Study of the Geo-Ecological State of Groundwater of Metropolitan Areas under the Conditions of Intensive Contamination Thereof

Lebedeva, Yana; Kotiukov, Pavel; Lange, Ivan

doi:10.12911/22998993/116322

Artykuł - szczegóły

Tytuł artykułu

Study of the Geo-Ecological State of Groundwater of Metropolitan Areas under the Conditions of Intensive Contamination Thereof

Autorzy

Lebedeva Yana , Kotiukov Pavel , Lange Ivan

Treść / Zawartość

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DOI

10.12911/22998993/116322

Warianty tytułu

Języki publikacji

Abstrakty

The paper presents the analysis of the geo-ecological state of groundwater within an urban territory on the example of Saint Petersburg. The paper considers two key sites, characterized by different levels of contamination of the underground environment (Primorsky and Krasnogvardeisky districts of Saint Petersburg) and provides an assessment of the main natural and man-made sources of the groundwater contamination within the territory of the selected districts. The composition of groundwater was studied in the zones with different pattern of contamination (cemeteries, liquidated landfills, industrial areas, etc.). The negative impact of the man-made sources of contamination on the state of groundwater was determined. The recommendations for arranging hydrogeological groundwater monitoring in metropolitan areas were developed.

Słowa kluczowe

contamination groundwater man-made sources Primorsky District Krasnogvardeisky District chemical composition monitoring

Wydawca

Polskie Towarzystwo Inżynierii Ekologicznej
Lublin University of Technology

Czasopismo

Journal of Ecological Engineering

Rocznik

2020

Tom

Vol. 21, nr 2

Strony

157--165

Opis fizyczny

Bibliogr. 21 poz., rys., tab.

Twórcy

autor

Lebedeva Yana

pavel_spmi@mail.ru

Department of Hydrogeology and Engineering Geology, Saint-Petersburg Mining University (University of Mines), 21st Line of the Vasilevsky Island, 2, 199106, Saint Petersburg, Russia

autor

Kotiukov Pavel

Department of Hydrogeology and Engineering Geology, Saint-Petersburg Mining University (University of Mines), 21st Line of the Vasilevsky Island, 2, 199106, Saint Petersburg, Russia

autor

Lange Ivan

Department of Hydrogeology and Engineering Geology, Saint-Petersburg Mining University (University of Mines), 21st Line of the Vasilevsky Island, 2, 199106, Saint Petersburg, Russia

Bibliografia

1. Abouzar Nasiri, Vera A. Shirocova and Sajad Zareie. 2019. Zoning of Groundwater Quality for Plain Garmsar in Iran. Journal of water recourse, 46(4), 624–629.
2. Boikov A V, Payor V A, Savelev R V. 2018. Technical vision system for analysing the mechanical characteristics of bulk materials. Journal of Physics Conference Series. 944 , 1–6.
3. Chupin, S., Bolobov, V. 2018. Influence of thermomechanical treatment modes on wear resistance of mining equipment material. Materials Science Forum Russia, 695–699.
4. Code of practice 11–102–97. Engineering and environmental surveys for construction. Moscow, Gosstroy of Russia, GUP СPP, 2001, 38 p (in Russia).
5. Dashko R., Karpova Ya. 2015. Underground space of saint-petersburg as a multicomponent system: Engineering geological and geotechnical aspects of its development. International Multidisciplinary Scientific GeoConference Surveying Geology and Mining Ecology Management, SGEM, 2(1), 827–83.
6. Dashko R.E. and Shidlovskay A.V. 2016. Impact of microbial activity on soil properties. Canadian Geotechnical Journal, 53(9), 1386–1397.
7. Ecological situation in the Krasnogvardeisky district Saint Petersburg. Report from Environmental Committee Committee and Ensuring Environmental Safety of St. Petersburg. 2017. Available at: https.://www.gov.spb.ru/static/writable/ckeditor/uploads/2017/11/13/krasnogvardeisky.pdf. (in Russia).
8. Escudero, C., Vera, M., Oggerin, M., Amils, R. 2018. Active microbial biofilms in deep poor porous continental subsurface rocks. Scientific Reports, 8 (1), article № 1538.
9. Golovina, E.I. 2017. Strategic issues groundwater extraction management in Russia, Journal of Ecological Engineering. 18 (3), 13–21.
10. Gorskaya V.A. Engineering-geological analysis of the historical aspect of the development and contamination of the underground space of St. Petersburg. Candidate of diss. [Engineering and geological analysis of the historical aspect of the development and contamination of the underground space St. Petersburg Ph.D.]. St. Petersburg, 2017, 250 p.
11. Griebler, C., Lueders, T. 2009. Microbial biodiversity in groundwater ecosystems Freshwater Biology, 54 (4), pp. 649–677.
12. Gukovskiy Yu.L., Sychev and Yu.A. Pelenev D.N. 2017. The automatic correction of selective action of relay protection system against single phase earth faults in electrical networks of mining enterprises. International Journal of Applied Engineering Research, V.12, 833–838.
13. Humphreys, W.F. 2009. Hydrogeology and groundwater ecology: Does each inform the other? Hydrogeology Journal, 17 (1), 5–21.
14. Iakovleva E. V., Belova M. V., Popov A. L.2019. Mining and Environmental Monitoring at Open-Pit Mineral Deposits. Journal of Ecological Engineering, 20 (5), 172–178.
15. Korbel, K., Chariton, A., Stephenson, S., Greenfield, P., Hose, G.C. 2017. Wells provide a distorted view of life in the aquifer: Implications for sampling, monitoring and assessment of groundwater ecosystems Scientific Reports, 7, article № 40702.
16. Lin, X., McKinley, J., Resch, C.T., Kaluzny, R., Lauber, C.L., Fredrickson, J., Knight, R., Konopka, A. 2012. Spatial and temporal dynamics of the microbial community in the Hanford unconfined aquifer. ISME Journal, 6 (9), 1665–1676.
17. Mihail, M., Isheyskiy, V., Vadim, D. 2018. Drilling and blasting influence on the process of dust particles formation International Journal of Mechanical Engineering and Technology, 9 (12), 97–103.
18. Nefedov Y. V., Klepikov I. V. 2018. Occurrence Regularities of Nitrogen Defects in the Ural Type Crystal Diamonds from Different Regions /Key Engineering Materials, V 769, 201–206.
19. Nikolaev A.K, G H Samigullin, L G Samigullina, V G Fetisov. 2017. Non-stationary operation of gas pipeline based on selections of travel. IOP: Materials Science and Engineering, V.327, 1–5.
20. Shashkin, A.G., Shashkin, K.G., Dashko, R.E. 2019. Analysis of causes of deformations in historic buildings on weak clay soils, Geotechnics Fundamentals and Applications in Construction: New Materials, Structures, Technologies and Calculations – Proceedings of the International Conference on Geotechnics Fundamentals and Applications in Construction: New Materials, Structures, Technologies and Calculations, GFAC 2019, 329–334.
21. Trushko, O.V., Potemkin, D.A., Popov, M.G. 2018. Ensuring sustainability of mining workings in development of ore deposits in complex geological conditions. ARPN Journal of Engineering and Applied Sciences, 13(7), 2594–2601.

Uwagi

Opracowanie rekordu ze środków MNiSW, umowa Nr 461252 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2020).

Typ dokumentu

Bibliografia

Identyfikator YADDA

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