Hostname: page-component-cd9895bd7-jkksz Total loading time: 0 Render date: 2024-12-26T05:21:49.819Z Has data issue: false hasContentIssue false

Trace metals in suspended particulate matter and sediments from the Severnaya Dvina estuary, Russian Arctic

Published online by Cambridge University Press:  27 October 2009

S.E. Koukina
Affiliation:
P.P. Shirshov Institute of Oceanology of Russian Academy of Science, 36 Nakhimovsky prospekt, 117851 Moscow, Russia
A. Calafat-Frau
Affiliation:
GRC Geociencies Marines, Dept Estratigrafia i Paleontologia, Universitat de Barcelona, Zona Universitaria de Pedralbes, 08028 Barcelona, Spain
H. Hummel
Affiliation:
Netherlands Institute of Ecology, Centre for Estuarine and Coastal Ecology, Korringaweg 7, Postbus 140, 4400 AC Yerseke, The Netherlands
R. Palerud
Affiliation:
Akvaplan-Niva, Strandtorget 2B, 9001 Tromsø, Norway

Abstract

A geochemical study of the Severnaya Dvina estuary was carried out during two oceanographic cruises to the White Sea. The amount and distribution of trace (Mn, Co, Cu, Ni, Pb, and Zn) and major (Al and Fe) elements in suspended particulate matter and sediments were determined. The main source of most metals studied was river discharge. A metal speciation study showed that the prevailing form is in the estuarine sediments, the minerals of which incorporated 60–99% of the total metal contents. Two zones of metal accumulation were found in sediments that were considered as local geochemical barriers within the major river–sea barrier.

