Abstract—The influence of industrial emissions on the content of ash elements in the biogeochemical food chain “snow cover–soil–willow bushes–willow ptarmigan (Lagopus lagopus L.)” was investigated in the northern Norilsk plateau. A significant enrichment in metal pollutants (Ni, Cu, Co, Fe) and deficiency in Mn was found in the leaves of Salix lanata L. and the browse of the willow ptarmigan, indicating the unbalanced input of these chemical elements into plants and animals. Increased accumulation of copper, nickel, iron, cobalt, and cadmium was revealed in the willow ptarmigan muscles. The high cadmium concentrations were not caused by contamination, but were related to the high content of this metal in the winter forage (end shoots and buds of dwarf willow).
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REFERENCES
A. S. Cherevko, A. I. Syso, and G. E. Polyakova, “Simultaneous atomic emission spectrographic determination of major and trace elements in the ash of vegetation materials using a two-jet argon arc plasmatron,” Agrokhimiya, No, 10, 75–82 (2000).
V. V. Dobrovol’skii, Principles of Biogeochemistry (Akademiya, Moscow, 2003) [in Russian].
A. N. Dudarev, E. V. Dushkina, V. S. Chupakhin, Yu. N. Sladkova, D. V. Burova, I. V. Gushchin, L. V. Talykova, A. N. Nikanov, and L. A. Lukicheva, “Content of Metals in the local food stuffs of the Pechanga area of the Murmansk district,” Medits. Truda Promyshl. Ekol., No. 2, 35–40 (2015).
R. Eisler, Copper Hazards to Fish, Wildlife, and Invertebrates: a Synoptic Review, U.S. Geol. Surv., Biol. Res. Division, Biological Sci. Rept., (1998).
V. V. Ermakov, E. A. Karpova, V. D. Korzh, and S. A. Ostroumov, Innovation Aspects of Biogeochemistry (GEOKHI RAS, Moscow, 2012) [in Russian].
V. V. Ermakov, N. S. Petrunina, S.,F. Tyutikov, V. N. Danilova, S. D. Khushvakhtova, A. P. Degtyarev, and E. V. Krechetova, “Concentrating metals of the genus salix and their importance for indetification of Cd anomalies,” Geochem. Int. 53 (11), 951–963 (2015).
Yu. V. Ermolov, I. D. Makhatkov, and S. A. Khudyaev, “Background concentration of chemical elements i snow cover of the typical regions of the Western Siberia,” Optika Atmosf. Okeana 27 (9), 790–800 (2014).
L. P. Gough and P. J. Lamothe, “Cadmium geochemistry of soils and willow in a metamorphic bedrock terrain and its possible relation to moose health, Seward Peninsula, Alaska,” Alces 49, 99–111 (2013).
L. P. Gough and F. H. Wilson, Biogeochemistry of arsenic and cadmium, Fortymile River Watershed, East-Central Alaska, Geologic Studies in Alaska by the U.S. Geological Survey, US. Geo. Surv. Prof. Pap., 1633, 109–126 (1999). http://pubs.dggsalaskagov.us/webpubs/usgs/p/ text/p1633.pdf
N. A. Grigor’ev, Distribution of Chemical Elements in the Upper Continental Crust (UrO RAN, Yekaterinburg, 2009) [in Russian].
S. H. Han, D. H. Kim, and J. C. Lee, “Cadmium and zinc interaction and phytoremediation potential of seven Salix caprea clones,” Ecol. Field Biol. 33 (3), 245–251 (2010).
M. Hansen, T. Nost, E. Heimstad, A. Evenset, A. Dudarev, A. Rautio, P. Myllynen, E. Dushkina, M. Jagodic, G. Christensen, E. Anda, M. Brustad, and T. Sandanger, “The impact of a nickel-copper smelter on concentration of toxic elements in local wild food from the Norwegian, Finnish, and Russian border regions,” Int. J. Environ. Res. Public Health 14 (7), (2017). https:// www.ncbi.nlm.nih.gov/pmc/articles/PMC5551132/pdf/ ijerph-14-00694.pdf
T. I. Igoshina, N. V. Alekseeva-Popova, and N. A. Sekretareva, “Accumulation of mineral elements by representatives of the Salicaceae and Ericaceae families on calcareous and silicate rocks (Southeastern Chukchi Peninsula),” Botan. Zh. 81 (1), 38-48 (1996).
