(Table 1) Nd-Hf isotopes from leachates and detrital materials of the Arctic sediments

The warm and saline North Atlantic inflow to the Arctic Ocean is a major component of high northern latitude circulation and the main mechanism of deep water renewal in the Arctic Ocean. Knowledge of its past variability is critical for understanding the high latitude feedback mechanisms of the clim...

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Bibliographic Details
Main Authors: Chen, Tian-Yu, Frank, Martin, Haley, Brian A, Gutjahr, Marcus, Spielhagen, Robert F
Format: Dataset
Language:English
Published: PANGAEA 2012
Subjects:
302-M0002A
302-M0004C
ACEX-M2A
ACEX-M4C
AGE
Akademik Boris Petrov
Arctic Coring Expedition
ACEX
Arctic Ocean
ARK-VIII/3
ARK-XXII/2
BC
Box corer
BP97
BP97-12
BP97-32
BP97-46
BP97-52
BP97-56
Comment
DEPTH
sediment/rock
DIVERSE
Elevation of event
Event label
Exp302
Giant box corer
GKG
Hafnium-176/Hafnium-177
standard deviation
Integrated Ocean Drilling Program / International Ocean Discovery Program
IODP
KAL
Kara Sea
KaraSea97
Kasten corer
Latitude of event
Lomonosov Ridge
Longitude of event
MULT
Multiple investigations
Neodymium-143/Neodymium-144 ratio
Polarstern
PS19/178
PS19/186
PS19 ARCTIC91
Arctic
North Pole
North Atlantic
Online Access:https://doi.pangaea.de/10.1594/PANGAEA.871708
https://doi.org/10.1594/PANGAEA.871708
Description
Summary:The warm and saline North Atlantic inflow to the Arctic Ocean is a major component of high northern latitude circulation and the main mechanism of deep water renewal in the Arctic Ocean. Knowledge of its past variability is critical for understanding the high latitude feedback mechanisms of the climate system. Here we present the first combined seawater Hf and Nd isotope compositions of past Arctic Intermediate Water extracted from the authigenic Fe?Mn oxyhydroxide fraction of two sediment cores recovered near the North Pole, to reconstruct changes in contributions from glacial brines of the Eurasian shelf and past inflow of Atlantic waters. The Hf and Nd isotopic compositions obtained from leachates of the authigenic fraction show closely coupled and environmentally controlled variations over the past 14 million years. An observed offset of these data from seawater e-Hf and e-Nd compositions from other ocean basins (seawater array) is interpreted as the result of continuously prevailing glacial weathering conditions on the high latitude Eurasian continent. In the late Quaternary, large amplitude Hf and Nd isotopic variations of Arctic Intermediate Water (AIW) was characterized by more radiogenic isotope signatures generally prevailing under glacial conditions and less radiogenic values during interglacial periods. On the basis of the close coupling between Nd and Hf isotopes, we suggest that the evolution of Hf isotope compositions of central Arctic AIW has primarily been controlled by changes in ocean circulation and provenance of weathering inputs, rather than changes in weathering regime.

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