Sergazinova Z., Dupal T., Litvinov Y., Erzhanov N., Konarbaeva G. Impact of emissions of aluminum production in Northern Kazakhstan on the species structure and nature of fluorine accumulation in small mammals // Principy èkologii. 2018. № 3. P. 60‒74. DOI: 10.15393/j1.art.2018.7902


Issue № 3

Original research

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Impact of emissions of aluminum production in Northern Kazakhstan on the species structure and nature of fluorine accumulation in small mammals

Sergazinova
   Zarina Mukhtarovna
Pavlodar State University named after S. Toraygyrov, Kazakhstan, 140008 Pavlodar, Lomov st. , 64, mszarinam@mail.ru
Dupal
   Tamara Alexandrovna
Institute of Systematics and Ecology of Animals SB RAS, Russia, 630091, Novosibirsk, Frunze st., 11, dupalgf54@gmail.com
Litvinov
   Yuri Nartsissovich
Institute of Systematics and Ecology of Animals SB RAS, Russia, 630091, Novosibirsk, Frunze st., 11, litvinov@eco.nsc.ru
Erzhanov
   Nurlan Tel
Pavlodar State University named after S. Toraygyrov, Kazakhstan, 140008 Pavlodar, Lomov st. , 64, dirni@mail.ru
Konarbaeva
   Galina Akmulldinovna
Institute of Soil Science and Agrochemistry of SB RAS, Russia, 630090, Novosibirsk, Akademik Lavrent, konarbaeva@issa.nsc.ru
Keywords:
small mammals
species composition
abundance
bioindication
fluorine
aluminum production
Summary: In the industrial zone of aluminum production in Pavlodar the fauna and population of the natural steppe communities of small mammals were studied in areas with different man-made burden. Small mammals are distributed unevenly across the territory. It was stated that the number of small mammals was decreased, the species composition was depleted, and the structure of animals dominance as they approach the sources of pollution was disturbed. A tendency to increase the accumulation of fluorine in animal organisms as they approach the emission sources was revealed. In the narrow-skulled voles, southern birch mice and juveniles of the Asian hamster there is a tendency to a linear increase in the accumulation of fluorine in the bones, as well as in the soil as it approaches the plants. The peak concentration of fluoride in these cases falls on the closest distance from the factory. The highest average concentration of total fluorine was found in southern birch mice. The narrow-skulled voles and southern birch mice can be recommended as the most suitable species-bioindicators of toxic pollution of the aluminum industry. This is due to their relatively high number and occurrence in almost all the studied areas.

© Petrozavodsk State University

Reviewer: K. Omarov
Received on: 04 May 2018
Published on: 08 October 2018

References

Atalikova A. S. Assessment and biomonitoring of the negative impact on the environment of the Temirtau industrial complex. Almaty, 2009. 20 p.

Berdyugin K. I. Bol'shakov V. N. Mammals in environmental monitoring, Metody ekologicheskogo monitoringa: bol'shoy special'nyy praktikum: Ucheb. posobie. Ekaterinburg: Izd-vo Ural. un-ta, 2005. 236 p.

Bezel' V. S. Ecological Toxicology: Population and biocenotic aspects. Ekaterinburg: Goschickiy, 2006. 280 p.

Chibiryak M. V. Population of the house mouse in conditions of man-caused contamination of the environment with fluoride. Ekaterinburg, 1996. 22 p.

Davydova N. D. Technogenic flows and differentiation of substances in geosystems, Geograficheskie issledovaniya Sibiri. Novosibirsk, 2007. T. 2. P. 261–277.

Dewey J. E. Accumulation of fluorides by insects near an emission source in western Montana, Environ. Entomol. 1973. No. 2. P. 179–180.

Donskih I. V. Effect of fluoride and its compounds on human health (review of literature data), Byulleten' VSNC SO RAMN. 2013. No. 3 (91). Ch. 2. P. 179–185.

