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The study took place between 2012 and 2014 in Falenty near Warsaw, Poland, as part of a long-term scientific experiment (first began in 1987) using the randomized block method. All blocks were irrigated until 2008. In 2009 each block was divided into two areas: irrigated and non-irrigated. The study involved four levels of inorganic nitrogen fertilizer and two levels of mixed inorganic and organic fertilizer in the form of fermented cattle urine. The soil in all experimental plots was characterized by low levels of zinc, ranging from 7.6 to 16.7 mg Zn∙kg–1 dry matter. Much lower Zn content in both soil layers of all irrigated plots was associated with increased yields on these plots, regardless of the level and form of fertilizer. The content of Zn in soil and sward in 2014 year was significantly lower compared in 2012. Inadequate levels of zinc for ruminant nutrition were observed in the sward from all plots (15.4–28.8 mg∙kg–1 dry matter). The higher content of zinc was found in sward harvested from the plot, which was not fertilized with phosphorus. The long-term inorganic and fermented urine fertilization resulted in very low zinc content in the soil and meadow sward.
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61--65
Opis fizyczny
Bibliogr. 23 poz., tab.
Twórcy
autor
- Institute of Technology and Life Sciences, Department of Grassland, Falenty, al. Hrabska 3, 05-090 Raszyn, Poland
autor
- Institute of Technology and Life Sciences, Department of Grassland, Falenty, al. Hrabska 3, 05-090 Raszyn, Poland
autor
- Warsaw University of Life Sciences, Animal Breeding Department, Warsaw, Poland
autor
- Polish Academy of Sciences, Institute of Genetic and Animal Breeding, Jastrzębiec, Poland
Bibliografia
- ALLOWAY B.J. 2008. Zinc in soils and crop nutrition. Brussels–Paris. International Zinc Association, International Fertilizer Industry Association. ISBN 978-90-8133-310-8 pp. 139.
- ALLOWAY B.J. 2009. Soil factors associated with zinc deficiency in crops and humans. Environmental Geochemistry and Health. Vol. 31 (5) p. 537–548. DOI 10.1007/s10653-009-9255-4.
- DOMAŃSKA J. 2009. Soluble forms of zinc in profiles of selected types of arable soils. Journal of Elementology. Vol. 14 (1) p. 55–62.
- GABRYSZUK M., CZAUDERNA M., BARANOWSKI A., STRZAŁKOWSKA N., JÓŹWIK A., KRZYŻEWSKI J. 2007. The effect of diet supplementation with Se, Zn and vitamin E on cholesterol, CLA and fatty acid contents of meat and liver of lambs. Animal Science Papers and Reports. Vol. 25 (1) p. 5–33.
- HAFEEZ B., KHANIF Y.M., SALEEM M. 2013. Role of zinc in plant nutrition – A review. American Journal Experimental Agriculture. Vol. 3 (2) p. 374–391. DOI 10.9734/AJEA/2013/ 2746.
- HUSSAIN S., HUSSAIN M.B., GULZAR A., ZAFAR-UL-HYNE M., AON M., QASWAR M., YASEEN R. 2017. Right time of phosphorus and zinc application to maize depends on nutrient-nutrient and nutrient-inoculum interactions. Soil Science and Plant Nutrition. Vol. 63 (4) p. 351–356. DOI 10.1080/00380768. 2017.1361784.
- KABATA-PENDIAS A. 2010. Trace elements in soils and plants. Boca Raton. CRC Press. ISBN 9781420093681 pp. 548.
- KABATA-PENDIAS A., PENDIAS H. 1999. Biogeochemia pierwiastków śladowych [Biogeochemistry of trace elements]. Warszawa. Wydaw. Nauk. PWN. ISBN 8301128233 pp. 400.
- KREMPER R., ZSIGRAI G., KOVACS A. B., LOCH J. 2015. Long-term effect of high phosphorus doses on zinc status of maize on a non-calcareous loamy soil. Plant, Soil and Environment. Vol. 61 (1) p. 1–5. DOI 10.17221/509/2014-PSE.61.001.
