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Atmospheric Deposition Effects on Agricultural Soil Acidification State — Key Study : Krupanj Municipality

Treść / Zawartość
Identyfikatory
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
Acidification, as a form of soil degradation is a process that leads to permanent reduction in the quality of soil as the most important natural resource. The process of soil acidification, which in the first place implies a reduction in soil pH, can be caused by natural processes, but also considerably accelerated by the anthropogenic influence of excessive S and N emissions, uncontrolled deforestation, and intensive agricultural processes. Critical loads, i.e. the upper limit of harmful depositions (primarily of S and N) which will not cause damages to the ecosystem, were determined in Europe under the auspices of the Executive Committee of the CLRTAP in 1980. These values represent the basic indicators of ecosystem stability to the process of acidification. This paper defines the status of acidification for the period up to 2100 in relation to the long term critical and target loading of soil with S and N on the territory of Krupanj municipality by applying the VSD model. The Inverse Distance Weighting (IDW) geostatistic module was used as the interpolation method. Land management, particularly in areas susceptible to acidification, needs to be focused on well-balanced agriculture and use of crops/seedlings to achieve the optimum land use and sustainable productivity for the projected 100-year period.
Rocznik
Strony
137--148
Opis fizyczny
Bibliogr. 19 poz., rys., tab.
Twórcy
autor
  • Institute of Soil Science, Teodora Drajzera 7, 11 000 Belgrade, Serbia
autor
  • University of Belgrade Faculty of Forestry, Kneza Višeslava 1 11 000 Belgrade, Serbia
autor
  • Institute of Soil Science, Teodora Drajzera 7, 11 000 Belgrade, Serbia
autor
  • University of Belgrade Faculty of Forestry, Kneza Višeslava 1 11 000 Belgrade, Serbia
autor
  • Institute of Soil Science, Teodora Drajzera 7, 11 000 Belgrade, Serbia
  • Republic Hydrometeorological Service of Serbia, Kneza višeslava 66, 11000 Belgrade, Serbia
  • University of Belgrade Faculty of Forestry, Kneza Višeslava 1 11 000 Belgrade, Serbia
Bibliografia
  • [1] Bergholm, J., Berggren, D. & Alavi, G. (2003). Soil Acidification Induced by Ammonium Sulphate Addition in a Norway Spruce Forest in Southwest Sweden, Water, Air and Soil Pollution, 148 (1-4), 87-109.
  • [2] Borůvka, L., Mládková, L., Penížek, V., Drábek, O. & Vašát, R. (2007). Forest soil Acidification Assessment Using Principal Component Analysis and Geostatistics, Geoderma 374-382.
  • [3] Gzyl, J. (1999). Soil Protection in Central and Eastern Europe, Journal of Geochemical Exploration, 66, 333-337.
  • [4] Hall, J., Reynolds, B., Aherne, J. & Hornung, M. (2001). The Importance of Selecting Appropriate Criteria for Calculating Critical Loads for Terrestrial Ecosystems Using the Simple Mass Balance Equation, Water, Air Soil Pollution Focus, 1, 29-41.
  • [5] Hettelingh, J.P., De Vries, W., Schoepp, W., Downing, R.J. & De Smet, P.A.M. (1991). Methods and Data. In Mapping critical loads for Europe, CCE Technical report 1, National Institute of Public Health and the Environment, Netherlands, 31-43.
  • [6] Holowaychuk N. & Fessenden R.J. (1987). Soil sensitivity to acid deposition and the potential of soils and geology in Alberta to reduce the acidity of acidic input, Earth Science Report 87-1, Alberta, Canada 1987.
  • [7] ISO 11277. Soil Quality - Determination of Particle Size Distribution in Mineral Soil Material - Method by Sieving and Sedimentation. International Organization for Standardization. Geneva, Switzerland. 30 p. (available at www.iso.ch)
  • [8] Kuylenstierna, J.C.I., Rodhe, H., Cinderby, S. & Hicks, K. (2001). Acidification in developing countries: ecosystem sensitivity and the critical load approach on a global scale, Ambio, 30, 1, 20-28.
  • [9] Lal, R. (1997). Degradation and resilience of soils, Philosophical Transactions of the Royal Society of London, B 352, 997-1010.
  • [10] Langan S.J., Hall J., Reynolds B., Broadmeadow M., Hornung M., Cresser M.S. (2004). The Development of an Approach to Assess Critical Loads of Acidity for Woodland Habitats in Great Britain, Hydrology and Earth System Sciences, 8, 3, 355-365.
  • [11] Misson, L., Ponette, Q. & André, F. (2001). Regional Scale Effects of Base Cation Fertilization on Norway Spruce and European Beech Stands Situated on Acid Brown Soils, Soil and Foliar Chemistry Annals of Forest Science, 58, 699-712.
  • [12] Mrvić, V., Jakovljević, M., Stevanović, D. & Čakmak, D. (2007). The forms of aluminium in Stagnosols in Serbi, Plant Soil and Environment, 53, 11, 482-489.
  • [13] Nelson, D.W. & Sommers, L.E. (1996). Total carbon, organic carbon, and organic matter, 961-1010. In D.L. Sparks (ed.) Methods of soil analysis, Part 3. SSSA, Madison, WI 1996.
  • [14] Nilsson J. & Grennfelt P. (1988). Critical Levels for Sulphur and Nitrogen, Copenhagen, Denmark, Nordic Council of Ministers 1988.
  • [15] Posch, M. & Reinds, J.G. (2009). A very Simple Dynamic Soil Acidification Model for scenario Analyses and Target Load Calculations, Environmental Modelling & Software, 24, 3, 329-340.
  • [16] Reinds, G.J., Posch, M., De Vries, W. Slootweg, J. & Hettelingh, J.-P. (2008). Critical Loads of Sulphur and Nitrogen for Terrestrial Ecosystems in Europe and Northern Asia Using Different Soil Chemical Criteria, Water Air Soil Pollution, 193, 269-287.
  • [17] Tao, F., Hayashi Y. & Lin, E. (2002). Soil Vulnerability and Sensitivity to Acid Deposition in China, Water, Air, and Soil Pollution, 140, 247-260.
  • [18] Van Rast, E., De Coninck, F., Roskams, P. Vindevoge, N. (2002). Acid-Neutralizing Capacity of Forest Floor and Mineral Topsoil in Flemish Forest (North Belgium), Forest Ecology and Management 166, 45-53.
  • [19] Wiklander L. (1980). The Sensitivity of Soils to Acid Precipitation, In C.T. Hutchinson and M. Havas (ed.) Effects of Acid Precipitation on Terrestrial Ecosystems, 553-567, Plenum Press, New York and London 1980.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-5cbfd4ed-8503-4f42-9263-e5c873fcbf99
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