Contents of Potentially Toxic Metals and Magnetic Susceptibility of Soils Along a Rural – Urban – Rural Gradient in Bratislava City (Slovakia)

Alloway B. J. 1990. Heavy metal in soils. Blackie and Son Ltd., Glasgow and London, 339 p.Search in Google Scholar

Blundell A., Hannam J. A., Dearing J. A. & Boyle J. F. 2009. Detecting atmospheric pollution in surface soils using magnetic measurements: A reappraisal using an England and Wales database. Environ. Pollut. 157: 2878-2890.10.1016/j.envpol.2009.02.031Search in Google Scholar

Brandau A. & Urbat M. 2000. Rock magnetic signature of sediment near the active Dead Dog Mound, Juan De Fuca Ridge. XXV EGS General Assembly, Geophysical Research Abstract, vol. 2, CD Rom.Search in Google Scholar

Čurlík J. & Šefčík P. 1999. Geochemical atlas of Slovak Republic. Part V – Soils. Soil Science and Conservation Research Institute, Bratislava.Search in Google Scholar

Čurlík J. & Jurkovič Ľ. 2012. Pedogeochémia. Univerzita Komenského v Bratislave, Bratislava, 228 p.Search in Google Scholar

D’emilio M., Chianese D., Coppola R., Macchiato M. & Ragosta M. 2007. Magnetic susceptibility measurements as proxy method to monitor soil pollution: Development of experimental protocols for field survey. Environ. Monitor. Assess. 125: 137-146.10.1007/s10661-006-9246-1Search in Google Scholar

Ďurža O. 1999. Heavy metals contamination and magnetic susceptibility in soils around metallurgical plant. Phys. Chem. Earth (A) 24: 541-543.10.1016/S1464-1895(99)00069-1Search in Google Scholar

Ďurža O. & Dlapa P. 2009. Magnetic susceptibility record of loess/paleosol sequence: Case study from south-west Slovakia. Contrib. Geophys. Geodesy 39: 83-94.Search in Google Scholar

Ďurža O., Hiller E., Lachká L. & Tóth R. 2013. Magnetická susceptibilita a znečistenie pôd v areáloch materských škôlok Bratislavy potenciálne toxickými prvkami (Slovensko). Acta Geol. Slov. 5: 155-162.Search in Google Scholar

El Baghdadi M., Barakat A., Sajieddine M. & Nadem S. 2012. Heavy metal pollution and soil magnetic susceptibility in urban soil of Beni Mellal City (Morocco). Environ. Earth Sci. 66: 141-155.10.1007/s12665-011-1215-5Search in Google Scholar

Flanders P. J. 1994. Collection, measurements, and analysis of airborne magnetic particulates from pollution in the environment. J. Appl. Phys. 75: 5931-5936.10.1063/1.355518Search in Google Scholar

Hanesch M. & Scholger R. 2005. The influence of soil type on the magnetic susceptibility measured throughout soil profiles. Geophys. J. Int. 161: 50-56.10.1111/j.1365-246X.2005.02577.xSearch in Google Scholar

Hiller E., Lachká L., Jurkovič Ľ. & Vozár J. 2015. Polycyclic aromatic hydrocarbons in urban soils from kindergartens and playgrounds in Bratislava, the capital city of Slovakia. Environ. Earth Sci. 73: 7147-7156.10.1007/s12665-014-3894-1Search in Google Scholar

Hu X. F., Su Y., Ye R., Li X. Q. & Zhang G. L. 2007. Magnetic properties of the urban soils in Shanghai and their environmental implications. Catena 70: 428-436.10.1016/j.catena.2006.11.010Search in Google Scholar

Chaparro M. A. E., Chaparro M. A. E., Marinelli C. & Sinito A. M. 2008. Multivariate techniques as alternative statistical tools applied to magnetic proxies for pollution: a case study from Argentina and Antarctica. Environ. Geol. 54: 365-371.10.1007/s00254-007-0823-6Search in Google Scholar

Chen J. 2007. Rapid urbanization in China: A real challenge to soil protection and food security. Catena 69: 1-15.10.1016/j.catena.2006.04.019Search in Google Scholar

Kapička A., Petrovský E., Fialová H. & Podrázský V. 2004. Využití magnetické susceptibility lesních půd pro mapování imisní zátěže v regionu KRNAP. In: Štursa J., Mazurski K.R., Palucki A. & Potocka J. (Eds.): Geoekologické problémy Krkonoš. Szklarska Poreba. Opera Corcontica, 41, pp. 55-59.Search in Google Scholar

Li X., Poom C. & Liu P. S. 2001. Heavy metal contamination of urban soils and street dusts in Hong Kong. Appl. Geochem. 16: 1361-1368.10.1016/S0883-2927(01)00045-2Search in Google Scholar