- LEHMANN A., VERESOGLOU S.D., LEIFHEIT E.F., RILLIG M.C. 2014. Arbuscular mycorrhizal influence on zinc nutrition in crop plants – A meta-analysis. Soil Biology and Biochemistry. Vol. 69 p. 123–131. DOI 10.1016/j.soilbio.2013.11.001.
- LIU H., ZHAO P., QIN S., NIE Z. 2018. Chemical fractions and availability of zinc in winter wheat soil in response to nitrogen and zinc combinations. Frontiers in Plant Science. Vol. 9, 1489. DOI 10.3389/fpls.2018.01489.
- LONERAGAN J.F., WEBB M.J. 1993. Interactions between Zn and other nutrients affecting the growth of plants. In: Zinc in soils and plants. Ed. A.D. Robson. Dordrecht. Kluwer Academic Publishers p. 119–151.
- MARSCHNER H. 1998. Mineral nutrition of higher plants. 2nd ed. London. Academic Press. ISBN 9780080571874 pp. 889.
- NRC 2001. Nutrient requirements of dairy cattle. 7th ed. Washington, D.C. National Academies Press. National Research Council. ISBN 978-0-309-06997-7 pp. 405.
- PRADHAN A.K., BEURA K.S., DAS R., PADHAN D., HAZRA G.C., MANDAL B., DE N., MISHRA V.N., POLARA K.B., SHARMA S. 2015. Evaluation of extractability of different extractants for zinc and copper in soil under long-term fertilization. Plant, Soil and Environment. Vol. 61 (5) p. 227–233. DOI 10.17221/971/2014-PSE.
- PRASAD R. 2010. Zinc biofortification of food grains in relations to food security and alleviation of zinc malnutrition. Current Science. Vol. 98 (10) p. 1300–1304.
- RUTKOWSKA B., SZULC W., BOMZE K., GOZDOWSKI D., SPYCHAJ-FABISIAK E. 2015. Soil factors affecting solubility and mobility of zinc in contaminated soils. International Journal of Environmental Science and Technology. Vol. 12 p. 1687–1694. DOI 10.1007/s13762-014-0546-7.
- ŚLOSAR M., MEZEYOVA I., HEGEDUSOVA A., ANDREJIOVA A., KOVACIK P., LOSAK T., KOPTA T., KEUTGEN A. 2017. Effect of zinc fertilisation on yield and selected qualitative parameters of broccoli. Plant, Soil and Environment. Vol. 63 (6) p. 282–287. DOI 10.17221/220/2017-PSE.
- STRACHEL R., ZABOROWSKA M.,WYSZKOWSKA J. 2016. Delibera-tion on zinc – a trace mineral or a toxic element? Journal of Elementology. Vol. 21 (2) p. 625–639. DOI 10.5601/jelem.2 015.20.3.991.
- TILLER K.G. 1989. Heavy metals in soils and their environmental significance. Advances in Soil Science. Vol. 9 p. 113–142.
- WIATER J., ŁUKOWSKI A. 2014. Content of total zinc and its fractions in selected soils in the province of Podlasie. Journal of Elementology. Vol. 3 p. 811–820. DOI 10.5601/jelem.2014. 19.3.703.
- ZHAO X., MULLER C.E. 2015. Macro- and micromineral content of wrapped forages for horses. Grass and Forage Science. Vol. 71 (2) p. 195–207. DOI 10.1111/gfs.12178.
- ZHU Y.G., SMITH S.E., SMITH F.A. 2001. Zinc (Zn) – phosphorus (P) interaction in two cultivars of spring wheat (Triticum aestivum L.) differing in P uptake efficiency. Annals of Botany. Vol. 88 (5) p. 941–945. DOI 10.1006/anbo.2001.1522.
Uwagi
Opracowanie rekordu ze środków MNiSW, umowa Nr 461252 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2021).
Typ dokumentu
Bibliografia
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bwmeta1.element.baztech-26acff0d-3f16-49ba-b94b-1ce5e9be87b0