High-resolution records of past climatic changes during the last glacial ha
ve revealed a number of abrupt changes on time scales of decades or less. C
limate models suggest that the deep ocean circulation has the potential to
act as a pacemaker of such changes. Based on results from ice cores from bo
th polar regions, and the reference to a common time scale based on the met
hane record, it is suggested that the ocean is involved in the 24 Dansgaard
-Oeschger events. For the longer events, northern and southern hemispheres
are strongly coupled and exhibit climate changes of opposite sign. For the
shorter events, the hemispheres are not coupled. The specific global respon
se depends upon the forcing, and probably, the state of the ocean prior to
the onset of these events. While such abrupt climate changes appear to be c
aused by a unique mechanism (changes in the sea surface freshwater balance)
, models suggest that the response of the ocean circulation depends on the
amplitude and temporal evolution of the perturbation. (C) 1999 Elsevier Sci
ence Ltd. All rights reserved.