Changing Southern Ocean palaeocirculation and effects on global climate

Southern Ocean palaeocirculation is clearly related to the formation of a continental ice sheet onAntarctica and the opening of gateways between Antarctica and the Australian and South Americancontinents. Palaeoenvironmental proxy records from Southern Ocean sediment cores suggest ice growth onAntar...

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Bibliographic Details
Published in:Antarctic Science
Main Author: Mackensen, Andreas
Format: Article in Journal/Newspaper
Language:unknown
Published: 2004
Subjects:
Online Access:https://epic.awi.de/id/eprint/9783/
https://doi.org/10.1017/S0954102004002202
https://hdl.handle.net/10013/epic.20281
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Summary:Southern Ocean palaeocirculation is clearly related to the formation of a continental ice sheet onAntarctica and the opening of gateways between Antarctica and the Australian and South Americancontinents. Palaeoenvironmental proxy records from Southern Ocean sediment cores suggest ice growth onAntarctica beginning by at least 40 million years (Ma) ago, and the opening of Tasmania_Antarctic andDrake Passages to deep-water flow around 34 and 31 ± 2 Ma, respectively. So, the Eocene/Oligocenetransition appears to mark the initiation of the Antarctic Circumpolar Current and thus the onset of thermalisolation of Antarctica with a first major ice volume growth on East Antarctic. There is no evidence for asignificant cooling of the deep ocean associated with this rapid (< 350 000 years) continental ice build-up.After a long phase with frequent ice sheets growing and decaying, in the middle Miocene at about 14 Ma, are-establishment of an ice sheet on East Antarctica and the Pacific margin of West Antarctica was associatedwith an increased southern bottom water formation, and a slight cooling of the deep ocean, but with nopermanent drop in atmospheric pCO2. During the late Pleistocene on orbital time scales a temporalcorrelation between changes in atmospheric pCO2 and proxy records of deep ocean temperatures,continental ice volume, sea ice extension, and deep-water nutrient contents is documented. I discusshypotheses that call for a dominant control of glacial to interglacial atmospheric pCO2 variations bySouthern Ocean circulation dynamics. Millennial to centennial climate variability is a global feature, butthere is contrasting evidence from various palaeoclimate archives that indicate both interhemisphericsynchrony and asynchrony. The role of the Southern Ocean, however, in triggering or modulating climatevariability on these time scales only recently received some attention and is not yet adequately investigated.