Chemical composition of bottom sedimentary deposits in lakes in the zone impacted by atmospheric emissions from the severonickel plant

U. Förstner and G. T. W. Wittmann, Metal Pollution in the Aquatic Environment (Springer-Verlag, New York, 1981). S. A. Melnikov, “Report on Heavy Metals,” in State of the Arctic Environment (Arctic Centre Publications, Rovaniemi, 1991), pp. 82–153. V. A. Dauval’ter, M. V. Dauval’ter, H. V. Saltan, and E. N. Semenov, “The Chemical Composition of Surface Water in the Influence Zone of the Severonikel Smelter,” Geokhimiya 628–646 (2009) [Geochem. Int. 47, 592–610 2009]. V. A. Dauval’ter, M. V. Dauval’ter, N. V. Saltan, and E. N. Semenov, “Chemical Composition of Atmospheric Precipitates within the Influence Zone of the Severonikel Smelter,” Geokhimiya, No. 10, 1131–1136 (2008) [Geochem. Int. 46, 1064–1069 (2008)]. T. I. Moiseenko, I. V. Rodyushkin, V. A. Dauval’ter, and L. P. Kudryavtseva, Influence of Anthropogenic Impacts on the Quality of Waters and Bottom Sediments under Conditions of Arctic Basins with Reference to Kola North (KNTs RAN, Apatity, 1996) [in Russian]. T. I. Moiseenko, V. A. Dauval’ter, and I. V. Rodyushkin, Geochemical Migration of Elements in the Subarctic Basin: An Example of Lake Imandra (KNTs, Apatity, 1997) [in Russian]. V. Dauvalter, “Heavy Metals in Lake Sediments of the Kola Peninsula, Russia,” Sci. Total Environ. 158, 51–61 (1994). L. Håanson, “An Ecological Risk Index for Aquatic Pollution Control—A Sedimentological Approach,” Water Res. 14, 975–1001 (1980). V. A. Dauval’ter, Extended Abstracts of Doctoral Dissertation in Geography (KNTs RAN, Apatity, 1999) [in Russian]. Proceedings of the 1933 Moncheozero Limnological Expedition (Gidrometeoizdat, Leningrad, 1935), p. 224 [in Russian]. V. Dauvalter and S. Sandimirov, “Pollution of the Sediments of the Paz River Basin,” in State of the Environment in the Norwegian, Finnish and Russian Border Area, Ed by K. Stebel, G. Chritinsen, J. Derome, and I. Crekela, The Finnish Environment, No. 6, 55 (2007). S. J. Brooks, V. Udachin, and B. J. Williamson, “Impact of Copper Smelting of Lakes in the Southern Ural Mountains, Russia, Inferred from Chironomids,” J. Paleolimnol. 33, 229–241 (2005). N. Belzile and J. R. Morris, “Lake Sediments: Sources of Sink of Industrially Mobilized Elements?,” in Restoration and Recovery of an Industrial Region, Ed. by J. M. Gunn (Springer-Verlag, 1995), pp. 183–193. V. A. Dauval’ter, T. I. Moiseenko, I. V. Rodyushkin, L. P. Kudryavtseva, and A. N. Sharov, Sulfur Migration and Cycle in a Subarctic Lake Contaminat Ed by Wastes of a Mining Complex: A Case Study of Lake Imandra, Geokhimiya, No. 6, 626–636 (1999) [Geochem. Int. 37, 552–561 (1999)]. V. A. Dauval’ter and B. P. Il’yashuk, “Conditions of Formation of Ferromanganese Nodules in the Bottom Sediments of Lakes in the Baltic Shield,” Geokhimiya, No. 6, 680–684 (2007) [Geochem. Int. 45, 615–619 (2007)]. J. M. Pacyna and E. G. Pacyna, “An Assessment of Global and Regional Emissions of Trace Elements to the Atmosphere from Anthropogenic Sources Worldwide,” Environ. Rev. 4, 269–298 (2001).