Analysis of Nd isotope, REE and oxygen isotope ratios on water samples across Fram Strait

The water masses passing the Fram Strait are mainly responsible for the exchange of heat and freshwater between the Nordic Seas and the Arctic Ocean (the Arctic Mediterranean, AM). Disentangling their exact sources, distribution and mixing, however, is complex. This work provides new insights based...

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Bibliographic Details
Main Authors: Laukert, Georgi, Frank, Martin, Bauch, Dorothea, Hathorne, Ed C, Rabe, Benjamin, von Appen, Wilken-Jon, Wegner, Carolyn, Zieringer, Moritz, Kassens, Heidemarie
Format: Dataset
Language:English
Published: PANGAEA 2017
Subjects:
GEOTRACES
Global marine biogeochemical cycles of trace elements and their isotopes
Arctic
Arctic Ocean
Svalbard
Barents Sea
Kara Sea
Greenland
Pacific
East Greenland
east greenland current
Fram Strait
Iceland
Nordic Seas
Polarforschung
Online Access:https://doi.pangaea.de/10.1594/PANGAEA.871520
https://doi.org/10.1594/PANGAEA.871520
Description
Summary:The water masses passing the Fram Strait are mainly responsible for the exchange of heat and freshwater between the Nordic Seas and the Arctic Ocean (the Arctic Mediterranean, AM). Disentangling their exact sources, distribution and mixing, however, is complex. This work provides new insights based on a detailed geochemical tracer inventory including dissolved Nd isotope (e-Nd), rare earth element (REE) and stable oxygen isotope (d18O) data along a full water depth section across Fram Strait. We find that Nd isotope and REE distributions in the open AM primarily reflect lateral advection of water masses and their mixing. Seawater-particle interactions exert important control only above the shelf regions, as observed above the NE Greenland Shelf. Advection of northward flowing warm Atlantic Water (AW) is clearly reflected by an e-Nd signature of -11.7 and a Nd concentration ([Nd]) of 16 pmol/kg in the upper ~500 m of the eastern and central Fram Strait. Freshening and cooling of the AW on its way trough the AM are accompanied by a continuous change towards more radiogenic e-Nd signatures (e.g. -10.4 of dense Arctic Atlantic Water). This mainly reflects mixing with intermediate waters but also admixture of dense Kara Sea waters and Pacific-derived waters. The more radiogenic e-Nd signatures of the intermediate and deep waters (reaching -9.5) are mainly acquired in the SW Nordic Seas through exchange with basaltic formations of Iceland and CE Greenland. Inputs of Nd from Svalbard are not observed and surface waters and Nd on the Svalbard shelf originate from the Barents Sea. Shallow southward flowing Arctic-derived waters (<200 m) form the core of the East Greenland Current above the Greenland slope and can be traced by their relatively radiogenic e-Nd (reaching -8.8) and elevated [Nd] (21-29 pmol/kg). These properties are used together with d18O and standard hydrographic tracers to define the proportions of Pacific-derived (<~30% based on Nd isotopes) and Atlantic-derived waters, as well as of river waters ...

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