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PALEOCEANOGRAPHY,
VOL. 13, NO. 1,
PAGES 1–9,
1998
Origin of the Middle Pleistocene Transition by Ice Sheet Erosion of Regolith
Peter U. Clark
Department of Geosciences, Oregon State University, Corvallis
David Pollard
Earth System Science Center, Pennsylvania State University, University Park
Abstract
The transition in the middle Pleistocene (∼0.9 Ma) seen in δ18O deep-sea-core records from relatively low-amplitude, high-frequency (41 kyr) to high-amplitude, low-frequency (100 kyr)
ice volume variations under essentially the same orbital forcing can be attributed to a change from an all soft-bedded to
a mixed hard-soft bedded Laurentide ice sheet through glacial erosion of a thick regolith and resulting exposure of unweathered
crystalline bedrock. A one-dimensional ice sheet and bedrock model which includes transport of sediment and ice by subglacial
sediment deformation demonstrates that a widespread deforming sediment layer maintains thin ice sheets before the transition
which respond linearly to the dominant (23 and 41 kyr) orbital forcing. Progressive removal of the sediment layer eventually
causes a transition to thicker ice sheets whose dominant timescale of change (100 kyr) reflects nonlinear deglaciation processes.
In model simulations over the last 3 Ma initialized with no ice and a uniform 50 m sediment layer the time series of ice volume
and extent agree in several important aspects with the observed records.
Received 27
June
1997;
accepted 16
September
1997.
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Citation: Clark, P. U., and D. Pollard
(1998),
Origin of the Middle Pleistocene Transition by Ice Sheet Erosion of Regolith,
Paleoceanography,
13(1),
1–9.
Copyright 1998 by the American Geophysical Union.
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