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Vol. 7 No. 1 (2008)

Articles

THE EFFECT OF NITROGEN FERTILIZER FORM ON THE CONTENT OF SIXTEEN ELEMENTS IN RED CABBAGE

Submitted: February 16, 2021
Published: 2008-03-31

Abstract

Various forms of nitrogen fertilizer were applied in the cultivation of red cabbage (in the years 2003–2005), ‘Langendijker’ c.v.: control (unfertilized with nitrogen), Ca(NO3)2, (NH4)2SO4, NH4NO3, CO(NH2)2 applied as solid fertilizers. This experiment aimed at determining the influence of various nitrogen forms on the content of Al, B, Cd, Co, Cr, Cu, Fe, Li, Mn, Mo, Ni, Pb, Sr, Ti, Zn, V in cabbage heads and the changes in the content of the available form of these elements for plants in soil after cabbage cultivation. The heads of plants fertilized with calcium nitrate and urea were characterized by the highest content of Al, Mn, Sr, Zn, Cd and Mo. Urea caused a significant increase in the content of Cu, Li and V, while ammonium nitrate resulted in an elevated level of Fe and Co accumulation in cabbage heads. Fertilization with (NH4)2SO4 led to a substantial decrease in the content of Al, Mo and V, and fertilization with NH4NO3 caused a decline in Sr concentrations in cabbage in comparison with other objects of the experiment. Each nitrogen fertilizer resulted in the decreased concentrations of Ti in cabbage heads. Applied nitrogen fertilizers significantly influenced the contents of readily soluble forms of B, Fe
and Pb in soil after cabbage cultivation.

References

Czekała J., Jakubus M., 2006. Influence of long-term plant cultivation and nitrogen fertilization on the content of soluble forms of trace elements in a lessive soil. Polish J. Environ. Stud. 15(2a), 36–41.
Diatta J.B., Grzebisz W., 2006. Influence of mineral nitrogen forms on heavy metals mobility in two soils. Polish J. Environ. Stud. 15 (2a), 56–62.
Gambuś F., 1993. Metale ciężkie w wierzchniej warstwie gleb i w roślinach regionu krakowskiego. Zesz. Nauk. AR w Krakowie. Rozp. Habil. 176.
Gębski M., 1998. Czynniki glebowe oraz nawozowe wpływające na przyswajanie metali ciężkich przez rośliny. Post. Nauk Rol. 5, 3–16.
Gębski M., Mercik S., 1997. Effectivenes of fertiliser from in acumulation of zinc, cadmium and lead in lettuce (Lactuca sativa L.) and Red beet (Beta vulgaris var. cicla L.). Ecological aspects of nutrition and alternatives for herbicides in horticulture – Int. Sem. Warsaw, 23–25.
Gorlach E., Mazur T., 2002. Chemia rolna. Wyd. PWN, Warszawa. 347.
Houba V.J.G., van der Lee J.J., Novozamsky I., 1997. Soil analysis procedures, Other Procedures (Soil and Plant analysis, part 5B). Wageningen Agricultural University, The Netherlands, 262 pp.
Howden R., Galdsbrongh P.B., Anderson C.R., Cobbet C.S., 1995. Cadmium sensitive cad1 mutants of Arabidopsis thaliana are phytochelatin deficient. Plant Physiol. 101, 1059–1066.
Jędrzejczak R., 1991. Determination of the content of arsenic, lead, copper, zinc and tin in bottled fruit, fruit pulp and jams by the method atomic absorption spectrophotometry /AAS/. Prace Inst. i Lab. Bad. Przem. Spoż. 43, 31–41.
Juliastuti S.R., Baeyens J., Creemers C., Bixio D., Lodewyckx E., 2003. The inhibitory effects of heavy metals and organic compounds on the net maximum specific growth rate of the autotrophic biomass in activated sludge. J. Haz. Mat. 100 (1–3), 271–283.
Jurkowska H., Rogóż A., 1981. Wpływ formy i dawki azotu na zawartość makro i mikroelementów w roślinach część II: Mikroelementy. Acta Agra. Et Silves. Ser. Agraria. 20, 121–131.
Jurkowska H., Wiśniowska-Kielian B., Wojciechowicz T., 1981. Wpływ formy i dawki azotu na zawartość makro i mikroelementów w roślinach. Cz. I: makroelementy. Acta Agraria et Silvestria, Ser. Agraria, 20, 107–120.
Kabata-Pendias A., Pendias H., 1999. Biogeochemia pierwiastków śladowych. Wyd. II. PWN, Warszawa, 398 pp.
Łukowski A., 2006. The influence of mineral fertilization on heavy metal fraction contents in soil. Part I. Polish J. Environ. Stud. 15(2a), 410–414.
Marschner H., 1995. Mineral Nutrition of Higher Plants. Academic Press, London, 889 p.
Nowosielski O., 1988. Zasady opracowywania zaleceń nawozowych w ogrodnictwie. PWRiL, Warszawa, 312 pp.
Rodríguez-Ortíz J.C., Valdez-Cepeda R.D., Lara-Mireles J.L., Rodríguez-Fuentes H., Vázquez-Alvarado R. E., Magallanes-Quintanar R., García-Hernández. J. L., 2006. Soil nitrogen fertilization effects on phytoextraction of cadmium and lead by tobacco (Nicotiana tabacum L.).
Biorem. J. 10 (3), 105–114.
Sady W., Rożek S., 2002. The effect of physical and chemical soil properties on the accumulation of cadmium in carrot. Acta Hort. 571, 73–75.
Sady W., Smoleń S., 2004. Wpływ czynników glebowo-nawozowych na akumulację metali ciężkich w roślinach. Rocz. AR w Poznaniu, XXXCLVI, Ogrodnictwo 37, 269–277.
Sady W., Smoleń S., 2007. Wpływ formy azotu nawozowego na wielkość plonu i zawartość wybranych makroskładników w kapuście czerwonej. Rocz. AR w Poznaniu, CCCLXXXIII, Ogrodnictwo, 41, 595–598.
Smoleń S., Sady W., 2006. The content of Cd, Cu and Zn in carrot storage roots as related to differentiated nitrogen fertilization and foliar nutrition. Polish J. Environ. Stud. 15 (2a), 503–509.
Smoleń S., Sady W., 2007. The effect of nitrogen fertilizer form and foliar application on Cd, Cu and Zn concentrations in carrot. Folia Hort. 19 (1), 87–96.
Tyler G., Olsson T., 2001. Concentrations of 60 elements in soil solution as related to the soil acidity. Europ. J. Soil Sci. 52, 151–165.
Zaccheo P., Crippa L., Di Muzio Pasta V., 2006. Ammonium nutrition as a strategy for cadmium mobilisation in the rhizosphere of sunflower. Plant Soil. 283 (1–2), 43–56.
Zenk M.H., 1996. Heavy metal detoxification in higher plants – a review. Gene. 179, 11–30.
Voegelin A., Kretzschmar R., 2003. Modelling sorption and mobility of cadmium and zinc in soils with scaled exchange coefficients. Europ. J. Soil Sci. 54 (2), 387–400.

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