Stable carbon and oxygen isotope ratios of foraminifera from Holocene sediments of the North Atlantic

The Denmark Strait Overflow (DSO) today compensates for the northward flowing Norwegian and Irminger branches of the North Atlantic Current that drive the Nordic heat pump. During the Last Glacial Maximum (LGM), ice sheets constricted the Denmark Strait aperture in addition to ice eustatic/isostatic...

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Bibliographic Details
Main Authors: Millo, Christian, Sarnthein, Michael, Voelker, Antje H L, Erlenkeuser, Helmut
Format: Dataset
Language:English
Published: PANGAEA 2006
Subjects:
ARK-XVIII/1
Giant box corer
GIK23519-4
GIK23519-5
GKG
Gravity corer (Kiel type)
Greenland Sea
Iceland Sea
Impact of Gateways on Ocean Circulation
Climate
and Evolution
OceanGateways
Ocean Gateways
Oceanpassagen
PC
Piston corer
Polarstern
POS210/2
Poseidon
PS62
PS62/003-2
PS62/004-3
PS62/015-3
SL
Greenland
Irminger Basin
Mid-Atlantic Ridge
Denmark Strait
Iceland
Nordic Seas
north atlantic current
North Atlantic Deep Water
North Atlantic
Online Access:https://doi.pangaea.de/10.1594/PANGAEA.727694
https://doi.org/10.1594/PANGAEA.727694
Description
Summary:The Denmark Strait Overflow (DSO) today compensates for the northward flowing Norwegian and Irminger branches of the North Atlantic Current that drive the Nordic heat pump. During the Last Glacial Maximum (LGM), ice sheets constricted the Denmark Strait aperture in addition to ice eustatic/isostatic effects which reduced its depth (today ~630 m) by ~130 m. These factors, combined with a reduced north-south density gradient of the water-masses, are expected to have restricted or even reversed the LGM DSO intensity. To better constrain these boundary conditions, we present a first reconstruction of the glacial DSO, using four new and four published epibenthic and planktic stable-isotope records from sites to the north and south of the Denmark Strait. The spatial and temporal distribution of epibenthic delta18O and delta13C maxima reveals a north-south density gradient at intermediate water depths from sigma0 ~28.7 to 28.4/28.1 and suggests that dense and highly ventilated water was convected in the Nordic Seas during the LGM. However, extremely high epibenthic delta13C values on top of the Mid-Atlantic Ridge document a further convection cell of Glacial North Atlantic Intermediate Water to the south of Iceland, which, however, was marked by much lower density (sigma0 ~28.1). The north-south gradient of water density possibly implied that the glacial DSO was directed to the south like today and fed Glacial North Atlantic Deep Water that has underthrusted the Glacial North Atlantic Intermediate Water in the Irminger Basin.

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