Hartmut Heinrich scite author profile

Deep-sea sediment cores recovered from the Northeast Atlantic Ocean were examined in order to elucidate the influence of the Earth's orbital parameters on major ice rafting. Analyses of coarse-grained ice-rafted debris and planktonic foraminifers revealed a strong reaction to the precession signal. Since 130,000 yr B.P., dropstone layers have been deposited each half period of a precessional cycle (11,000 ± 1000 yr). Ice rafting occurs during times of winter minimum/summer maximum insolation and summer minimum/winter maximum insolation. In the first case, high summer insolation forces meltwater discharge from the ice sheets into the polar seas which subsequently enhances formation of sea ice during the winter. In the second case, growth of continental ice enhances iceberg production which also leads to a salinity reduction of surface seawater. Both situations result in a southward penetration of polar water. Thus, the marine record of dropstones documents ice rafting not only during Weichselian stades but also during cold events within interstades. The regularity of ice rafting yields a useful framework to calibrate and elucidate climatic changes, not only in the region of the North Atlantic Ocean but also in remote areas such as the Pacific Ocean and the Antarctic.

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Evidence for massive discharges of icebergs into the North Atlantic ocean during the last glacial period

Bond

Heinrich

Broecker

et al. 1992

Nature

1,462

843

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The resilience and sensitivity of Northeast Atlantic deep water εNd to overprinting by detrital fluxes over the past 30,000 years

Blaser

Pöppelmeier

Schulz

et al. 2019

Geochimica et Cosmochimica Acta

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Interannual and Multidecadal Changes of Wind Speed and Directions over the North Sea from Climate Model Results

Ganske¹,

Tinz²,

Rosenhagen³

et al. 2016

metz

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