN 1095-9203 .
http://www.sciencemag.org/cgi/content/abstract/sci;323/5910/94.

2. *^ * Dalton, Rex (2007-05-17). "Archaeology: Blast in the past?".
/Nature/ *447*: 256–257. doi :10.1038/447256a .  News article in /Nature
/

3. ^ ^/*a*/ ^/*b*/ "Session Information, 2007 Joint Assembly,
Paleoceanography and Paleoclimatology" . American Geophysical Union.
http://www.agu.org/cgi-bin/sessions5?meeting=sm07&part=PP41A&maxhits=400.
Retrieved 2007-05-22.  Includes links to abstracts.

4. *^ * "Blast from the Past? A controversial new idea suggests that a big
space rock exploded on or above North America at the end of the last ice
age," by Rex Dalton, /Nature/, vol. 447, no. 7142, pages 256-257 (17 May
2007). Available on-line at:
http://www.geo.arizona.edu/~reiners/blackmat.pdf

5. *^ * "Evidence for an extraterrestrial impact 12,900 years ago that
contributed to the megafaunal extinctions and the Younger Dryas cooling" .
The National Academy of Sciences.
http://www.pnas.org/cgi/content/abstract/0706977104v1. Retrieved
2007-09-30.

6. *^ * Younger Dryas “black mats” and the Rancholabrean termination
in North America, C. Vance Haynes, Jr., PNAS May 6, 2008 vol. 105 no. 18
6520-6525

7. *^ * Video of the August, 2008, Pecos Conference presentations on the
Clovis Comet

8. *^ * Fayek and Hull, Pecos Archaeological Conference, Flagstaff,
Arizona, August 10, 2008 9. *^ * Kerr, Richard A. (2009-1). "Did the
Mammoth Slayer Leave a Diamond Calling Card?" . /Science / (American
Association for the Advancement of Science ) *323.* (5910,): 26. doi
:10.1126/science.323.5910.26 . ISSN 1095-9203 .
http://www.sciencemag.org/cgi/content/summary/323/5910/26.

10. *^ * Chang, Kenneth (2009-01-02). "Diamonds linked to quick cooling
eons ago" . /Health and Science, International Herald Tribune/
(International Herald Tribune ).
http://www.iht.com/articles/2009/01/02/healthscience/02impact.php.
Retrieved 2009-01-03.

11. *^ * B Buchanan, M Collard & K Edinborough 2008. "Paleoindian
demography and the extraterrestrial impact hypothesis " /PNAS/ August 19,
2008 vol. 105 no. 33 11651-11654 doi: 10.1073/pnas.0803762105 [1]

12. *^ * [2]

13. *^ * J.R. Marlon et al. (2009) Wildfire responses to abrupt climate
change in North America, Proceedings of the National Academy of Sciences
106 (8), 2519–2524

14. *^ * N. Pinter, S.E Ishman (2008) Impacts, mega-tsunami, and other
extraordinary claims, GSA Today 18 (1), 37–38.

15. ^ ^/*a*/ ^/*b*/ ^/*c*/ ^/*d*/ ^/*e*/ Haynes, Gary (2009),
"Introduction to the Volume" , in Haynes, Gary, /American Megafaunal
Extinctions at the End of the Pleistocene/ , Springer , pp. 1–20, doi
:10.1007/978-1-4020-8793-6_1 , ISBN 978-1-4020-8792-9 ,
http://www.springerlink.com/content/w314m76738r91g35/?p=5af1eb7387d443a2b514b284c646efa7&pi=0

16. ^ ^/*a*/ ^/*b*/ ^/*c*/ Fiedel, Stuart (2009), "Sudden Deaths: The
Chronology of Terminal Pleistocene Megafaunal Extinction" , in Haynes,
Gary, /American Megafaunal Extinctions at the End of the Pleistocene/ ,
Springer , pp. 21–37, doi :10.1007/978-1-4020-8793-6_2 , ISBN
978-1-4020-8792-9 ,
http://www.springerlink.com/content/l225628681672725/?p=5af1eb7387d443a2b514b284c646efa7&pi=1

17. ^ ^/*a*/ ^/*b*/ Vergano, Dan (2009-01-02). "Study links mammoth
extinction, comets" . /USA Today.Com /. Gannett Company .
http://www.usatoday.com/tech/science/2009-01-01-mammothimpact_N.htm.
Retrieved 2009-05-10.

18. *^ * Scott, E. (2010). "Extinctions, scenarios, and assumptions:
Changes in latest Pleistocene large herbivore abundance and distribution
in western North America". /Quat. Int./. doi :10.1016/j.quaint.2009.11.003
.