Liu D., Ma J., Sun Y. & Li Y. 2016. Spatial distribution of soil magnetic susceptibility and correlation with heavy metal pollution in Kaifeng City, China. Catena 139: 53-60.10.1016/j.catena.2015.11.004Search in Google Scholar

Ljung K., Selinus O. & Otabbong E. 2006. Metals in soils of children’s urban environments in the small northern European city of Uppsala. Sci. Total Environ. 366: 749-759.10.1016/j.scitotenv.2005.09.073Search in Google Scholar

Lu S. G. & Bai S. Q. 2006. Study on the correlation of magnetic properties and heavy metals content in urban soils of Hangzhou City, China. J. Appl. Geophys. 60: 1-12.10.1016/j.jappgeo.2005.11.002Search in Google Scholar

Lu S. G., Bai S. Q. & Fu L. X. 2008. Magnetic properties as indicator of Cu and Zn contamination in soils. Pedosphere 18: 479-485.10.1016/S1002-0160(08)60038-7Search in Google Scholar

Lu S. G., Wang H. Y. & Bai S. Q. 2009. Heavy metal content and magnetic susceptibility of soils along an urban-rural gradient in rapidly growing city of eastern China. Environ. Monitor. Assess. 155: 91-101.10.1007/s10661-008-0420-518563601Search in Google Scholar

Lu S. G., Wang H. Y. & Guo J. L. 2011. Magnetic enhancement of urban roadside soils as a proxy of degree of pollution by traffic-related activities. Environ. Earth Sci. 64: 359-371.10.1007/s12665-010-0859-xSearch in Google Scholar

Magiera T. & Strzyszcz Z. 2000. Ferrimagnetic minerals of anthropogenic origin in soils of polish national parks. Water Air Soil Pollut. 124: 37-48.10.1023/A:1005258125921Search in Google Scholar

Maher B. A., Moore C. & Matzka J. 2008. Spatial variation in vehicle-derived metal pollution identified by magnetic and elemental analysis of roadside tree leaves. Atmos. Environ. 42: 364-373.10.1016/j.atmosenv.2007.09.013Search in Google Scholar

Malovcová E. 2014. Využitie pôdnej magnetometrie pri štúdiu kontaminácie urbánnych pôd potenciálne toxickými stopovými prvkami (príklad Bratislavy). Manuskript, PriF UK Bratislava, 82 s.Search in Google Scholar

Mazúr E. & Lukniš M. 1980. Regionálne geomorfologické členenie SSR 1:500 000. Atlas SSR. Geografický ústav SAV, Bratislava.Search in Google Scholar

Menichini E., Iacovella N., Monfredini F. & Turrio-Baldassarri L. 2007. Atmospheric pollution by PAHs, PCDD/Fs and PCBs simultaneously collected at a regional background site in central Italy and at an urban site in Rome. Chemosphere 69: 422-434.10.1016/j.chemosphere.2007.04.078Search in Google Scholar

Mikľajev J. V. & Kudrjavcev Ju. I. 1982. Izučenije magnitnoj vosprijimčivosti počv primeniteľno k zadačam geologičeskogo kartirovanija. Vest. Leningr. Universit. 18: 79-84.10.1093/swra/18.4.79Search in Google Scholar

Mikľajev J. V. & Žogolev S. L. 1990. O prostranstvennoj svjazi anomalij magnitnoj vosprijimčivosti počv s litogeochemičeskimi oreolami rudnych elementov. Vest. Leningr. Universit. 7: 26-33.10.1111/j.1475-1305.1990.tb00721.xSearch in Google Scholar

Milička J., Vass D. & Pereszlényi M. 2002. Organická hmota v neskoromiocénnych sedimentoch Lučeneckej kotliny, južné Slovensko. Miner. Slov. 34: 93-98.Search in Google Scholar

Morton-Bermea O., Hernandez E., Martinez-Pichardo E., Soler-Arechalde A. M., Lozano Santa-Cruz R., Gonzalez-Hernandez G., Beramendi-Orosco L. & Urrutia-Fucugauchi J. 2009. Mexico City topsoils: Heavy metals vs. magnetic susceptibility. Geoderma 151: 121-125.10.1016/j.geoderma.2009.03.019Search in Google Scholar

Muránszky G., Óvári M., Virág I., Csiba P., Dobai R. & Záray G. 2011. Chemical characterization of PM₁₀ fractions of urban aerosol. Microchem. J. 98: 1-10.10.1016/j.microc.2010.10.002Search in Google Scholar

Ng S. L., Chan L. S., Lam K. C. & Chan W. K. 2003. Heavy metal contents and magnetic properties of playground dust in Hong Kong. Environ. Monitor. Assess. 89: 221-232.10.1023/A:1026103318778Search in Google Scholar

Norra S. & Stuben D. 2003. Urban soils. J. Soil. Sediment. 3: 230-233.10.1007/BF02988664Search in Google Scholar

