Assessment of the State of Soil-Vegetation Complexes Exposed to Powder-Gas Emissions of Nonferrous Metallurgy Enterprises

• Autorzy: Strizhenok A. , Korelskiy D.

Identyfikatory

DOI

10.12911/22998993/64562

• Języki publikacji: EN

Abstrakty

EN

Environmental monitoring and state assessment of soil and vegetation in forest ecosystems, exposed to influence of industrial pollution of the nonferrous metallurgy enterprises, was the aim of conducted research. The object of the research was the JSC „Severonikel”, where the territory of anthropogenic influence is about 1,5 thousand square kilometers. More than 100 samples of plants and upper soil horizons, which were sampled at various distances from the manufacturing entities of enterprise, including background areas, were the result of the scientific expedition. All samples were analyzed in the laboratory for heavy metals content. It allowed to determine the general degree of contamination of the soil at different distances from the enterprise and to establish the migration patterns and accumulation of heavy metals in different horizons.

Słowa kluczowe

EN

nonferrous metallurgy; environment; pollution; vegetation; soil; heavy metals; reclamation

• Wydawca: Polskie Towarzystwo Inżynierii Ekologicznej ; Lublin University of Technology
• Czasopismo: Journal of Ecological Engineering
• Rocznik: 2016
• Tom: Vol. 17, nr 4
• Strony: 25--29
• Opis fizyczny: Bibliogr. 13 poz., rys.

Twórcy

autor

Strizhenok A.

• Saint-Petersburg Mining University, 21st Vasilevsky Ostrov, Line 2, Saint Petersburg, 199106, Russia

autor

Korelskiy D.

• Saint-Petersburg Mining University, 21st Vasilevsky Ostrov, Line 2, Saint Petersburg, 199106, Russia

Bibliografia

• 1. Bolan N., Adriano D., Curtin D. 2003. Soil acidification and liming interactions with nutrient and heavy metal transformation and bioavailability. Advances in Agronomy, 78, 215-272.
• 2. Fedorec N.G., Medvedeva M.V. 2009. The methodology of soil research of urbanized territories. Petrozavodsk: Karelian Research Centre of Russian Academy, pp. 84.
• 3. Galperin A.M., Kirichenko Y.V., Shef H.Y. 2006. Anthropogenic arrays and protection of natural resources. Vol. 1., MGGU, pp. 391.
• 4. GOST 17.4.4.02-84. Methods of soil sampling and sample preparation for chemical, bacteriological, helminthological analysis.
• 5. GOST 28168-89. Sampling of soils.
• 6. Isaeva L.G., Sukhareva T.A. 2013. The elemental composition of wild shrubs in the impact zone of “Severonikel”: the data of long-term monitoring. Tsvetnye metally, 10, 87-92.
• 7. Kingery W.L., Simpson A.J., Hayes M.H.B. 2001. Chemical structures of soil organic matter and their interactions with heavy metals. In: H. Magdi Selim and D.L. Sparks (Eds) Heavy metals release in soils, 237-245.
• 8. Lukina Y.M. 2011. Influence of technogenic pollution of the plant “Severonikel” on the growth and development of woody plants. Murmansk state humanities university. Petrozavodsk.
• 9. McGowen S.L., Basta N.T. 2001. Heavy metal solubility and transport in soil contaminated by mining and smelting. In: H. Magdi Selim and D.L. Sparks (Eds) Heavy metals release in soils, 89-109.
• 10. Overview of the metallurgical complex „Severonikel”. URL: http://www.kolagmk.ru/about/info (02.06.2016).
• 11. Scientific instrument base of the laboratory of Environmental monitoring of the Saint-Petersburg Mining University. URL: http://spmi.ru/nsciarticle/nsciarticle_13473 (06.06.2016).
• 12. State report “On condition and protection of the environment of the Russian Federation in 2014”. URL: http://www.ecogosdoklad.ru/2014/default. aspx (03.06.2016).
• 13. Strizhenok A.V., Korelskiy D.S. 2015. Assessment of the anthropogenic impact in the area of tailings storage of the apatite-nepheline ores. Pollution Research, 34(4), 809-811.

Uwagi

PL

Opracowanie ze środków MNiSW w ramach umowy 812/P-DUN/2016 na działalność upowszechniającą naukę.