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Ratarstvo i povrtarstvo
2018, vol. 55, br. 1, str. 12-21
jezik rada: engleski
vrsta rada: izvorni naučni članak
doi:10.5937/ratpov55-15489

Creative Commons License 4.0
Zagađenje zemljišta u gradskim baštama prouzrokovano primenom đubriva i fungicida na bazi bakra
aNaučni institut za ratarstvo i povrtarstvo, Novi Sad
bUniverzitet u Novom Sadu, Poljoprivredni fakultet

e-adresa: jelena.marinkovic@ifvcns.ns.ac.rs

Projekat

This study was conducted as part of the Project: State of fertility and contamination of the soil of Novi Sad gardens (2006-2012) which was supported by Municipality Government of Novi Sad and co-financed by the Institute of Field and Vegetable Crops, Novi Sad

Sažetak

Urbano baštovanstvo u gradskim zajednicama je aktivnost koja se intenzivno širi. Cilj ovog istraživanja bio je da ukaže na najčešće greške u proizvodnoj praksi u gradskim baštama i okućnicama malih površina. Uzorci zemljišta su prikupljeni sa ukupno 96 pojedinačnih parcela pod povrtarskim kulturama (56 iz gradskih bašta i okućnica na teritoriji grada Novog Sada i 40 iz njivske proizvodnje iz prigradskih naselja). Između dve grupe ispitivanih zemljišta nije bilo značajnih razlika u sadržaju organske materije. Sadržaj lakopristupačnog P2O5 i K2O bio je značajno viši u zemljištima gradskih bašta i okućnica nego u zemljištima pod njivskom proizvodnjom povrća. Prema sadržaju pseudoukupnog bakra, 39% uzoraka u urbanim zemljištima svrstano je u kategoriju kritične koncentracije i/ili iznad MDK. Dobijeni rezultati ukazuju na zagađenje gradskih bašta i okućnica koje je prouzrokovano jakim antropogenim uticajem usled intenzivne primene mineralnih đubriva i fungicida na bazi bakra.

