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Vol. 18 (2015 year), No. 2
Mazukhina S. I., Masloboev V. A., Chudnenko K. V., Maksimova V. V.
Results of modeling of interactions
of "water – oil" in sea and river systems of the Far East
Using physical-chemical modeling (Selector software package, Chudnenko, 2010) the investigations identified the features of interactions of oil with sea and fresh waters on objects of the Far East have been performed. The results of the modeling have confirmed the patterns found on objects of the Murmansk region but there have been some differences connected with conditions of the Far East waters chemical composition formation. The developed models can be used for the forecasting of consequences of oil spills in sea and river waters of the Far East
(in Russian, стр.6, fig. 6, tables. 0, ref 13, Adobe PDF, Adobe PDF 0 Kb)
Vol. 20 (2017 year), No. 1, DOI: 10.21443/1560-9278-2017-20-1/2
Mazukhina S. I., Masloboev V. A., Sandimirov S. S.,
Pozhilenko V. I., Ivanov S. V.
Forming chemical composition of surface waters
in the Arctic. Case study of Lake Inari and the River Paz
Questions of studying the formation of surface and ground waters, their interaction with rocks, development of the basics of their rational use and protection are of great fundamental and practical importance. The influence of the northern Fennoscandian (Baltic) Shield rock composition on forming surface waters' chemical composition in the border area of Finland – Russia – Norway (Lake Inari, the River Paz) using physical-chemical modeling (Selector software package) has been evaluated. For the physical-chemical modeling there have been made two samples of chemical analyses of the most widespread rocks forming the catchment area, with their percentage ratio taken into consideration. Since the catchment area of the prevailing majority of streams feeding Lake Inari is composed of rocks of the Lapland granulite belt (LGB) and its framing, it will be the main sample (conditional influence of their composition on the chemical composition of waters is about 80 %). The second sample includes gneisses, migmatites, granite-gneisses, granites and quartz diorites typical for Inari terrane (conventional influence of their composition on the chemical composition of waters is about 20 %). It has been found that the chemical composition of the surface waters is formed by interaction of precipitation with intrusive, metamorphic and sedimentary rocks of northern Fennoskandia containing Clarke concentrations of S, C, F, Zn, Ni, Pb, Cu. It has been shown that due to interactions in the water – rock system the chemical composition of Lake Inari waters as well as upper and middle flow of the River Paz is formed by weathering of granulites of the Lapland granulite belt and Inari terrane granitoids of the northern Fennoscandia. The chemical composition of waters in the River Paz downstream is formed by weathering of metamorphosed volcanic and sedimentary rocks of the Pechenga structure and the impact of industrial pollution.
(in Russian, стр.9, fig. 2, tables. 5, ref 11, Adobe PDF, Adobe PDF 0 Kb)
Vol. 21 (2018 year), No. 1, DOI: 10.21443/1560-9278-2018-21-1
Mazukhina S. I., Pozhilenko V. I., Masloboev V. A., Sandimirov S. S., Gorbacheva T. T., Drogobuzhskaya S. V., Ivanov S. V.
The formation of the chemical composition of groundwater in South Prohibiny using the example of "Predgorny" water intake
Researchers from Russia and foreign countries, studying medical and environmental contamination of drinking water, point to the relationship of public health with chemical composition of groundwater and anthropogenic inclusions. The aim of the work is to detect the change in chemical composition of natural waters formed within the Khibiny massif and its closest framing depending on the composition of rocks in the catchment area and on anthropogenic impact by means of physical and chemical modeling and modern precision methods of analysis. To achieve the goal the sampling has been taken at the "Predgorny" water intake (Koashva, the Kirovsk district). The complete hydrochemical analysis has shown the presence in waters of such elements as uranium, molybdenum, silver, barium, which supplemented the database of groundwater chemical composition. For the physical-chemical modeling, there have been made some samples of chemical analyzes of the most common rocks composing the southeastern part of the Khibiny massif as the main catchment area. The analysis of the obtained results has made it possible to separate the rock influence from anthropogenic, natural chemical composition of waters from filtered mined (anthropogenic). It has been shown that already in natural (pure) waters the ratios of Ca/P and Ca/Sr can lead to bone diseases. It has been determined that the chemical composition of groundwater from the "Predgorny" water intake is affected by the chemical composition of rocks and surface waters containing oxygen, nitrogen nitrates, chlorine, which affect pH (reducing it), the migration patterns of aluminum, manganese, iron and other elements. In the bones of humans and animals, approximately 70 % falls on hydroxyl apatite Ca5(PO4)3OH. OH group can be replaced by F, Cl, O. Calcium can be isomorphically replaced by a number of elements: Sr, U, Ba, etc. that lead to diseases of bones and teeth. The research results can be useful in the fields of geochemistry, hydrology, ecology, and medicine
(in Russian, стр.10, fig. 6, tables. 2, ref 18, adobe PDF, adobe PDF 0 Kb)
Vol. 29 (2026 year), No. 2, DOI: 10.21443/1560-9278-2026-29-2
Masloboev V. A., Mazukhina S. I., Drogobuzhskaya S. V., Sandimirov S. S., Dauvalter V. A.
On physiologic fullness of groundwater of Apatity-Kirovsky district (Murmansk Region)
The paper is a logical continuation of the study of the chemical composition of natural waters in various regions of the Murmansk region and their impact on human health. The relevance of such studies is driven by the elevated incidence of diseases in the Murmansk region. Monitoring of groundwater in the Apatity-Kirovsky district has been carried out using inductively coupled plasma mass spectrometry (ICP-MS). The paper presents the results of a hygienic assessment of groundwater from the Khibiny Massif based on the concentrations of macro- and microelements. The aim of the study is to evaluate the chemical composition of groundwater in relation to the criteria for physiologically adequate drinking waters, selected from the underground water intake and after transportation through the water supply networks. It has been established that the drinking water supplied to the population of the Apatity-Kirovsky district, both in its natural state and at the point of delivery to consumers, does not have a balanced, physiologically complete composition in terms of the content of major macro- and microelements (magnesium, calcium, bicarbonates) and the value of total mineralization, and therefore cannot be recognized as physiologically complete. Calcium and magnesium concentrations are about three orders of magnitude lower than the recommended values for waters of different categories and by the criterion of completeness. Due to the low calcium concentration, there is a need to revise the regional maximum permissible concentrations (MPC) for strontium. The waters contain rare and rare-earth elements (Zr, La, Ce, Th, etc.) for which MPCs have not been developed, and the effects of these elements on the human organism are still not sufficiently studied.
(in Russian, стр.15, fig. 3, tables. 2, ref 16, AdobePDF, AdobePDF 0 Kb)