Abstract
Purpose
In the course of our investigation, we analyzed physical and chemical parameters as well as heavy metal contents in the urban soils of Sopron, Hungary. Our aim was to identify the main feedback effects between the town and its environment.
Materials and methods
Altogether, 208 samples were collected at 104 sites at depths of 0–10 and 10–20 cm in a standard network. The results have been represented in a GIS system, providing a useful basis for the research. We measured the following chemical and physical parameters: soil pH (pH(H2O), pH(KCl)), calcium carbonate content, particle size distribution, humus content, ethylenediaminetetraacetic acid (EDTA) or diethylenetriaminepentaacetic acid (DTPA) soluble Mn, Cu, Zn, and Fe contents. In addition, 24 heavy metals, including Co, Cd, Cu, Pb, Zn, and Ni, were also measured following the method of Lakanen-Erviö. Relationships between these elements were evaluated in both soil layers.
Results and discussion
In the downtown, most of the soils we investigated were alkaline. Therefore, the pollution of these soils has not yet leached into deeper layers. The Pb content was very high in both layers throughout the whole area of the town. Urban soils with high Cu content have been found mostly from garden and viticulture areas. Cd contents were the highest in the traffic zones, confirmed by the literature, reaching 3 mg Cd/kg soil. The Co and Zn results were below the Hungarian background and pollution limits (discussed below).
Conclusions
According to the results, we have found the highest average values of heavy metals in the soils of parks, possibly originating from traffic contamination, binding in the soil of urban green spaces, thus possibly affecting human health. In the future, a detailed analysis of these polluted green areas will be carried out.
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References
Baranyai F, Fekete A, Kovács I (1987) Results of the Hungarian nutritional studies. Publishing House of Agriculture, Budapest. ISBN 963-232-294-0, p 189 (in Hungarian)
Bellér P (1997) Methods of soil analysis. University of Sopron, Faculty of Forestry, Department of Soil Site Survey, Sopron. p, 118; (in Hungarian)
Bergbäck B, Johansson K, Mohlander U (2001) Urban metal flows—a case study of stockholm. Review and Conclusions Water Air Soil Pollut: Focus 1(3–4):3–24
Bidló A, Horváth A, Kámán O, Németh E, Pődör A, Szűcs P (2012): Soil Investigation in cities of West Hungary. In: Neményi M, Heil B (eds) The impact of urbanization, industrial, agricultural and forest technologies on the natural environment. Publishing House of National Textbook, Budapest. ISBN 978-963-197352-5, pp 147–160
Billwitz K, Breuste J (1980) Anthropogene bodenveränderungen im stadtgebiet von halle/saale. In Wiss Zeitschrift Univ Halle, Halle 39(4):25–43
Blume HP (1992) Handbuch des Bodenschutzes. Ecomed Verlag. Germany, pp 277–303
Brown RW, Gonzales C, Hooper MJ, Bayat AC, Fornerette AM, McBride TJ, Longoria T, Mielke HW (2008) Soil lead (Pb) in residential transects through Lubbock, Texas: a preliminary assessment. Environ Geochem Health 30:541–547
Bullock P, Gregory PJ (ed) (1991) Soils in the urban environment. Blackwell, Oxford. ISBN 978-0-63202-988-4, p 174
Burghardt W (1994) Soils in urban and industrial environment. Plant Nutr Soil Sci 157(3):205–214
Charzyński P, Bednarek R, Greinert A, Hulisz P, Uzarowicz Ł (2013) Classification of technogenic soils according to WRB system in the light of Polish experiences. Soil Science Annual 64(4):145–150
Craul PJ (1992) Urban soils (applications and practices). John Wiley & Sons Inc., New York. ISBN 0-471-18903-0, p 366
Csathó P (1994) Contamination of the environment with heavy metals and its consequences on agricultural production. Institute for Soil Sciences and Agricultural Chemistry, Centre for Agricultural Research, Hungarian Academy of Sciences. ISBN: 963-04-4857-2, pp 175 (in Hungarian)