Type
Articles
Copyright
Copyright © Cambridge University Press 2001

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

Artemiev, V.E. 1996. Geochemistry of organic matter in river–sea systems. Dordrecht: Kluwer Academic Publishers.CrossRefGoogle Scholar
Beckett, P.H.T. 1989. The use of extractants in studies on trace metals in soils, sewage sludges and sludgetreated soils. Advances in Soil Science 9: 143176.CrossRefGoogle Scholar
Dyer, K.R. 1991. Circulation and mixing in stratified estuaries. Marine Chemistry 32: 111120.CrossRefGoogle Scholar
Elbaz-Poulichet, F., Gamier, J.-M., Guan, D.M., Martin, J.-M., Thomas, A.J.. 1996. The conservative behavior of trace metals (Cd, Cu, Ni and Pb) and As in the surface plume of stratified estuaries: example of Rhone River (France). Estuarine, Coastal and Shelf Science 42: 289310.CrossRefGoogle Scholar
Foerstner, U., and Wittmann, G.T.W.. 1981. Metal pollution in the aquatic environment. Berlin: Springer-Verlag.CrossRefGoogle Scholar
Gauwet, G. 1987. Influence of sedimentological features on the distribution of trace metals in marine sediments. Marine Chemistry 22: 221234.Google Scholar
Gordeev, V.V. 1983. Rechnoy stok v okean i cherty ego geokhimii [River discharge into the ocean and the features of its geochemistry]. Moscow: Nauka.Google Scholar
Gordeev, V.V., Martin, J.M., Sidorov, I.S., and Sidorova, M.V.. 1996. A reassessment of the Eurasian river input of water, sediment, major elements, and nutrients to the Arctic Ocean. American Journal of Science 296: 664691.CrossRefGoogle Scholar
Howland, R.J.M., Pantiulin, A.N., Millward, G.E., and Prego, R.. 1999. The hydrography of the Chupa estuary, White Sea, Russia. Estuarine, Coastal and Shelf Science 48: 112.CrossRefGoogle Scholar
Hummel, H., and 14 others. 1999. Biodiversity and adaptation strategies of Arctic coastal marine benthos. Unpublished report on INTAS project 94–391. Yerseke: NIOO-CEMO.Google Scholar
Koukina, S.E. 1999. Raspredeleniye metallov vo vzveshennom veshchestve i donnih otlozheniyakh estuariya reki Severnaya Dvina [Metal distribution in SPM and sediments of the Severnaya Dvina estuary]. Unpublished PhD thesis. Moscow: Moscow State University.Google Scholar
Koukina, S.E., Sadovnikova, L.K., Calafat-Frau, A., Palerud, R., and Hummel, H.. 1999. Forms of metals in bottom sediments from some estuaries of the basins of the White and Barents seas. Geochemistry International 37 (120): 11971202.Google Scholar
Lisitzin, A.P. 1994. Marginalniye filtri okeana [Marginal filters of the ocean]. Okeanologiya 34 (5): 735747.Google Scholar
Loring, D.H., and Rantala, R.T.T.. 1992. Manual for geochemical analyses of marine sediments and suspended particulate matter. Earth Science Reviews 32: 235283.CrossRefGoogle Scholar
Maksimova, M.P. 1991. Gidrokhimiya Belogo morya [Hydrochemistry of the White Sea]. In: Gidrometeorologiya i gidrokhimiya morey SSSR [Hydrometeorology and hydrochemistry of the seas of the USSR]. Vol. 2: Beloye more [White sea]. Leningrad: Gidrometeoizdat: 8193.Google Scholar
Maliutin, A.N., and Lapin, N.A.. 1991. Raspredeleniye rastvorennikh form metallov i organicheskogo veshchestva gumusovoy prirodi v estuarii reki Severnaya Dvina – Dvinskoy gube Belogo morya [The distribution of dissolved metal forms and organic humic matters in the Severnaya Dvina estuary–Dvinskaya Guba of the White Sea]. Vodnyye resursy [Water Resources] 1: 8193.Google Scholar
Mikhailov, V.N. 1997. Ustya rek Rossii i sopredelnikh stran: proshloye, nastoyashcheye i budushcheye [The river estuaries of Russia and adjacent countries: present, past and future]. Moscow: GEOS.Google Scholar
Morozov, N.P., Baturin, G.N., Gordeyev, V.V., and Gurvich, E.G.. 1974. On the composition of SPM and sediments of the Severnaya Dvina, Mezen, Pechora and Ob' estuaries. Gidrokhimicheskiye Materialy 60: 6073.Google Scholar
Morris, A.W. 1986. Removal of trace metals in the very low salinity region of the Tamar estuary, England. Science of the Total Environment 49: 297304.CrossRefGoogle Scholar
Nevessky, Ye.N., Medvedev, V.S., and Kalinenko, V.V.. 1977. Beloye more: sedimentogenez I istoriya razvitiya v golotsene [White Sea: sedimentation and history of the development during the Holocene]. Moscow: Nauka.Google Scholar
Obukhov, A.I., and Plekhanova, I.O.. 1991. Atomnoabsorbtzionny analiz v pochvenno-biologicheskikh issledovaniyakh [Atomic absorption analysis in soil and biological investigations]. Moscow: Moscow State University.Google Scholar
Postma, H. 1980. Chemistry and biogeochemistry of estuaries. Chichester: Wiley.Google Scholar
Romankevich, Ye.A., Danyushevskya, A.I., Belyayava, A.N., and Rusanov, V.P.. 1982. Biogeokhimiya organicheskogo veshchestva arkticheskikh morey [Biogeochemistry of organic matter in Arctic seas]. Moscow: Nauka.Google Scholar
Totland, M., Jarvis, I., and Jarvis, K.E.. 1992. An assessment of dissolution techniques for the analyses of geological samples by plasma spectrometry. Chemical Geology 95: 3562.CrossRefGoogle Scholar
Xie, X., and Yang, M.. 1985. Geochemical reference samples, drainage sediment GSD 1–8 from China. Geostandarts Newsletter 9 (1): 83159.CrossRefGoogle Scholar