1 14 16

Sandimirov S. Heavy metal contents in whitefish (Coregonus lavaretus) along a pollution gradient in a subarctic watercourse. Environ. Monit. Assess. 2011, V. 182, №1-4, p. 301-316.

Environ Monit Assess (2011) 182:301-316 315 Subarctic region (Russia). Science o f the Total Envi­ ronment, 160, 715-727. Morozov, D. N., Vysotskaya, R. U., Nemova, N. N., & Kashulin, N. A. (2007). Activity of cytochrome P-450 in whitefish Coregonus lavaretus and pike Esox lu­ cius from subarctic water bodies exposed to waste wa­ ter of mining enterprises. Journal o f Ichthyology, 47, 94-99. Mousavi, S. K., Primicerio, R., & Amundsen, P.-A. (2003). Diversity and structure of Chironomidae (Diptera) communities along a gradient of heavy metal contam­ ination in a subarctic watercourse. Science o f the Total Environment, 307 , 93-110. Myking, T., Aarrestad, P. A., Derome, J., Bakkestuen, V., Bjerke, J. W., Gytarsky, M., et al. (2009). Effects of air pollution from a nickel-copper industrial com­ plex on boreal forest vegetation in the joint Russian- Norwegian-Finnish border area. Boreal Environment Research, 14, 279-296. Nemova, N. N. (2005). Biochemical effects o f mercury ac­ cumulation in fish. Moskow: Nauka. Nriagu, J. O., Wong, H. K. T., & Coker, R. D. (1982). De­ position and chemistry of particulate metals in lakes around the smelters at Sudbury, Ontario. Environ­ mental Science & Technology, 16 , 551-560. Nriagu, J. O., Wong, H. K., Lawson, G., & Daniel, P. (1998). Saturation of ecosystems with toxic metals in Sudbury basin, Ontario, Canada. Science o f the Total Environment, 223, 99-117. Odasz-Albrigtsen, A. M. , T0mmervik, H., & Murphy, P. (2000). Decreased photosynthetic efficiency in plant species exposed to multiple airborne pollutants along the Russian-Norwegian Border. Canadian Journal o f Botany, 78, 1021-1033. 0stbye, K., Amundsen, P.-A., Bernatchez, L., Klemetsen, A., Knudsen, R., Kristoffersen, R., et al. (2006). Paral­ lel evolution of eco-morphological traits in European whitefish Coregonus lavaretus (L.) during postglacial times. Molecular Ecology, 15 , 3083-4001. Otero-Muras, I., Franco-Una, A., Alonso, A. A., & Balsa- Canto, E. (2010). Dynamic multi-compartmental mod­ elling of metal bioaccumulation in fish: Identifiability implications. Environmental Modelling & Software, 25 , 344-353. Pacyna, J. M. (1995). The origin of Arctic air pollutants: Lessons learned and future research. Science o f the Total Environment, 160, 39-53. Papagiannis, I., Kagalou, I., Leonardos, J., Petridis, D., & Kalfakakou, V. (2004). Copper and zinc in four freshwater fish species from Lake Pamvotis (Greece). Environment International, 30 , 357-362. Pickhardt, P. C., Folt, C. L., Chen, C. Y., Klaue, B., & Blum, J. D. (2005). Impacts of zooplankton composi­ tion and algal enrichment on the accumulation of mer­ cury in an experimental freshwater food web. Science o f the Total Environment, 339, 89-101. Pinheiro, J., Bates, D., DebRoy, S., Sarkar, D., & the R Core team (2009). nlme: Linear and nonlinear mixed effects models. R package version 3.1-96. Pourang, N. (1995). Heavy metal bioaccumulation in different tissues of two fish species with regards to their feeding habits and trophic levels. Environmental Monitoring and Assessment, 35, 207-219. Power, M. (1997). Assessing the effects of environmental stressors on fish populations. Aquatic Toxicology, 39 , 151-169. Power, M., Klein, G. M., Guiguer, K. R. R. A., & Kwan, M. K. H. (2002). Mercury accumulation in the fish community of a Sub-Arctic lake in relation to trophic position and carbon sources. Journal ofApplied Ecol­ ogy, 39 , 819-830. Ptashynski, M. D., & Klaverkamp, J. F. (2002). Accu­ mulation and distribution of dietary nickel in lake whitefish (Coregonus clupeaformis). Aquatic Toxicol­ ogy, 58 , 249-256. Ptashynski, M. D., Pedlar, R. M., Evans, R. E., Baron, C. B., & Klaverkamp, J. F. (2002). Toxicology of dietary nickel in lake whitefish (Coregonus clu- peaformis ). Aquatic Toxicology, 58 , 229-247. Pyle, G. G., Busby, P., Gauthier, C., Rajotte, J. W., & Couture, P. (2008). Seasonal and regional variations in metal contamination and condition indicators in yel­ low perch (Perca flavescens ) along two polymetallic gradients. II. Growth patterns, longevity, and condi­ tion. Human Ecology and Risk Assessment, 14, 126­ 145. Pyle, G. G., Rajotte, J. W., & Couture, P. (2005). Effects of industrial metals on wild fish populations along a metal contamination gradient. Ecotoxicology and En­ vironmental Safety, 61, 287-312. Rajotte, J. W., & Couture, P. (2002). Effects of environ­ mental metal contamination on the condition, swim­ ming performance, and tissue metabolic capacities of wild yellow perch (Perca flavescens ). Canadian Jour­ nal o f Fisheries and Aquatic Sciences, 59 , 1296-1304. Rashed, M. N. (2001). Monitoring of environmental heavy metals in fish from Nasser Lake. Environment Interna­ tional, 27 , 27-33. Rasmussen, J. B., Gunn, J. M., Sherwood, G. D., Iles, A., Gagnon, A., Campbell, P. G. C., et al. (2008). Direct and indirect (foodweb mediated) effects of metal exposure on the growth of yellow perch (Perca flavescens ): Implications for ecological risk assess­ ment. Human and Ecological Risk Assessment, 14, 317-350. Reimann, C., Banks, D., & de Caritat, P. (2000). Impacts of airborne contamination on regional soil and water quality: The Kola Peninsula, Russia. Environmental Science Technology, 34 , 2727-2732. Reshetnikov, Y. S., Popova, O. A., Kashulin, N. A., Lukin, A. A., & Amundsen, P.-A. (2002). Development of an index to assess the effect of heavy metal pollution on fish populations. Archiv fuhr Hydrobiologie, Special Issue Advanced Limnology, 57, 221-231. Reynders, H., Bervoets, L., Gelders, M., De Coen, W. M., & Blust, R. (2008). Accumulation and effects of metals in caged carp and resident roach along a metal pollu­ tion gradient. Science o f the Total Environment, 391, 82-95. Roff, D. A. (1984). The evolution of life history parameters in teleosts. Canadian Journal o f Fisheries and Aquatic Sciences, 41, 989-1000. Springer

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