Ključne reči

Reference

*** (1994) Regulation on permitted amounts of hazardous and noxious substances in soil and irrigation water and methods of their testing. Serbian Official Gazzette RS, 23
*** (2010) Regulation on the program of systematic monitoring of soil quality, indicators for assessing the risk of soil degradation, and the methodology for the development of remediation programs. Official Gazzette RS, 88
Abdulkadir, A., Leffelaar, P.A., Agbenin, J.O., Giller, K.E. (2013) Nutrient flows and balances in urban and peri-urban agroecosystems of Kano, Nigeria. Nutrient Cycling in Agroecosystems, 95(2): 231-254
Antisari, L.V., Orsini, F., Marchetti, L., Vianello, G., Gianquinto, G. (2015) Heavy metal accumulation in vegetables grown in urban gardens. Agronomy for Sustainable Development, 35(3): 1139-1147
Beniston, J.W., Lal, R., Mercer, K.L. (2015) Assessing and Managing Soil Quality for Urban Agriculture in a Degraded Vacant Lot Soil. Land Degradation & Development, 27(4): 996-1006
Besnard, E., Chenu, C., Robert, M. (2001) Influence of organic amendments on copper distribution among particle-size and density fractions in Champagne vineyard soils. Environ. Pollut, vol. 112, str. 329-337
Boim, A.G.F., Melo, L.C.A., Moreno, F.N., Alleoni, L.R.F. (2016) Bioconcentration factors and the risk concentrations of potentially toxic elements in garden soils. Journal of Environmental Management, 170: 21-27
Bon, H., Parrot, L., Moustier, P. (2010) Sustainable urban agriculture in developing countries. A review. Agronomy for Sustainable Development, 30(1): 21-32
Cheng, Z., Richmond, D.S., Salminen, S.O., Grewal, P.S. (2008) Ecology of urban lawns under three common management programs. Urban Ecosystems, 11(2): 177-195
Cheng, Z., McCoy, E.L., Grewal, P.S. (2014) Water, sediment, and nutrient runoff from urban lawns established on disturbed subsoil or topsoil and managed with inorganic or organic fertilizers. Urban Ecosystems, 17(1): 277-289
Coll, P., le Cadre, E., Blanchart, E., Hinsinger, P., Villenave, C. (2011) Organic viticulture and soil quality: A long-term study in Southern France. Applied Soil Ecology
Davies, B.E. (1995) Lead. u: Alloway B.J. [ur.] Heavy Metals in Soils, Blackie and Son Ltd
Dozet, D., Nešić, L., Belić, M., Bogdanović, D., Ninkov, J., Zeremski, T., Dozet, D., Banjac, B. (2011) Origin and content of nickel in alluvial-diluvial soils of Srem, Serbia. Ratarstvo i povrtarstvo, vol. 48, br. 2, str. 369-374
Edmondson, J.L., Davies, Z.G., Gaston, K.J., Leake, J.R. (2014) Urban cultivation in allotments maintains soil qualities adversely affected by conventional agriculture. Journal of Applied Ecology, 51(4): 880-889
Egner, H., Riehm, H. (1955) Die Untersuchung von Böden. Radebeul-Berlin, Germany: Neumann Verlag, Thun R, Herrmann R, Knickmann E (Eds.), pp. 110-125
Eigenbrod, C., Gruda, N. (2015) Urban vegetable for food security in cities. A review. Agronomy for Sustainable Development, 35(2): 483-498
FAO Committee on Agriculture (1997) u: 15th Session COAG/99/10, X0076 Urban and Peri-Urban Agriculture, http://www.fao.org/unfao/bodies/coag/coag15/X0076e.htm
Gregory, M.M., Leslie, T.W., Drinkwater, L.E. (2016) Agroecological and social characteristics of New York city community gardens: contributions to urban food security, ecosystem services, and environmental education. Urban Ecosystems, 19(2): 763-794
Hamilton, A.J., Burry, K., Mok, H., Barker, S., Grove, J.R., Williamson, V.G. (2014) Give peas a chance? Urban agriculture in developing countries. A review. Agronomy for Sustainable Development, 34(1): 45-73
Hinsenveld, M. (1991) Dutch ABC-reference list for soil and groundwater contamination: 4th revised version of the Guidelines Soil Remediation. u: Innovative techniques for treatment of contaminated soils and sediments, Cincinnati: University of Cincinnati - Dep. of Civil and Environm. Engineering, 85-90
Horváth, A., Szűcs, P., Bidló, A. (2015) Soil condition and pollution in urban soils: evaluation of the soil quality in a Hungarian town. Journal of Soils and Sediments, 15(8): 1825-1835
Houskova, B., Montanarella, L. (2006) Parent material as a source of natural background values in soils. European Commission-Joint Research Centre
Jim, C.Y. (1998) Physical and chemical properties of a Hong Kong roadside soil in relation to urban tree growth. Urban Ecosyst, 2, 171-181
Joimel, S., Cortet, J., Jolivet, C.C., Saby, N.P.A., Chenot, E.D., Branchu, P., Consalès, J.N., Lefort, C., Morel, J.L., Schwartz, C. (2016) Physico-chemical characteristics of topsoil for contrasted forest, agricultural, urban and industrial land uses in France. Science of The Total Environment, 545-546: 40-47
Karanja, N., Njenga, M., Prain, G., Kangethe, E., Kironchi, G., Githuku, C., Kinyari, P., Mutua, G.K. (2010) Assessment of environmental and public health hazards in wastewater used for urban agriculture in Nairobi Kenya. Tropic Subtropic Agroecosyst, 12, 85-97
Kastori, R. (1993) Teški metali i pesticidi u zemljištu Vojvodine. Novi Sad: Poljoprivredni fakultet Novi Sad-Institut za ratarstvo i povrtarstvo