A. Kabata-Pendias, Trace Elements in Soils and Plants (Taylor & Francis Group, Boca Raton London–New York, 2011).
L. V. Karpenko, A. A. Aniskina, and G. V. Permyakova, “State of swamp vegetation in the zone of anthropogenic impact of the Norilsk metallurgic smelter,” Geogr. Prir. Resurs., No. 1, 56–62 (2012).
P. V. Kochkarev, “Role of blind branches of the willow ptarmigan (Lagopus lagopus montin. 1976) in regulation of trace-element composition,” Vestn. KrasGAU. Ser. Ekol., No. 10, 122–126 (1976).
P. V. Kochkarev, “A comparative analysis of heavy metal consumption by plant-eating participants of tundra biota on winter grasslands of Western Taymyr,” Vestn. KrasGAU, No. 10, 110–112 (2012)
M. A. Korets, V. A. Ryzhkova, and I. V. Danilova, “Application of GIS for estimating the stage of ground ecosystems of the Norilsk industrial district,” Sibirsk. Ekol. Zh., No. 6, 887–902 (2014).
V. V. Koval’skii, Geochemical Ecology (Nauka, Moscow, 1974) [in Russian].
H. V. Kuhnlein, H. M. Chan, D. Leggee, and V. Barthet, “Macronutrient, mineral and fatty acid composition of Canadian arctic traditional food,” J. Food Compos. Anal. 15 (5), 545–566 (2002).
C. Langlois and R. Langis “Presence of airborne contaminants in the wildlife of northern Quebec,” Sci. Total Environ. 160–161, 391–402 (1995).
J. R. Larison, “Effects of cadmium on white-tailed ptarmigan in Colorado,” NAAMLP 24th Annual Conference Proceedings Technical paper session 5 – Biology/Vegetation, (2002), pp. 188–197. https://fs.ogm.utah.gov/PUB/ MINES/AMR_Related/NAAMLP/BioVeg/Larison.pdf.
N. V. Medvedev, Heavy Metal Contamination of Grouse Bird Organisms of Karelia (Inst. Kar. Nauchn. Ts. Ross. Akad. Nauk, Petrozavodsk, 2003) [in Russian].
Methodical Recommendations on the Spectral Determination of Heavy Metals in Biological Materials and Environmental Objects (B.I., Moscow, 1986) [in Russian].
I. Myklebust and H. C. Pedersen, “Accumulation and distribution of cadmium in willow ptarmigan,” Ecotoxicology, No. 8, 457–465 (1999).
A. A. Onuchin, T. A. Burenina, O. N. Zubareva, O. V. Trefilova, and I. V. Danilova, “Contamination of snow cover in the influence zone of the enterprises of the Norilsk industrial district,” Sibirsk. Ekol. Zh., No. 6, 1025–1037 (2014).
P. M. Outridge and A. M. Scheuhammer, “Bioaccumulation and toxicology of nickel: implications for wild mammals and birds,” Environ. Rev. 1 (2), 172–197 (1993).
T. A. Paribok N. V. Alekseeva-Popova, and B. N. Norin, “Trace-element contents in the forest-tundra plants,” Botan. Zh. 52 (1), 13–27 (1967).
H. C. Pedersen, F. Fossøy, J. A. Kålås, and S. Lierhagen, “Accumulation of heavy metals in circumpolar willow ptarmigan (Lagopuslagopus L.) populations,” Sci. Total Environ. 371, 176–189 (2006).
N. S. Petrunina, V. V. Ermakov, S. F. Tyutikov, L. V. Proskuryajov, A. P. Degtyarev, and E. V. Krechetova, “Method of biogeochemical monitoring of environmental contamination by cadmium. ” Patent RF 2486507 RF: RU 2 486 507 C1. Byul. No. 18 (2013).
F. M. Podkorytov, “Biological absorption of elements by plants of the Taimyr ntional okrug,” Trace Elements in Plants (Buryatsk. Inst. Estesst. Nauk, Ulan-Ude, 1969), pp. 107–133 [in Russian].
C. Reimann, F. Koller, G. Kashulina, H. Niskavaara, and P. Englmaier, “Influence of extreme pollution on the inorganic chemical composition of some plants,” Environ. Pollution 115 (2), 239–252 (2001).