Dunaeva T. N. To the study of reproductive biology of the common shrew (Sorex araneus L.), Byulleten' MOIP. Otd. Biol. 1955. T. 60. No. 6. P. 27–43.

Dupal T. A. Chapter 9: Mammals, Bioraznoobrazie Karasuksko-Burlinskogo regiona (Zapadnaya Sibir'). Novosibirsk: Izd-vo SO RAN, 2010. P. 234–239.

Dupal T. A. Population dynamics and changes in the structure of the community of small mammals of North Kulunda, Zoologicheskiy zhurnal. 2008. T. 87. No. 5. P. 609–613.

Dzhuraev M. I. Ecological analysis of the destruction of animals of the Gissar valley with technogenic fluorine: Avtoref. dip. … kand. biol. nauk. Ekterinburg, 1993. 26 p.

Ermakov V. V. Tyutikov S. F. Geochemical ecology of animals. M.: Nauka, 2008. 315 p.

Ermienko A. V. Influence of the activity of an electrolysis plant on the ecological situation of Pavlodar region (Republic of Kazakhstan). Omsk, 2010. 18 p.

Fomin G. S. Fomin F. G. The soil. Quality control and environmental safety according to international standards. M.: Protektor, 2001. 304 p.

Gabovich R. D. Minh A. A. Hygienic problems of fluoridation of drinking water. M.: Medicina, 1979. 200 p.

Gileva E. A. Ecological-genetic monitoring through the use of rodents (Ural experience). Ekaterinburg: Izd-vo Ural. un-ta, 1997. 105 p.

Guillermo Espinosa-Reyes, Gonzalez-Mille D. J., Ilizaliturri-Hernandez C. A. et al. Effect of mining in biotic communities of villa de la Paz San Luis Potosi, Mexico, BioMed Research International. 2014. 13 p. DOI: org/10.1155/2014/65046.

Hazemova L. A. Radovskaya T. L. Kruglova N. V. Kachalkova T. K. Determination of fluorine in plant material, Agrohimiya. 1983. No. 6. P. 66–72.

Hygienic standards for environmental safety (soil). URL: https://tengrinews.kz/zakon/pravitelstvo_respubliki_kazahstan_premer_ministr_rk/ohrana_okrujayuschey_sredyi (data obrascheniya: 20.12.2017).

Ibragimov A. T. Pak R. V. Electrometallurgy of aluminum. Kazakhstan electrolysis plant. Pavlodar: Dom pechati, 2009. 261 p.

Ivanov V. V. Ecological geochemistry of elements: In 6 books. M.: Nedra, 1994. Kn. 2. 300 p.

Ivanter E. V. Ivanter T. V. Biocenotic groups of small mammals in the indigenous and anthropogenic landscapes of Lake Ladoga, Vliyanie antropogennyh faktorov na strukturu i funkcionirovanie biogeocenozov: Sb. materialov konf. Kalinin: Izd-vo KGU, 1981. P. 47–50.

Ivanter E. V. Medvedev N. V. Ecological toxicology of natural populations of birds and mammals of the North. M.: Nauka, 2007. 229 p.

Kuz'min D. V. Comparative analysis of indicators of reproductive health of women living in areas where aluminum production is located, Gigiena i sanitariya. 2007. No. 3. P. 13–15.

Kuzyakin A. P. Zoogeography of the USSR, Uchenye zapiski Moskovskogo ped. instituta. 1962. T. 59. Vyp. 1. P. 3–182.

Litvinov Yu. N. Elements of spatial organization of small mammal communities in Siberia, Trudy Instituta sistematiki i ekologii zhivotnyh SO RAN. Vyp. 46. Soobschestva i populyacii zhivotnyh: morfologicheskiy i ekologicheskiy analiz. Novosibirsk; M.: Tovarischestvo nauchnyh izdaniy KMK, 2010. P. 17–49.