Komárek, M., Čadková, E., Chrastný, V., Bordas, F., Bollinger, J. (2010) Contamination of vineyard soils with fungicides: A review of environmental and toxicological aspects. Environment International, 36(1): 138-151
Merrington, G., Rogers, S.L., van Zwieten, L. (2002) The potential impact of long-term copper fungicide usage on soil microbial biomass and microbial activity in an avocado orchard. Australian Journal of Soil Research, 40-5,749-759
Mihailović, A., Budinski-Petković, Lj., Popov, S., Ninkov, J., Vasin, J., Ralević, N.M., Vučinić, V.M. (2015) Spatial distribution of metals in urban soil of Novi Sad, Serbia: GIS based approach. Journal of Geochemical Exploration, 150: 104-114
Milić, S., Vasin, J., Ninkov, J., Zeremski, T., Brunet, B., Sekulić, P. (2011) Fertility of privately owned plowland used for field crop production in Vojvodina, Serbia. Ratarstvo i povrtarstvo, vol. 48, br. 2, str. 359-368
Mirlean, N., Roisenberg, A., Chies, J.O. (2005) Copper-based fungicide contamination and metal distribution in Brazilian grape products. Bulletin of Environmental Contamination and Toxicology, 75(5): 968
Mirlean, N., Roisenberg, A., Chies, J.O. (2007) Metal contamination of vineyard soils in wet subtropics (Southern Brazil). Environmental Pollution, 149(1): 10
Mok, H., Williamson, V.G., Grove, J.R., Burry, K., Barker, S., Hamilton, A.J. (2014) Strawberry fields forever? Urban agriculture in developed countries: a review. Agronomy for Sustainable Development, 34(1): 21-43
Murray, H., Pinchin, T.A., Macfie, S.M. (2011) Compost application affects metal uptake in plants grown in urban garden soils and potential human health risk. Journal of Soils and Sediments, 11(5): 815-829
Ninkov, J., Paprić, Đ., Sekulić, P., Zeremski-Škorić, T., Milić, S., Vasin, J., Kurjački, I. (2012) Copper content of vineyard soils at Sremski Karlovci (Vojvodina Province, Serbia) as affected by the use of copper-based fungicides. International Journal of Environmental Analytical Chemistry, 92(5): 592-600
Orsini, F., Kahane, R., Nono-Womdim, R., Gianquinto, G. (2013) Urban agriculture in the developing world: a review. Agronomy for Sustainable Development, 33(4): 695-720
Paoletti, M.G., Sommaggio, D., Favretto, M.R., Petruzeelli, G., Pezzarossa, B., Barbafieri, M. (1998) Earthworms as useful bioindicators of agroecosystem sustainability in orchards and vineyards with different inputs. Applied Soil Ecology, 10(1-2): 137
Pfeifer, L.R., Bennett, E.M. (2011) Environmental and social predictors of phosphorus in urban streams on the Island of Montréal, Québec. Urban Ecosystems, 14(3): 485-499
Probst, B., Schüler, C., Joergensen, R.G. (2008) Vineyard soils under organic and conventional management-microbial biomass and activity indices and their relation to soil chemical properties. Biology and Fertility of Soils, 44(3): 443-450
Ralev, J., Pucarević, M., Vasin, J. (2003) Kvalitet zemljišta za organsku proizvodnju povrća u Vojvodini. Journal of Scientific Agricultural Research, vol. 64, br. 3-4, str. 179-185
Sekulić, P., Ninkov, J., Zeremski-Škoric, T., Vasin, J., Milić, S., Lazić, N., Vujić, B. (2011) Monitornig quality of Vojvodina soils. JRC Scientific and Technical Reports, EUR 24889 EN-2011: Soil Protection Activities and Soil Quality Monitoring in South Estern Europe, 119-126
Sharma, K., Basta, N.T., Grewal, P.S. (2015) Soil heavy metal contamination in residential neighborhoods in post-industrial cities and its potential human exposure risk. Urban Ecosystems, 18(1): 115-132
Smit, J., Ratta, A., Bernstein, J. (1996) Urban agriculture: Food, jobs and sustainable cities. New York: United Nations Developing Programme, 302
Škrbić, B., Đurišić-Mladenović, N. (2013) Distribution of heavy elements in urban and rural surface soils: the Novi Sad city and the surrounding settlements, Serbia. Environmental Monitoring and Assessment, 185(1): 457-471
Taylor, J.R., Lovell, S.T. (2014) Urban home food gardens in the Global North: research traditions and future directions. Agriculture and Human Values, 31(2): 285-305
Trammell, T.L.E., Schneid, B.P., Carreiro, M.M. (2011) Forest soils adjacent to urban interstates: Soil physical and chemical properties, heavy metals, disturbance legacies, and relationships with woody vegetation. Urban Ecosystems, 14(4): 525-552
Vavoulidou, E., Avramides, E.J., Papadopoulos, P., Dimirkou, A., Charoulis, A., Konstantinidou‐Doltsinis, S. (2005) Copper Content in Agricultural Soils Related to Cropping Systems in Different Regions of Greece. Communications in Soil Science and Plant Analysis, 36(4-6): 759-773
WRB IUSS Working Group (2014) World reference base for soil resources: International soil classification system for naming soils and creating legends for soil maps. u: World Soil Resources Reports, Rome: FAO, No. 106
Yesilonis, I.D., Pouyat, R.V., Russell-Anelli, J., Powell, E. (2016) The effects of landscape cover on surface soils in a low density residential neighborhood in Baltimore, Maryland. Urban Ecosystems, 19(1): 115-129
Živković, B. (1972) Pedološka karta SAP Vojvodine 1: 50 000. Novi Sad