8.2 kiloyear event

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Temperature proxies from ice cores; the 8.2 kyr event can just be seen
Temperature proxies from ice cores; the 8.2 kyr event can just be seen

The 8.2 kiloyear event is the term that climatologists have adopted for a sudden decrease in global temperatures that occurred approximately 8200 years before the present, or c. 6200 BCE, and which lasted for the next two to four centuries. Milder than the Younger Dryas cold spell that preceded it, but more severe than the Little Ice Age that would follow, the 8.2 kiloyear cooling was a significant exception to general trends of the Holocene climatic optimum.

A rapid cooling in 8,200 BP was first identified by Swiss botanist Heinrich Zoller in 1960, who named the event Misox oscillation (for the Val Mesolcina).[1] It is also known as Finse event in Norway.[2] Bond et al. argued that the origin of the 8.2 kiloyear event is linked to a 1500-year climate cycle; it correlates with Bond event 5.[3]

The strongest evidence for the event comes from the North Atlantic region; the disruption in climate shows clearly in Greenland ice cores and in sedimentary and other records of the temporal and tropical North Atlantic.[4][5][6] It is less evident in ice cores from Antarctica and in South American indices.[7][8] The effects of the cold snap were global, however, most notably in changes in sea level during the relevant era.

The 8.2 Ka cooling event may have been caused by a large meltwater pulse from the final collapse of the Laurentide ice sheet of northeastern North America—most likely when the glacial Lake Ojibway & glacial Lake Agassiz suddenly drained into the North Atlantic Ocean.[9][10][11] (The same type of action produced the Missoula floods that created the Channeled scablands of the Columbia River basin.) The meltwater pulse adversely affected the Gulf Stream and the global thermohaline circulation regulating the Earth's climate regime (an instance of warming causing cooling). Cooling occurred by 5 to 6 °C (9 to 11 °F) in the temperate zones, and 3 °C (5 °F) in the tropics: "cores drilled into an ancient coral reef in Indonesia show an abrupt sea surface cooling of about 3 degrees Centigrade."[12] The event also caused a global CO2 decline of ≈25 ppm by volume over ≈300 years.[13]

Cooler and drier conditions prevailed, again as in the Younger Dryas though less extreme. Yet the changes were severe enough to impact the earliest settled human communities: the first phase of Catal Huyuk ended during the 8.2 kiloyear event. The site was abandoned and not re-occupied until about 5 centuries later, when climate conditions had improved markedly.

Drier conditions were notable in North Africa, while East Africa suffered five centuries of general drought. In West Asia and especially Mesopotamia, the 8.2k event was a three hundred year aridification and cooling episode, which provided the natural force for Mesopotamian irrigation agriculture and surplus production that were essential for the earliest class-formation and urban life.

The initial meltwater pulse raised sea levels by as much as 1.2 meters (4 ft), but the cooling that followed allowed a glacial advance and consequent marine regression. After 2 centuries, or by 8000 ybp (6000 BCE), global sea level had dropped by 14 m (46 ft). After that point, however, milder climate conditions re-asserted themselves; by 7800 ybp (5800 BCE) the global climate returned to the clement conditions that prevailed during the Holocene climatic optimum.

In 2003, the Office of Net Assessment at the United States Department of Defense was commissioned to produce a study on the likely and potential effects of a modern climate change.[14] The study, conducted under ONA head Andrew Marshall, modelled its prospective climate change on the 8.2 kiloyear event, precisely because it was the middle alternative between the Younger Dryas and the Little Ice Age. The study caused a controversy when it was made public in 2004.[15]

[edit] See also

[edit] References

  1. ^ Zoller, Heinrich (1960). "Pollenanalytische Untersuchungen zur Vegetationsgeschichte der insubrischen Schweiz" (in German). Denkschriften der Schweizerischen Naturforschenden Gesellschaft 83: 45–156. ISSN 0366-970X. 
  2. ^ Nesje, Atle; Dahl, Svein Olaf (2001). "The Greenland 8200 cal. yr BP event detected in loss-on-ignition profiles in Norwegian lacustrine sediment sequences". Journal of Quaternary Science 16 (2): 155–166. doi:10.1002/jqs.567. 
  3. ^ Bond, G.; et al. (1997). "A Pervasive Millennial-Scale Cycle in North Atlantic Holocene and Glacial Climates". Science 278 (5341): 1257-1266. doi:10.1126/science.278.5341.1257. 
  4. ^ Alley, R. B.; et al. (1997). "Holocene climatic instability; a prominent, widespread event 8200 yr ago". Geology 25 (6): 483-486. 
  5. ^ Alley, Richard B.; Ágústsdóttir, Anna Maria (2005). "The 8k event: cause and consequences of a major Holocene abrupt climate change". Quaternary Science Reviews 24 (10-11): 1123-1149. doi:10.1016/j.quascirev.2004.12.004. 
  6. ^ Sarmaja-Korjonen, Kaarina (2007). "Abrupt and consistent responses of aquatic and terrestrial ecosystems to the 8200 cal. yr cold event: a lacustrine record from Lake Arapisto, Finland". The Holocene 17 (4): 457-467. doi:10.1177/0959683607077020. 
  7. ^ Burroughs, William J. [ed.] (2003). Climate: Into the 21st Century. Cambridge: Cambridge University Press. ISBN 0521792029. 
  8. ^ Ljung, K.; et al. (2007). "South Atlantic island record reveals a South Atlantic response to the 8.2kyr event". Climate of the Past 4: 35-45. 
  9. ^ Ehlers, Jürgen; Gibbard, Philip L. (2004). Quaternary Glaciations – Extent and Chronology. Part II: North America. Amsterdam: Elsevier, 257-262. ISBN 0444515925. 
  10. ^ Barber, D. C.; et al. (1999). "Forcing of the cold event 8,200 years ago by catastrophic drainage of Laurentide Lakes". Nature 400: 344-348. doi:10.1038/22504. 
  11. ^ Ellison, Christopher R. W.; Chapman, Mark R.; Hall, Ian R. (2006). "Surface and Deep Ocean Interactions During the Cold Climate Event 8200 Years Ago". Science 312 (5782): 1929-1932. doi:10.1126/science.1127213. 
  12. ^ Fagan, Brian (2004). The Long Summer: How Climate Changed Civilization. New York: Basic Books, 107-108. ISBN 0465022812. 
  13. ^ Wagner, Friederike; et al. (2002). "Rapid atmospheric CO2 changes associated with the 8,200-years-B.P. cooling event". PNAS 99 (19): 12011-12014. doi:10.1073/pnas.182420699. 
  14. ^ Schwartz, Peter; Randall, Doug (October 2003). "An Abrupt Climate Change Scenario and Its Implications for United States National Security".
  15. ^ Stripp, David. "The Pentagon's Weather Nightmare", Fortune, February 9, 2004. 
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