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  • 1.
    Charette, M
    et al.
    Woods Hole Oceanographic Institution.
    Kipp, L
    Woods Hole Oceanographic Institution.
    Jensen, L.T.
    Lamont-Doherty Earth Observatory.
    Dabrowski, J.S.
    Woods Hole Oceanographic Institution.
    Whitmore, L.M.
    University of Southern Mississippi.
    Fitzsimmons, J.N.
    Texas A&M University.
    Williford, T
    Texas A&M University.
    Ulfsbo, A
    Göteborgs Universitet.
    Jones, E
    Fram Centre Norway.
    Bundy, R.M.
    Woods Hole Oceanographic Institution.
    Vivanacos, S.M.
    Columbia University New York.
    Pahnke, K
    University of Oldenburg.
    John, S.G.
    University of Southern California.
    Xiang, Y
    University of California Santa Cruz.
    Hatta, M
    University of Hawaii.
    Petrova, M.V.
    Aix Marseille University.
    Heimburger-Boavida, L.-E.
    Aix Marseille University.
    Bauch, D
    GEOMAR Kiel.
    Newton, R
    Lamont-Doherty Earth Observatory.
    Pasqualini, A
    Columbia University.
    Agather, A.M.
    Wright State University.
    Amon, R.M.W
    Texas A&M University.
    Anderson, R.F.
    Lamont-Doherty Earth Observatory.
    Andersson, P.S.
    Swedish Museum of Natural History, Department of Geology.
    Benner, R
    University of South Carolina.
    Bowman, K.L.
    University of California Santa Cruz.
    Edwards, R.L.
    University of Minnesota.
    Gdaniec, Sandra
    Swedish Museum of Natural History, Department of Geology.
    Gerringa, L.J.A.
    Utrecht University.
    González, A.G.
    University of Brest.
    Granskog, M
    Norwegian Polar Institute.
    Haley, B
    Oregon State University.
    Hammerschmidt, C.R.
    Wright State University.
    Hansell, D
    University of Miami.
    Henderson, P.B.
    Woods Hole Oceanographic Institution.
    Kadko, D.C.
    Florida International University.
    Kaiser, K
    Texas A&M University.
    Laan, P
    Utrecht University.
    Lam, P
    University of California Santa Cruz.
    Lamborg, C.H.
    University of California Santa Cruz.
    Levier, M
    Université Paris.Saclay.
    Li, X
    University of Minnesota.
    Margolin, A.R.
    University of Miami.
    Measures, C
    University of Hawaii.
    Middag, R
    Utrecht University.
    Millero, F
    Univerity of Miami.
    Moore, W
    University of South Carolina.
    Paffrath, R
    University of Oldenburg.
    Planquette, H
    Univerity of Brest.
    Rabe, B
    Alfred Wegener Institute Bremerhaven.
    Reader, H
    Technical University Denmark.
    Rember, R
    University of Alaska.
    Rijkenberg, M.J.A
    University of Utrecht.
    Roy-Barman, M
    Université Paris-Saclay.
    Rutgers van der Loeff, M
    Alfred Wgener Institute Bremerhaven.
    Saito, M
    Woods Hole Oceanographic Institution.
    Scahuer, U
    Alfred Wegener Institut Bremerhaven.
    Schlosser, P
    Columbia University.
    Sherrell, R.M.
    Rutgers Universty.
    Shiller, A
    University of Southern Mississippi.
    Slagter, H
    University of Minnesota.
    Sonke, J.E.
    Université Paul-Sabatier Tolouse III.
    Stedmon, C
    Technical University Denmark.
    Woosley, R.J.
    University of Miami.
    Valk, O
    Alfred Wegener Institut Bremerhaven.
    van Ooijen, J.
    Utrech University.
    Zhang, R
    University of Southern California.
    The Transpolar Drift as a Source of Riverine and Shelf‐Derived Trace Elements to the Central Arctic Ocean2020In: Journal of Geophysical Research - Oceans, ISSN 2169-9275, E-ISSN 2169-9291, Vol. 125, p. 1-34Article in journal (Refereed)
    Abstract [en]

    A major surface circulation feature of the Arctic Ocean is the Transpolar Drift (TPD), a current that transports river‐influenced shelf water from the Laptev and East Siberian Seas toward the center of the basin and Fram Strait. In 2015, the international GEOTRACES program included a high‐resolution pan‐Arctic survey of carbon, nutrients, and a suite of trace elements and isotopes (TEIs). The cruises bisected the TPD at two locations in the central basin, which were defined by maxima in meteoric water and dissolved organic carbon concentrations that spanned 600 km horizontally and ~25–50 m vertically. Dissolved TEIs such as Fe, Co, Ni, Cu, Hg, Nd, and Th, which are generally particle‐reactive but can be complexed by organic matter, were observed at concentrations much higher than expected for the openocean setting. Other trace element concentrations such as Al, V, Ga, and Pb were lower than expected due to scavenging over the productive East Siberian and Laptev shelf seas. Using a combination of radionuclide tracers and ice drift modeling, the transport rate for the core of the TPD was estimated at 0.9 ± 0.4 Sv(106m3 s−1). This rate was used to derive the mass flux for TEIs that were enriched in the TPD, revealing the importance of lateral transport in supplying materials beneath the ice to the central Arctic Ocean and potentially to the North Atlantic Ocean via Fram Strait. Continued intensification of the Arctic hydrologicc ycle and permafrost degradation will likely lead to an increase in the flux of TEIs into the Arctic Ocean.

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  • 2.
    Rosén, Per-Olov
    et al.
    Swedish Museum of Natural History, Department of Geology.
    Andersson, Per
    Swedish Museum of Natural History, Department of Geology.
    Alling, Vanja
    Norwegian Environment Agency.
    Mörth, Carl-Magnus
    Department of Geological Sciences Stockholm University.
    Björk, Göran
    Department of Oceanography Göteborg University.
    Semiletov, Igor
    International Arctic Research Center University of Alaska.
    Porcelli, Don
    Department of Earth Sciences Oxford University.
    Ice export from the Laptev and East Siberian Sea derived from δ18O values2015In: Journal of Geophysical Research - Oceans, ISSN 2169-9275, E-ISSN 2169-9291, ISSN 2169-9275, Vol. 120, no 9, p. 5997-6007, article id 10.1002/2015JC010866Article in journal (Refereed)
    Download full text (pdf)
    fulltext
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