The influence of applying purified municipal sewage on nickel content in plants

• Autorzy: Badora A , Filipek T.
• Języki publikacji: EN

Abstrakty

EN

This research evaluated the impact of purified municipal wastes from Lublin on nickel accumulation in tested plants due to varied rates of sewage. Moreover, the fodder value of some plants was estimated. The experiment was localized in Bystrzyca river valley in 1996, covering an 8-hectare area. Studies were carried out on soils: (division) hydrogenic, (type) bog and bog-like, (sub-type) peat-bog and mineralbog. The experimental field was divided into 7 blocks and each block into 3 quarters (a, b c). Sewage was applied at three rates under every cultivation: a – control; b – sewage rate optimum for a given plant (established on a base of N content and water demands); c – double optimum rate. Plant material was randomly collected in July and September 1997. The ability for nickel accumulation in the investigated plants decreased along the sequence: grass mixtures > rape > hemp > maize > poplar (leaves) > willow (leaves).

Słowa kluczowe

EN

sewage water; industralization; urbanization; Poland; municipal sewage; Bystrzyca River; Lublin city; plant; nickel content

• Wydawca: -
• Czasopismo: Polish Journal of Environmental Studies
• Rocznik: 2004
• Tom: 13
• Numer: 4
• Opis fizyczny: p.435-437,fig.,ref.

Twórcy

autor

Badora A

• Agricultural University of Lublin, Akademicka 15, 20-950 Lublin, Poland

autor

Filipek T.

Bibliografia

• 1. CHODAK T, SHEAFFER R, NALBERCZYŃSKI A. Ag­ricultural wastes utilization - amendment of water balance. Zesz Prob Post Nauk Roln; 418, 101, 1995.
• 2. DYGUŚ. S. Wastes utilization as ecological problem. Aura; 5, 12, 1994.
• 3. FILIPEK T. Cadmium content in peat - bog and mineral - bog soils amended with purified municipal sewage from Lublin. Zesz Prob Post Nauk Roln; 448a, 89, 1997.
• 4. FILIPEK T. Report from research project PBZ 31 - 03. „The III0 - level of municipal sewage purification in agroecosystems". In: Filipek T, editor. Lublin,; 17., 1998.
• 5. BARAN S, FLIS - BUJAK M, ŻUKOWSKA G, KWIECIEŃ J, PIETRASIK W, SZCZEPANOWSKA I, ZA­LEWSKI P. Nickel forms in light soil amended with sewage sludge. Zesz Prob Post Nauk Roln; 448a, 21, 1997.
• 6. KABATA - PENDIAS A, PENDIAS H. Biogeochemistry of trace elements. PWN, Warszawa, , 344-355 pp, 1999.
• 7. SPIAK Z. Influence of nickel chemical form on uptake of this element by plants. Zesz Prob Post Nauk Roln.; 448a, 311, 1997.
• 8. MARSCHNER H.. Mineral nutrition of higher plants. Aca­demic press, London, 364-369 pp, 1998.
• 9. KAMIŃSKA W, KARDASZ T., STRAHL Analysis meth­ods in agricultural - chemical stations. IUNG, Puławy, , 33 pp, 1981.
• 10. WOŹNY A. Lead in plant cells.. Sorus, Poznań, , 113-143 pp, 1995.
• 11. BADORA A, OLEK J. : Report from research project PBZ 31 - 03. „The III0 - level of municipal sewage purification in agroecosystems" In: Filipek T, editor. Lublin,; 282-286, 1998.
• 12. KABATA - PENDIAS A, MOTOWICKA - TERELAK T, PIOTROWSKA M, TERELAK H, WITEK T. Estimation of soil and plants contaminated with heavy metals and sulphur. IUNG. Puławy, 1993.
• 13. VAGO I., ZOLTAN G., LOCH J. Comparison of Chromium and nickel uptake of plants grown in different soils. Fresenius J Anal Chem; 345, 714, 1996.