Abstract
The five-year PONAl'vl (polar North Atlantic l\largin: Late Cenozoic Evolution) pr
programme was launched by the European Science Foundation in 1989. Its aim was to study the major climate-driven environmental variations in the Norwegian-Greenland (also Nordic) Sea and its continental margins over the last 5 milliion years. The programme has provided substantial new insights into the contrasting behaviour of the ice sheets covering the Svalbard-Barents Sea and East reenland over the last glacial-interglacial cycle in particular. The highly dynamic Svalbard Barents Sea lee Sheet, after reaching the shelf edge during each stadia I, almost vanished during subsequent interstadials. By contrast, the East Greenland lee Sheet showed only minor advances confined to Gord basins or ending on the inner shelf. Although there is a striking correspondence in the timing and duration of the first post-Eemian ice advance in East Greenland and on Svalbard, their chronology and dynamics have been very different since about 65 ka. The Svalbard-Barents Sea Ice Sheet showed well-defined rvliddle and Late Weichselian ice advances, whereas the East Greenland Ice Sheet was haracterised by a 55 kyr-Iong period with a relatively st.able ice margin loc,tted in fjords or the inner shelf. The contrasting behaviour of the two ice sheets is probably linked to the palaeoeeanographic circulation pattern in the Polar North Atlantic. East Greenland is under the influence of the cold East Greenland Current, whereas the development and behaviour of ice in the Barents Sea is influenced by the continuous, but highly variable. North Atlantic meridional current system that has resulted in a northward innow of relatively warm waters of Atlantic origin on the eastern side of the Polar North Atlantic. Ofparlicular interest arc the so-called "Nordway events" in glacial stages 6 and 4 to 2. These representcd periods of pronounced inflow of temperate waters from the south and an associated increase in seasonally open waters, providing moisture for ice-shect growth. The largest of these cvcnts ended in major g!aciations, which werc reflected in terrestrial glacial sequences and in deep~sea records of ice-mftcd debris Differcnces in ice extent <lnd dynamics around the Polar North Atlantic are expressed in the evolution and archilecture of ilS east and west continental margins. The Svalbard-Barents Sea Ice Sheet developed much later than the East Greenland Icc Sheet, in thc Late Pliocene as compared with the t...liddlejLate Miocene. The Svalbard-Barents Sea margin is characterised by major prograding
fans, built mainly of stacked debris flows. These fans are interpreted as products of rapid sediment delivery from fast-llowing ice streams reaching the shelf break during full glacial conditions. Such major submarine fans are not found north of the Scorcsby Suml Fan off East Greenland, where ice seldom reached the shelf break, sedimentation rates were relatively low and sediment transport appears to have becn localised in several major deep-sca submarine channel systems. Fcw debris flows are present and more uniform, acoustically-stratified scdiments predominate. In general, the Greenland Ice Sheet has been more stable than those on the European North Atlantic margin, which rcflect greater variability in heat and moisture transfer at timescale varying from 100,000 year glacial cycles to millennial-scale nuctuations. C(;, 1998 Elsevier Science Ltd. All rights reserved.
programme was launched by the European Science Foundation in 1989. Its aim was to study the major climate-driven environmental variations in the Norwegian-Greenland (also Nordic) Sea and its continental margins over the last 5 milliion years. The programme has provided substantial new insights into the contrasting behaviour of the ice sheets covering the Svalbard-Barents Sea and East reenland over the last glacial-interglacial cycle in particular. The highly dynamic Svalbard Barents Sea lee Sheet, after reaching the shelf edge during each stadia I, almost vanished during subsequent interstadials. By contrast, the East Greenland lee Sheet showed only minor advances confined to Gord basins or ending on the inner shelf. Although there is a striking correspondence in the timing and duration of the first post-Eemian ice advance in East Greenland and on Svalbard, their chronology and dynamics have been very different since about 65 ka. The Svalbard-Barents Sea Ice Sheet showed well-defined rvliddle and Late Weichselian ice advances, whereas the East Greenland Ice Sheet was haracterised by a 55 kyr-Iong period with a relatively st.able ice margin loc,tted in fjords or the inner shelf. The contrasting behaviour of the two ice sheets is probably linked to the palaeoeeanographic circulation pattern in the Polar North Atlantic. East Greenland is under the influence of the cold East Greenland Current, whereas the development and behaviour of ice in the Barents Sea is influenced by the continuous, but highly variable. North Atlantic meridional current system that has resulted in a northward innow of relatively warm waters of Atlantic origin on the eastern side of the Polar North Atlantic. Ofparlicular interest arc the so-called "Nordway events" in glacial stages 6 and 4 to 2. These representcd periods of pronounced inflow of temperate waters from the south and an associated increase in seasonally open waters, providing moisture for ice-shect growth. The largest of these cvcnts ended in major g!aciations, which werc reflected in terrestrial glacial sequences and in deep~sea records of ice-mftcd debris Differcnces in ice extent <lnd dynamics around the Polar North Atlantic are expressed in the evolution and archilecture of ilS east and west continental margins. The Svalbard-Barents Sea Ice Sheet developed much later than the East Greenland Icc Sheet, in thc Late Pliocene as compared with the t...liddlejLate Miocene. The Svalbard-Barents Sea margin is characterised by major prograding
fans, built mainly of stacked debris flows. These fans are interpreted as products of rapid sediment delivery from fast-llowing ice streams reaching the shelf break during full glacial conditions. Such major submarine fans are not found north of the Scorcsby Suml Fan off East Greenland, where ice seldom reached the shelf break, sedimentation rates were relatively low and sediment transport appears to have becn localised in several major deep-sca submarine channel systems. Fcw debris flows are present and more uniform, acoustically-stratified scdiments predominate. In general, the Greenland Ice Sheet has been more stable than those on the European North Atlantic margin, which rcflect greater variability in heat and moisture transfer at timescale varying from 100,000 year glacial cycles to millennial-scale nuctuations. C(;, 1998 Elsevier Science Ltd. All rights reserved.
Originalsprog | Engelsk |
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Tidsskrift | Quaternary Science Reviews |
Udgave nummer | 17 |
Sider (fra-til) | 1-10 |
ISSN | 0277-3791 |
Status | Udgivet - 1998 |