Вестник МГТУ, 2024, Т. 27, № 1.

Вестник МГТУ. 2024. Т. 27, № 1. С. 83-90. DOI: https://doi.org/10 .21443/1560-9278-2024-27-1-83-90 Lafond S., Blais J. F., Mercier G., Martel R. A counter-current acid leaching process for the remediation of contaminated soils from a small-arms shooting range // Soil and Sediment Contamination. 2014. Vol. 23, Iss. 2. P. 194-210. DOI: https://doi.org/10.1080/15320383.2014.808171. Meerschman E., Cockx L., Islam M. M., Meeuws F. [et al.]. Geostatistical assessment of the impact of World War I on the spatial occurrence of soil heavy metals // Ambio. 2011. Vol. 40. P. 417-424. DOI: https://doi.org/10.1007/s13280-010-0104-6. Okkenhaug G., Gebhardt K.-A. G., Amstaetter K., Bue H. L. [et al.]. Antimony (Sb) and lead (Pb) in contaminated shooting range soils: Sb and Pb mobility and immobilization by iron based sorbents, a field study // Journal of Hazardous Materials. 2016. Vol. 307. P. 336-343. DOI : https://doi.org/10.1016/ j.jhazmat.2016.01.005. Tandy S., Meier N., Schulin R. Use of soil amendments to immobilize antimony and lead in moderately contaminated shooting range soils // Journal of Hazardous Materials. 2017. Vol. 324, Part B. P. 617-625. DOI: https://doi.org/10.1016/j.jhazmat.2016.11.034. Tomic N. T., Smiljanic S., Jovic M., Gligoric M. [et al.]. Examining the effects of the destroying ammunition, mines, and explosive devices on the presence of heavy metals in soil of open detonation pit: Part 1 - pseudo­ total concentration // Water, Air, & Soil Pollution. 2018. Vol. 229. Article number: 301. DOI: https://doi.org/10.1007/s11270-018-3957-0. References Bazarskij, O. V., Kochetova, Zh. Yu. 2019. Model of evaporation of kerosene droplets in the atmosphere and soil pollution of the aerodrome territory. Vestnik o fMSTU, 22(1), pp. 64-71. dO i: https://doi.org/10.21443/ 1560-9278-2019-22-1-64-71. EDN: GISEOE. (In Russ.) Vinogradov, A. P. 1962. Average contents of chemical elements in the main types o f igneous rocks of the Earth's crust. Geochemistry International, 7, pp. 555-571. EDN: SIZCQF. (In Russ.) Gevorgyan, V. M., Ponomareva, O. I., Kemer, O. V. 2013. Ecological features of the soil cover o f aerodrome complexes o f civil aviation. Izvestia RAS SamSC, 15(4-4), pp. 795-798. EDN: RGZYRP. (In Russ.) Gmurman, V. E. 2004. Probability theory and mathematical statistics. Moscow. (In Russ.) Golubev, S. V. 2007. Soil pollution of the Domodedovo district with heavy metals. Ph.D. Thesis. Moscow. (In Russ.) Dabakhov, M. V., Dabakhova, E. V., Titova, V. I. 2005. Heavy metals: Ecotoxicology and problems of rationing. N. Novgorod. (In Russ.) Kasimov, N. S., Vlasov, D. V. 2015. Clarks of chemical elements as reference standards in ecogeochemistry. Lomonosov Geography Journal, 2, pp. 7-17. EDN: UCGNHL. (In Russ.) Kochetova, Zh. Yu. 2019. Aviation-rocket cluster as a new class of objects of geoecological monitoring. Geographical Bulletin, 3(50), pp. 79-91. DOI: https://doi.org/10.17072/2079-7877-2019-3-79-91. EDN: DGBOBJ. (In Russ.) Kochetova, Zh. Yu., Bazarskij, O. V., Panteleev, D. A. 2023. Soil ecology of military ranges. Voronezh. (In Russ.) Lazarev, I. S., Kochetova, Zh. Yu., Maslova, N. V., Terent'ev, V. V. 2022. Integral assessment of soil pollution during airfield reconstruction. Regional Geosystems, 46(3), pp. 448-462. DOI : https://doi.org/10.52575/ 2712-7443-2022-46-3-448-462. EDN: XABGQV. (In Russ.) Rubin, V. M., Il'yukova, I. I., Kremko, L. M. et al. 2013. Hygienic justification of the MPC standards of petroleum products in the soils of the Republic o f Belarus. Hygiene and Sanitation, Russian Journal, 92(2), pp. 99-101. EDN: PZMPQB. (In Russ.) Smurygin, A. V., Bakin, E. N., Aseev, V. A. 2019. Features of environmental support in the Armed Forces of the Russian Federation. Pozharnaya Bezopasnost': Problemy i Perspektivy, 1(10), рр. 393-395. (In Russ.) Trofimov, V. T., Har'kina, M. A., Zhigalin, A. D., Baraboshkina, T. A. 2019. Technogenic transformation of ecological functions of abiotic spheres of the Earth under the influence o f military activity. Moscow University Geology Bulletin, 1, pp. 3-13. EDN: XUPFWG. (In Russ.) Har'kina, M. A. 2004. Ecological consequences of military actions. Energiia: Ekonomika, Tekhnika, Ekologiia, 7, pp. 56-59. EDN: OWWJQV. (In Russ.) Ecological rationing and quality management of soils and lands. 2013. Eds. Shoba S. A., Yakovlev A. S., Rybalsky N. G. Moscow. (In Russ.) Bausinger, T., Bonnaire, E., Preuss, J. 2007. Exposure assessment of a burning ground for chemical ammunition on the Great War battlefields of Verdun. Science o f the Total Environment, 382(1-2), pp. 259-271. DOI: https://doi.org/10.1016/j.scitotenv.2007.04.029. Hussain, T., Gondal, M. A. 2008. Monitoring and assessment o f toxic metals in Gulf War oil spill contaminated soil using laser-induced breakdown spectroscopy. Environmental Monitoring and Assessment, 136, pp. 391­ 399. DOI: https://doi.org/10.1007/s10661-007-9694-2. Knechtenhofer, L. A., Xifra, I. O., Scheinost, A. C., Fluhler, H. et al. 2003. Fate of heavy metals in a strongly acidic shooting-range soil: Small-scale metal distribution and its relation to preferential water flow. Journal o fPlant Nutrition and Soil Science, 166(1), pp. 84-92. DOI: https://doi.org/10.1002/jpln.200390017. 89