Makarina L. A. Estimation of fluorine content in soils in the zone of influence of JSC "Aluminum of Kazakhstan" and JSC "Kazakhstan electrolysis plant", Problemy geologii i osvoeniya nedr: Trudy XIX Mezhdunarodnogo simpoziuma imeni akademika M. A. Usova studentov i molodyh uchenyh, posvyaschennogo 70-letnemu yubileyu Pobedy sovetskogo naroda nad fashistskoy Germaniey: V 2 t. Tomsk: Izd-vo TPU, 2015. T. 1. C. 634–636.

Mammals of Kazakhstan. T. 1. Ch. 2. Alma-Ata: «Nauka» KazSSR, 1977. 536 p.

Mammals of Kazakhstan. T. 1. Ch. 3. Alma-Ata: «Nauka» KazSSR, 1978. 492 p.

Method for measuring mass concentrations of fluoride ions in drinking, natural and waste waters by potentiometric method. M., 2012. 13 p.

Muhacheva S. V. Peculiarities of feeding of the red vole (Gletrionomys glareolus, Shreber, 1780) in the conditions of technogenic pollution of its habitat, Sibirskiy ekologicheskiy zhurnal. 2005. No. 3. C. 523–533.

Naumov N. P. Study of the mobility and abundance of small mammals by means of trapping grooves, Voprosy kraevoy i eksperimental'noy parazitologii i medicinskoy zoologii. M., 1955. P. 179–202.

Novikov G. A. Field research on the ecology of terrestrial vertebrates. M., 1953. 502 p.

Panin M. S. Azhaev G. S. Pollution of snow cover with mercury in the city of Pavlodar, Vestnik PGU. Seriya «Biologicheskaya». Pavlodar, 2004. P. 61–64.

Pavlinov I. Ya. Systematics of modern mammals. M.: Izd-vo MGU, 2006. 297 p.

Pesenko Yu. A. Principles and methods of quantitative analysis in faunistic studies. M.: Mysl', 1982. 288 p.

Prelovskiy V. A. Anthropogenic transformation of the structure of the population of terrestrial vertebrates of the South Minusinsk depression. Irkutsk, 2015. 24 p.

Rall' Yu. M. Method of field study of rodents and their control. Rostov n/D, 1947. 158 p.

Rodriguez-Estival Jaime, Smits Judit T. G. Small mammals as sentinels of oil sands related contaminants and health effects in northeastern Alberta, Canada, Ecotoxicology and Environmental Safety. 2016. No. 124. P. 285–295.

Selihovkin A. V. Response of dendrophagous insects to industrial air pollution, Mezhdisciplinarnyy nauchnyy i prikladnoy zhurnal «Biosfera». 2013. T. 5. No. 1. P. 48–76.

Sergazinova Z. M. Dupal T. A. Erzhanov N. T. Accumulation of fluoride in the bones of rodents in the industrial zone of Pavlodar, Vestnik. Astana. 2017. No. 2 (117). P. 287–297.

Shaymardanova B. H. Assessment of the quality of urbanized areas (based on the example of Pavlodar) and prediction of environmental safety of habitat. Almaty, 2010. 50 p.

Tang Q, Q., Du J., Ma H, H., Jiang S, J., Zhou X, J. Fluoride and children‘s intelligence: a meta analysis, Biol. Trace Elem. Res. 2008. Vol. 126. P. 115–120.

Trivedi M. H., Verma R. J., Chinoy N. J. et al. Effect of high fluoride water on intelligence of school children in India, Fluoride. 2007. Vol. 40. P. 178–183.

Tupikova N. V. Study of reproduction and age composition of small mammals populations, Metody izucheniya prirodnyh ochagov bolezni cheloveka. M.: Medicina, 1964. P. 154–191.

Wilson D. E., Reeder D. M. (editors). Mammal Species of the World. A Taxonomic and Geographic Reference (3rd ed). Johns Hopkins University Press, 2005. URL: http://www.departments.bucknell.edu/biology/resources/msw3/

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