Dövényi Z (ed) (2010) Hungarian microregions. Geographical Institute, Research Centre for Astronomy and Earth Sciences of the Hungarian Academy of Sciences. Budapest. ISBN 978-963-9545-29-8, p 876
Entwistle JA, Abrahams PW, Dodgshon RA (1998) Multi-element analysis of soils from Scottish historical sites interpreting land-use history trough the physical and geochemical analysis of soil. J Archaeol Sci 25:53–68
FAO (1990) Guidelines for soil description. 3rd Ed. (revised). Soil Resources, Management and Conservation Service, Land and Water Development Division. FAO, Rome. 70 pp
Farsang A, Jóri Z (1999) The heavy metal load in soils of green areas of Szeged city In: Galbács Z (ed) Proceedings of the 5th Symposium on Analytical and Environmental Problems. Szeged, pp 47–54 (in Hungarian)
Fekete A (1989) Non-essential (toxic) micronutrient content of the Hungarian soils. Agrochemistry and Soil Sciences 38(1–2):174–176 (in Hungarian)
Fiedler HJ (1990) Bodennutzung und Bodenschutz: Jena. VEB Gustav Fischer Verlag, p 267
Hazelton P, Murphy B (2011) Understanding soils in urban environments. Csiro Publishing, Collingwood, 160. ISBN 978-1-84971-237-8
Hiller DA, Meuser H (1998) Urbane Böden (Urban soils). Springer, Berlin, p 161
Horváth A, Szűcs P, Kámán O, Németh E, Bidló A (2013) Examination of topsoils in Sopron. Landsc Ecol 11(1):125–134 (in Hungarian)
IUSS Working Group WRB. 2007. World Reference Base for Soil Resources 2006. first update 2007. World Soil Resources Reports No. 103. FAO, Rome
Jim CY (1998) Soil characteristics and management in urban park in Hong Kong. Environ Manag 22(5):683–695
Juhász I (ed) (2006) Condition of hungarian soils. Institute for Soil Sciences and Agricultural Chemistry, Centre for Agricultural Research, Hungarian Academy of Sciences. Budapest. pp 9117 (in Hungarian)
Juhász P, Bidló A, Heil B, Kovács G, Patocskai Z (2008) Bükkös állományok szénmegkötési potenciálja a Mátrában Beech forest Potential of carbon sequestration of beech forest satnds in Matra . In: Simon L (ed) Soil Protection Special Issue. 2008. Publishing House of Bessenyei György, Nyíregyháza. ISBN: 978-963-9909-03-8; ISSN: 1216–9560, pp 409–416 (in Hungarian)
Joint Decree No. 10/2000. (VI. 2) KöM-EüM-FVM-KHVM of the Ministers of Environmental Protection, Public Health, Agriculture and Regional Development, and of Traffic, Communication and Water Management on the Limit Values Necessary to Protect the Quality of Groundwater and the Geological Medium (in Hungarian)
Joint Decree No. 6/2009. (IV. 14) KvVM-EüM-FVM of the Ministers of Environmental Protection and Water Management, Public Health, Agriculture and Regional Development on the Limit Values Necessary to Protect the Quality of Geological Medium and the Groundwater and on Measurement of Pollution. (in Hungarian)
Kabata-Pendias A (1993) Behavioural properties of trace metals in soils. Appl Geochem 2:3–9
Kádár I (1993) Evaluation of the contaminated soils of traffic, settlement and industry. Crop Production 42(2):185–190. ISSN: 0546–8191 (in Hungarian)
Kádár I (1998) Remediation handbook 2. Investigation of contaminated soils. Ministry of Environment. p. 151. ISBN 963-04-5362-2 (in Hungarian)
Kollender-Szych A, Niedźwiecki E, Malinowski R (2008) Urban soils. Academia Rolnicza W. Szczecinie, Szczecin 61–100. (in Polish)
Kovács M, Nyári I (1984) The heavy metal contents of the public places of Budapest. Agrochemistry and Soil Sciences 33(3–4):501–510 (in Hungarian)
Lehmann A (2007) Nature and significance of anthropogenic urbansoils. J Soils Sediments 7(4):247–260
Lehmann A (2010) Evaluation and importance of soil functions in cities considering infiltration and climatic regulation. 2010 19th World Congress of Soil Science, Soil Solutions for a Changing World 1–6 August 2010, Brisbane, Australia, pp 53–56
Li XD, Lee SL, Wong SC, Shi WZ, Thornton I (2004) The study of metal contamination in urban soils of Hong Kong using a GIS-based approach. Environ Pollut 129:113–124
