Water mass exchange between the Nordic Seas and the Arctic Ocean on millennial time scale during MIS 4–2
Permanent link
https://hdl.handle.net/10037/12110Date
2014Type
Journal articleTidsskriftartikkel
Peer reviewed
Abstract
The climate of the last glaciation circa 65,000–25,000 years ago was interrupted by about 15 abrupt
temperature fluctuations, the so-called Dansgaard-Oeschger events consisting of warm interstadials and cold
stadials recorded in Greenland ice cores. The largest fluctuations occur in the North Atlantic region, but they
have been registered over the most of the world. The events are linked to changes in deep water formation in
the Nordic seas and North Atlantic, disrupting the thermo
haline circulation. Yet, Dansgaard-Oeschger events
have so far not been recorded north of the convection areas in the central Nordic seas, and it is not known if
they affected the water exchange between the Nordic seas and the Arctic Ocean. In this study, we analyze
core JM05-31GC from the northern Fram Strait at the very entrance to the Arctic Ocean. The core contains
sediments from marine isotope stages (MISs) 4–2. The results show millennial timescale shifts in all the
investigated proxies including the distribution of planktonic and benthic foraminifera, planktonic and benthic
oxygen and carbon isotopes, and several sedimentological parameters. In JM05-31GC, the interstadials are
characterized by relatively high surface and low bottom water temperatures, low content of ice-rafted debris,
and well-ventilated bottom water. Stadials are characterized by the presence of icebergs and decreasing
surface water and increasing bottom water temperatures due to increased inflow of Atlantic subsurface water.
Ventilation decreased during Heinrich events and mo
st stadials. The results show that the Dansgaard-
Oeschger events strongly affected the water exchange between the Nordic seas and the Arctic Ocean.