Possible evidence for wet Heinrich phases in tropical NE Australia: the Lynch's Crater deposit

Muller, Joanne, Kylander, Malin, Wust, Raphael A.J., Weiss, Dominik, Martinez-Cortizas, Antonio, LeGrande, Allegra N., Jennerjahn, Tim, Behling, Herman, Anderson, William T., and Jacobson, Geraldine (2008) Possible evidence for wet Heinrich phases in tropical NE Australia: the Lynch's Crater deposit. Quaternary Science Reviews, 27 (5-6). pp. 468-475.

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Unarguably, one of the most significant paleoclimatological discoveries of the last two decades has been that of abrupt climate events (Dansgaard–Oeschger cycles and Heinrich events). Most evidence for these events has originated from the high-latitude Northern Hemisphere, with few records documenting the response of the low latitude Southern Hemisphere. Here we present new data from Lynch's Crater, a unique terrestrial record from NE-Australia that may show evidence for southward propagations of the Intertropical Convergence Zone (ITCZ) during abrupt climate perturbations as a result of alteration of the low latitude air masses. Proxies for precipitation/wetness indicate enhanced rainfall in the region during Heinrich events (H events 1–3) and the 8.2 ka Northern Hemisphere cold event. A fully coupled atmosphere/ocean climate model simulating a 1 Sv freshwater influx to the North Atlantic Ocean produces a scenario which agrees with the climate changes shown by the Lynch's Crater record. The model shows precipitation anomalies that include a southward migration of the ITCZ and a zonal shift in mid-latitude storm tracks over the Southern Hemisphere equatorial region. These data indicate large-scale shifts of the austral summer ITCZ position that is known to control monsoonal precipitation in NE Australia. This terrestrial record from Australia may demonstrate the involvement of the tropical western Pacific Ocean in ITCZ migrations during abrupt climate events of the last glacial period. Defining such past migrations offers insight into the importance and role of the equatorial region in global climate dynamics.

Item ID: 1853
Item Type: Article (Research - C1)
ISSN: 1873-457X
Keywords: peat, climate
Date Deposited: 07 Apr 2008
FoR Codes: 04 EARTH SCIENCES @ 0%
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