C. Reimann, P. Englmaier, K. Fabian, L. Gough, P. Lamothe, and D. Smith “Biogeochemical plant–soil interaction: variable element composition in leaves of four plant species collected along a south–north transect at the southern tip of Norway,” Sci. Total Environ. 506–507, 480–495 (2015).
J. Rodrigue, L. Champoux, D. Leclair, and J. Duchesne, “Cadmium concentrations in tissues of willow ptarmigan (Lagopuslagopus) and rock ptarmigan (Lagopusmuta) in Nunavik, Northern Québec,” Environ. Pollution 147, 642–647 (2007).
E. A. Romankevich, “Living matter of the Earth: biogeochemical aspects of the problem,” Geokhimiya, No. 2, 292–306 (1988).
C. Roselli, D. Desideri, M. Meli, I. Fagiolino, L. Feduzi “Essential and toxic elements in meat of wild birds,” J. Toxicol. Environ. Health 79 (21), 1008–1014 (2016).
Yu. E. Saet, B. A. Revich, E. P. Yanin, A. I. Achkasov, I. L. Basharkevich, T. L. Onishchenko, S. H. Sarkisyan, R. S. Smirnova, and N. Ya. Geochemistry, Environmental Geochemistry (Nedra, Moscow, 1990) [in Russian].
V. P. Shevchenko, O. S. Pokrovsky, S. N. Vorobyev, I. V. Krickov, R. M. Manasypov, N. V. Politova, S. G. Kopysov, O. M. Dara, Y. Auda, L. S. Shirokova, L. G. Kolesnichenko, V. A. Zemtsov, and S. N. Kirpotin, “Impact of snow deposition on major and trace element concentrations and fluxes in surface waters of Western Siberian Lowland,” Hydrol. Earth Syst. Sci., 21 (11), 5725–5746 (2017).
E. Snyder-Conn, J. R. Garbarino, G. L. Hoffman, and A. Oelkers, “Soluble trace elements and total mercury in Arctic Alaskan Snow,” Arctic 50 (3), 201–215 (1997).
M. Yu Telyatnikov and S. A. Pristyazhnyuk, “Transformation of vegetation cover in the zone of airborne emissions of the Norilsk enterprise,” Geograf. Prir. Resurs., No. 2, 40–45 (2008).
Temporal Maximally Admissible Level (MDL) of Contents of Some Elements and Gossypol in Food for Farm Animals and Food Supplements (Gos. Agroprom. Kompleks SSSR-Glavnoe Pravl. Veterinar., Moscow, 19987) [in Russian].
M. P. Tentyukov, Landscape Geochemistry of Plain Tundras: Evidence from Yamal and Bol’shaya Zemlya Tundra (Syktyvkar, 2010) [in Russian].
L. I. Ustimenko, “Content of major and trace elements in muscles of wild birds,” Tovaroved. Zhivotn. Syr’ya. Sb. Trudov 68, 143–146 (1973).
V. N. Vasilenko, I. M. Nazarov, and Sh. D. Fridman, Monitoring of Snow Cover Contamination (Gidrometeoizdat, Leningrad, 1985) [in Russian].
T. M. Vlasova, Extended Abstract of Candidate’s Dissertation in Biology (IEMEZH, Moscow, 1990).
Yu. N. Vodyanitskii, I. O. Plekhanova, E. V. Prokopovich, and A. T. Savichev, “Soil contamination with emissions of non-ferrous metallurgical plants,” Euras. Soil Sci. 44 (2), 217–226 (2011).
C. D. Wren, T. Nygard, and E. Steinnes, “Willow ptarmigan (Lagopus lagopus) as a biomonitor of environmental metal levels in Norway,” Environ. Pollution 85, 291–295 (1994).
A. S. Yakovlev, I. O. Plekhanova, S. V. Kudryashov, and R. A. Aimaletdinov, “Assessment and regulation of the ecological state of soils in the impact zone of mining and metallurgical enterprises of Norilsk Nickel Company,” Euras. Soil. Sci. 41 (6), 648–65
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Ermolov, Y.V., Lebedeva, M.A., Bondar, M.G. et al. Accumulation of Chemical Elements in the Biochemical Food Chain of the Northern Norilsk Plateau. Geochem. Int. 58, 562–573 (2020). https://doi.org/10.1134/S0016702920040035
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DOI: https://doi.org/10.1134/S0016702920040035