McEldowney S, Hardman DJ, Waite S (1993) Treatment technologies. In: McEldowney S, Hardman J, Waite S (eds) Pollution ecology and biotreatment technologies. Longman, Singapore Publishers
Meuser H (2010) Contaminated urban soils. Springer Science-Business Media B.V., ISBN 978-90-481-9327-1, p 318
Morel JL, Heinrich AB (2008) SUITMA—soils in urban, industrial, traffic, mining and military areas; An interdisciplinary working group of the ‘International Union of Soil Science’ (IUSS) dedicated to soils strongly modified by human activities. J Soils Sediments 8:206–207
MSZ-08-0205 (1978) Determination of physical and hydrophysical properties of soils. Hungarian Standard Association, Budapest (in Hungarian)
MSZ 21470–50:2006 Environmental testing of soils. Determination of total and soluble toxic element, heavy metal and chromium(VI) content (in Hungarian)
Norra S, Stüben D (2003) Urban soils. J Soils Sediments 3(4):229–233
Puskás I, Farsang A (2007) The evaluation of the parameters indicating the level of anthropogenic effects in urban soils of Szeged. Landsc Ecol 5(2):371–379 (in Hungarian)
Puskás I, Prazsák I, Farsang A, Maróy P (2008) Physical, chemical and biological aspects of human impacts on urban soils of Szeged. Agrochemistry and Soil Sciences 57(2):261–280 (in Hungarian)
Puskás I, Farsang A (2009) Diagnostic indicators for characterizing urban soils of Szeged, Hungary. Geoderma 148(3–4):267–281
Runge M (1975) Westberliner Böden anthropogener Litho- oder Pedogenese. Dissertation an der Technischen Universität Berlin, p 237
Sándor G, Szabó Gy, Charzyński P, Szynkowska E, Novák TJ, Świtoniak M (eds) (2013) Technogenic soils atlas. Polish Society of Soil Science Toruń pp 35–74
Scharenbroch BC, Lloyd JE, Johnson-Maynard JL (2005) Distinguishing urban soils with physical, chemical, and biological properties. Pedobiologia 49:283–295
Stefanovits P (1992) Soil Sciences. Publishing House of Agriculture. Budapest. ISBN 963-81-6001-2, p 380 (in Hungarian)
Stefanovits P, Filep Gy, Füleky Gy (1999) Soil Sciences. Publishing House of Agriculture. Budapest. ISBN 963-286-178-7, p 470 (in Hungarian)
Szabó Gy (1996) Heavy metals in soils. Geogr Rev 120(4):253–266 (in Hungarian)
Szegedi S (1999a) Heavy metals in soils and plants of Debrecen of transportation origin, and its pedologic connections and city ecological effects. PhD dissertation. Kossuth Lajos University, Department of Applied Landscape Geography, Debrecen, p 138 (in Hungarian)
Szegedi S (1999b) The heavy metal pollution of the soil in Debrecen. Hungarian Sciences 106/66(10):1192–1200 (in Hungarian)
Szolnoki Zs, Farsang A, Puskás I (2013) Cumulative impacts of human activities on urban garden soils: origin and accumulation of metals. Environ Pollut 177:106–115
Tóth I (2011) History of Sopron. Scientific study. Museum of Sopron, Sopron, p 10 (in Hungarian)
Van Reeuwijk LP (ed) (2002) Procedures for soil analysis (6th ed.). Tech. Pap. 9. Wageningen, ISRIC, p 120
Varga G, Konkoly-Gyúró É, Kovács G, Schmidt G, Radó D, Baranyi K, Czimber K, Boros G, Héjj B, Krassay L, Rácz I, Szemerédy M and Varga T (1999) Information system describing the condition of urban trees and forests. Urban Greening and Landscape Architecture, Koppenhaga, 1999. június 23–25
Zöttl HW (1987) Responses of forest decline to experimental fertilization. In: Hutchinson TC and Meema KM: Effects of Atmospheric Pollutants on Forests, Wetlands and Agri-cultural Ecosystems. Springer Series G: Ecol Sci 16:255–265
Acknowledgments
The research was supported by the European Union by the TÁMOP 4.2.1.B-09/1/KONV-2010-0006 project. The authors wish to thank Anikó Horváth for her assistance with the statistical analyses.
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Horváth, A., Szűcs, P. & Bidló, A. Soil condition and pollution in urban soils: evaluation of the soil quality in a Hungarian town. J Soils Sediments 15, 1825–1835 (2015). https://doi.org/10.1007/s11368-014-0991-4
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DOI: https://doi.org/10.1007/s11368-014-0991-4