Orgeira J. M., Egli R. & Compagnucci H. R. 2011. A quantitative model of magnetic enhancement in loessic soils. In: Petrovský E., Herrero-Bervera E., Harinarayana T. et al. (eds.): Earth’s Magnetic Interior. Book Series: IAGA Special Sopron Book Series, 1, pp. 361-397.10.1007/978-94-007-0323-0_25Search in Google Scholar

Petrovský E., Kapička A., Jordanova N., Knab M. & Hoffmann V. 2000. Lowfield magnetic susceptibility: a proxy method of estimating increased pollution of different environmental systems. Environ. Geol. 39: 312-318.10.1007/s002540050010Search in Google Scholar

Robertson D. J., Taylor K. G. & Hoon S. R. 2003. Geochemical and mineral magnetic characterisation of urban sediment particulates. Manchester, UK. Appl. Geochem. 18: 269-282.10.1016/S0883-2927(02)00125-7Search in Google Scholar

Shilton V. F., Booth C. A., Smith J. P., Giess P., Mitchell D. J. & Williams C. D. 2005. Magnetic properties of urban street dust and their relationship with organic matter content in the West Midlands, UK. Atmos. Environ. 39: 3651-3659.10.1016/j.atmosenv.2005.03.005Search in Google Scholar

Schmidt A., Yarnold R., Hill M. & Ashmore M. 2005. Magnetic susceptibility as proxy for heavy metal pollution: A site study. J. Geochem. Explor. 85: 109-117.10.1016/j.gexplo.2004.12.001Search in Google Scholar

Simon E., Vidic A., Braun M., Fábián I. & Tóthmérész B. 2013. Trace element concentrations in soils along urbanization gradients in the city of Wien, Austria. Environ. Sci. Pollut. Res. 20: 917-924.10.1007/s11356-012-1091-x22843352Search in Google Scholar

Sobocká J., Jaďuďa M., Ružeková-Poltárska K. & Šurina B. 2007. Urbánne pôdy (Príklad Bratislavy). Výskumný ústav pôdoznalectva a ochrany pôdy, Bratislava, 174 s.Search in Google Scholar

Spiteri C., Kalinski V., Rosler W., Hoffmann V. & Appel E. 2005. Magnetic screening of a pollution hotspot in the Lausitz area, Eastern Germany: correlation analysis between magnetic proxies and heavy metal contamination in soils. Environ. Geol. 49: 1-9.10.1007/s00254-005-1271-9Search in Google Scholar

Tan J.-H., Bi X.-H., Duan J.-C., Rahn K.A., Sheng G.-Y. & Fu J.-M. 2006. Seasonal variation of particulate polycyclic aromatic hydrocarbons associated with PM₁₀ in Guangzhou, China. Atmos. Res. 80: 250-262.10.1016/j.atmosres.2005.09.004Search in Google Scholar

Tomlinson D. L., Wilson J. G., Harris C. R. & Jeffney D. W. 1980. Problems in the assessment of heavy metal levels in estuaries and the formation of a pollution index. Helgoländer Wissenschaftliche Meeresuntersuchungen 33: 566-572.10.1007/BF02414780Search in Google Scholar

Vadjunina A. F. & Babanin V. F. 1972. Magnitnaja vosprijimčivosť nekotorych počv SSSR. Počvovedenije 10: 55-66.Search in Google Scholar

Wagrowski D. M. & Hites R. 1997. PAH accumulation in urban, suburban and rural vegetation. Environ. Sci. Technol. 31: 279-282.10.1021/es960419iSearch in Google Scholar

Wong F., Harner T., Liu Q. T. & Diamond M. L. 2004. Using experimental and forest soils to investigate the uptake of polycyclic aromatic hydrocarbons (PAHs) along an urban-rural gradient. Environ. Pollut. 129: 387-398.10.1016/j.envpol.2003.12.00615016460Search in Google Scholar

Yang P., Yang M. & Shao H. 2012. Magnetic susceptibility and heavy metals distribution from risk-cultivated soil around the iron-steel plant, China. Clean - Soil Air Water 40: 615-618.10.1002/clen.201100269Search in Google Scholar

Yang P., Yang M., Mao R. Z., Yang P., Yang M. & Byrue J. M. 2015. Impact of long-term irrigation with treated sewage on soil magnetic susceptibility and organic matter content in North China. Bull. Environ. Contam. Toxicol. 95: 102-107.10.1007/s00128-015-1562-025985871Search in Google Scholar

Zhu W. X. & Carreiro M. M. 2004. Variations of soluble organic nitrogen and microbial nitrogen in deciduous forest soils along an urban-rural gradient. Soil Biol. Biochem. 36: 279-288.10.1016/j.soilbio.2003.09.011Search in Google Scholar