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Tytuł artykułu

Biochemical and chemical indices of soil transformations on goose farms in years 1996–2011

Treść / Zawartość
Identyfikatory
Warianty tytułu
PL
Biochemiczne i chemiczne wskaźniki przeobrażeń gleb na terenie ferm gęsi w latach 1998–2011
Języki publikacji
EN
Abstrakty
EN
The paper presents characterisation of the eco-chemical condition and potential threats to soils of goose farms on the basis of recent monitoring of a 15-year measuring cycle. It was demonstrated that the observed soil enzymatic inactivation progressing with years of investigations on the examined farms was significantly associated with a very high content of mineral nitrogen and available forms of phosphorus. A distinct tendency towards increased content of heavy metals in soils derived from these farms as well as in their direct neighbourhood observed with the passage of time poses a serious hazard to the environment.
PL
W pracy przedstawiono charakterystykę ekochemicznego stanu i potencjału zagrożenia gleb na terenie ferm gęsi, na podstawie monitoringu obejmującego dotychczasowy, 15-letni cykl pomiarowy. Wykazano, że postępująca z upływem lat badań inaktywacja enzymatyczna gleb na fermach wiązała się istotnie z bardzo wysoką zawartością azotu mineralnego i przyswajalnych form fosforu. Obserwowana z upływem czasu wyraźna tendencja do wzrostu zawartości metali ciężkich w glebach na fermach i w ich bezpośrednim sąsiedztwie stanowi poważne zagrożenie dla środowiska.
Rocznik
Strony
80--85
Opis fizyczny
Bibliogr. 18 poz., tab.
Twórcy
  • University of Life Sciences in Lublin, Poland Institute of Soil Science and Environment Shaping
  • Poznań University of Life Sciences, Poland Department of Agricultural Microbiology
Bibliografia
  • [1] Abrahams, P.W. & Steigmajer, J. (2003). Soil ingestion by sheep grazing in the metal enriched floodplain soils of mid-wales, Environmental Geochemistry and Health, 25, pp. 17-26.
  • [2] Ajorlo, M., Abdullah, R.B., Hanif, A.H.M., Halim, R.A. & Yusoff, M.K. (2010). How cattle grazing influences heavy metal concentrations in tropical pasture soils, Polish Journal of Environmental Studies, 19, 5, pp. 895-902.
  • [3] Bandick, A.K. & Dick, R.P. (1999). Field management effects on soil enzyme activities, Soil Biology & Biochemistry, 31, pp. 1471-1479.
  • [4] Baran, S., Oleszczuk, P., Lesiuk, A. & Baranowska, E. (2002). Trace metals and polycyclic aromatic hydrocarbons in the surface sediment samples from the River Narew (Poland), Polish Journal of Environmental Studies, 11, pp. 299-308.
  • [5] Bielińska, E.J. & Ligęza, S. (2006). Changes of enzymatic activity of soils in a catchment basin of a mesotrophic lake (differences after 20 years), Polish Journal of Environmental Studies, 15, 5d, pp. 271-275.
  • [6] Bielińska, E.J. & Mocek-Płóciniak, A. (2012). Impact of the tillage system on the soil enzymatic activity, Archives of Environmental Protection, 38, 1, pp. 75-82.
  • [7] Bielińska, E.J. & Pranagal, J. (2007). Enzymatic activity of soil contaminated with triazine herbicides, Polish Journal of Environmental Studies, 16, 2, pp. 295-300.
  • [8] Brankov, J., Miliašević, D. & Milanović, A. (2012). The assessment of the surface water quality using the water pollution index: a case study of the Timok river (the Danube river basin), Serbia, Archives of Environmental Protection, 38, 1, pp. 49-55.
  • [9] Castaldi, P., Melis, P., Silvetti, M., Deiana, P. & Garau, G. (2009). Influence of pea and wheat growth on Pb, Cd, and Zn mobility and soil biological status in a polluted amended soil, Geoderma, 117, pp. 53-61.
  • [10] De Boer, W., Klein Gunnewiek, P.J.A. & Troelstra, S.R. (1990). Nitrification in Dutch heath soils, ii characteristics of nitrate production, Plant Soil 127, pp. 193-199.
  • [11] Domżał, H. & Bielińska, E.J. (1997). Influence of cultivation and fertilization on the enzymatic activity and contents of active mineral nitrogen forms, Polish Journal of Soil Science, 30/2, pp. 23-28.
  • [12] Egli, M., Sartori, G., Mirabella, A., Giaccai, D., Favilli, F., Scherrer, D., Krebs, R. & Delbos, E. (2010). The influence of weathering and organic matter on heavy metals liability in silicatic alpine soils, Science of The Total Environment, 408, pp. 931-938.
  • [13] Gostkowska, K., Furczak, J., Domżał, H. & Bielińska, E.J. (1998). Suitability of some biochemical and microbiological tests for the degradation degree of podzolic soil on the background of it differentiated usage, Polish Journal of Soil Science, 30 (2), pp. 69-78.
  • [14] Headley, A.D. (1996). Heavy metal concentrations in peat profiles from the high arctic, Science of The Total Environment, 177 (1-3), pp. 105-111.
  • [15] ISO 10390 (2002). International Standard Organization. Soil quality - Determination of pH.
  • [16] ISO 14255 (1998). International Standard Organization. Soil quality - Determination of nitrate nitrogen, ammonia nitrogen and total soluble nitrogen in air-dry soils.
  • [17] ISO 11263 (1994). International Standard Organization. Soil quality -Determination of phosphorus.
  • [18] Janowska, E. & Czępińska-Kamińska, D. (2004). Trace elements dynamics in the upper soil horizons of the Puszcza Kampinoska biosphere reserve, Polish Journal of Environmental Studies, 13, pp. 367-372.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-0b2da78c-19b5-4aee-b28e-0babbc3cd885
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