Differentiation of Trace Metal Contamination Level between Different Urban Functional Zones in Permafrost Affected Soils (the Example of Several Cities in the Yamal Region, Russian Arctic)

Dynamically developing urbanization causes a number of environmental effects, including those related to the chemical transformation of soils. Relatively less information about the urban areas of the Arctic and Subarctic zones, constructed mostly on permafrost and intensively populated areas can be...

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Main Authors: Timur Nizamutdinov, Eugenia Morgun, Alexandr Pechkin, Jakub Kostecki, Andrzej Greinert, Evgeny Abakumov
Format: Article
Language:English
Published: MDPI AG 2021-06-01
Series:Minerals
Subjects:
Online Access:https://www.mdpi.com/2075-163X/11/7/668
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spelling doaj-e81106a26a1b4ae69ccce4032f7135f82021-07-23T13:55:39ZengMDPI AGMinerals2075-163X2021-06-011166866810.3390/min11070668Differentiation of Trace Metal Contamination Level between Different Urban Functional Zones in Permafrost Affected Soils (the Example of Several Cities in the Yamal Region, Russian Arctic)Timur Nizamutdinov0Eugenia Morgun1Alexandr Pechkin2Jakub Kostecki3Andrzej Greinert4Evgeny Abakumov5Department of Applied Ecology, Saint Petersburg State University, 16 Line 29 Vasilyevskiy Island, 199178 Saint-Petersburg, RussiaArctic Research Center of the Yamal-Nenets Autonomous District, 73, Respubliki St., 629008 Salekhard, RussiaArctic Research Center of the Yamal-Nenets Autonomous District, 73, Respubliki St., 629008 Salekhard, RussiaInstitute of Environmental Engineering, University of Zielona Góra, 15, Prof. Z. Szafrana St., 65-516 Zielona Góra, PolandInstitute of Environmental Engineering, University of Zielona Góra, 15, Prof. Z. Szafrana St., 65-516 Zielona Góra, PolandDepartment of Applied Ecology, Saint Petersburg State University, 16 Line 29 Vasilyevskiy Island, 199178 Saint-Petersburg, RussiaDynamically developing urbanization causes a number of environmental effects, including those related to the chemical transformation of soils. Relatively less information about the urban areas of the Arctic and Subarctic zones, constructed mostly on permafrost and intensively populated areas can be found. By the example of the analysis of basic soil properties and concentrations of trace metals in the soils of the cities of Salekhard, Urengoy, Nadym, Novy Urengoy and Gaz Sale (the Yamalo-Nenets Autonomous District), as well as various functional zones within the cities, the relationship between the age of the cities, the level of anthropogenic pressure and the type of parent materials and the character of accumulation of metals in the soil profile of urban soils have been described. The direct correlation was found between the content of Pb, Cr, Ni, As and soil sorption characteristics. In young cities built on sandy sediments, there is less accumulation of heavy metals in the topsoil horizons. Relatively higher concentrations of Cu and Cd were noted in soils of industrialized cities, regardless of functional zones. The higher content of Cr, Ni, Cu, Zn, As and Pb has been registered in older zones also frequently used for residential purposes. The calculated values of the PI index for some functional zones of young cities show the medium and high content of heavy metals. The analysis of Igeo and PLI indices shows a large diversity both in relation to individual cities and their functional zones. Soil quality, in spite of the high level of anthropogenic load, was assessed as mostly satisfactory.https://www.mdpi.com/2075-163X/11/7/668Arctic citiesurban environmenturban soilspermafrostpollution status
collection DOAJ
language English
format Article
sources DOAJ
author Timur Nizamutdinov
Eugenia Morgun
Alexandr Pechkin
Jakub Kostecki
Andrzej Greinert
Evgeny Abakumov
spellingShingle Timur Nizamutdinov
Eugenia Morgun
Alexandr Pechkin
Jakub Kostecki
Andrzej Greinert
Evgeny Abakumov
Differentiation of Trace Metal Contamination Level between Different Urban Functional Zones in Permafrost Affected Soils (the Example of Several Cities in the Yamal Region, Russian Arctic)
Minerals
Arctic cities
urban environment
urban soils
permafrost
pollution status
author_facet Timur Nizamutdinov
Eugenia Morgun
Alexandr Pechkin
Jakub Kostecki
Andrzej Greinert
Evgeny Abakumov
author_sort Timur Nizamutdinov
title Differentiation of Trace Metal Contamination Level between Different Urban Functional Zones in Permafrost Affected Soils (the Example of Several Cities in the Yamal Region, Russian Arctic)
title_short Differentiation of Trace Metal Contamination Level between Different Urban Functional Zones in Permafrost Affected Soils (the Example of Several Cities in the Yamal Region, Russian Arctic)
title_full Differentiation of Trace Metal Contamination Level between Different Urban Functional Zones in Permafrost Affected Soils (the Example of Several Cities in the Yamal Region, Russian Arctic)
title_fullStr Differentiation of Trace Metal Contamination Level between Different Urban Functional Zones in Permafrost Affected Soils (the Example of Several Cities in the Yamal Region, Russian Arctic)
title_full_unstemmed Differentiation of Trace Metal Contamination Level between Different Urban Functional Zones in Permafrost Affected Soils (the Example of Several Cities in the Yamal Region, Russian Arctic)
title_sort differentiation of trace metal contamination level between different urban functional zones in permafrost affected soils (the example of several cities in the yamal region, russian arctic)
publisher MDPI AG
series Minerals
issn 2075-163X
publishDate 2021-06-01
description Dynamically developing urbanization causes a number of environmental effects, including those related to the chemical transformation of soils. Relatively less information about the urban areas of the Arctic and Subarctic zones, constructed mostly on permafrost and intensively populated areas can be found. By the example of the analysis of basic soil properties and concentrations of trace metals in the soils of the cities of Salekhard, Urengoy, Nadym, Novy Urengoy and Gaz Sale (the Yamalo-Nenets Autonomous District), as well as various functional zones within the cities, the relationship between the age of the cities, the level of anthropogenic pressure and the type of parent materials and the character of accumulation of metals in the soil profile of urban soils have been described. The direct correlation was found between the content of Pb, Cr, Ni, As and soil sorption characteristics. In young cities built on sandy sediments, there is less accumulation of heavy metals in the topsoil horizons. Relatively higher concentrations of Cu and Cd were noted in soils of industrialized cities, regardless of functional zones. The higher content of Cr, Ni, Cu, Zn, As and Pb has been registered in older zones also frequently used for residential purposes. The calculated values of the PI index for some functional zones of young cities show the medium and high content of heavy metals. The analysis of Igeo and PLI indices shows a large diversity both in relation to individual cities and their functional zones. Soil quality, in spite of the high level of anthropogenic load, was assessed as mostly satisfactory.
topic Arctic cities
urban environment
urban soils
permafrost
pollution status
url https://www.mdpi.com/2075-163X/11/7/668
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