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The aim of the study was to evaluate the effects of increased rates of meat and bone meal (MBM) to the soil on biomass yield, nitrogen (N) and phosphorus (P) content, and their accumulation in above ground biomass Salix viminalis, as well as the content of mineral N and available P forms in the soil. A two-year pot experiment was conducted at Warmia and Mazury University in Olsztyn (north-eastern Poland). Average biomass yield from two seasons of the studies was three higher from MBM treatments comparing to unfertilized control. Higher rates of MBM particularly in the second year showed higher yielding potential compared with mineral fertilizers. Willow biomass harvested from MBM treatments generally showed lower content of studied nutrients than willow from control treatment. It was found that in relation to the control accumulation of N in willow above ground biomass was significantly lower for 0.5% MBM treatment and significantly higher for the treatment with the highest rate (2.0%). The higher accumulation of P was found in the second year after MBM application, except treatment with the lowest MBM rate. Correlation coefficients values indicated that there is a relation between MBM rate and content of mineral N and available P in soil.
Słowa kluczowe
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Rocznik
Tom
Strony
248--254
Opis fizyczny
Bibliogr. 27 poz., tab., rys.
Twórcy
autor
- Department of Agricultural Chemistry and Environmental Protection, University of Warmia and Mazury in Olsztyn, Oczapowskiego 8 Str., 10-718 Olsztyn, Poland
autor
- Department of Agricultural Chemistry and Environmental Protection, University of Warmia and Mazury in Olsztyn, Oczapowskiego 8 Str., 10-718 Olsztyn, Poland
autor
- Department of Agricultural Chemistry and Environmental Protection, University of Warmia and Mazury in Olsztyn, Oczapowskiego 8 Str., 10-718 Olsztyn, Poland
autor
- Department of Agricultural Chemistry and Environmental Protection, University of Warmia and Mazury in Olsztyn, Oczapowskiego 8 Str., 10-718 Olsztyn, Poland
Bibliografia
- 1. Arvanitoyannis I.S., Ladas D. 2008. Meat waste treatment methods and potential uses. International Journal of Food Science and Technology, 43, 543–559.
- 2. Baethen W.R., Alley M.M. 1989. A manual colorimetric procedure for measuring ammonium nitrogen in soil and plant Kjeldahl digests. Communications in Soil Science and Plant Analysis, 20, 961–969.
- 3. Bentsen N.S., Felby C. 2012. Biomass for energy in the European Union a review of bioenergy resource assessments. Biotechnology for Biofuels, 5(1), 25.
- 4. Berndes G.M., Hoogwijk R., van den Broek R. 2003. The contribution of biomass in the future global energy supply: a review of 17 studies. Biomass Bioenergy 25(1), 1–28.
- 5. Chaves C., Canet R., Albiach R., Marin J., Pomares F. 2005. Meat and bone meal: fertilizing values and rates of nitrogen mineralization. Nutrient and Carbon Cycling in Sustainable Plant-Soil Systems, 1(6–9), 177–180.
- 6. Dimitriou I., Aronsson P. 2011. Wastewater and sewage sludge application to willows and poplars grown in lysimeters-plant response and treatment efficiency. Biomass Bioenergy, 35(1), 161–170.
- 7. Jeng A., Haraldsen T.K., Vagstad N., Grønlund A. 2004. Meat and bone meal as nitro gen fertilizer to cereals is Norway. Agricultural and Food Science, 13, 268–275.
- 8. Jeng A.S., Haraldsen T.K., Grønlund A., Pedersen P.A. 2006. Meat and bone meal as nitrogen and phosphorus fertilizer to cereals and rye grass. Nutrient Cycling in Agroecosystems, 76, 183–191.
- 9. Jeng A.S., Vagstad N. 2009. Potential nitrogen and phosphorus leaching from soils fertilized with meat and bone meal. Acta Agriculturae Scandinavica, Section B-Soil & Plant Science, 59(3), 238–245.
- 10. Kalembasa D., Szczukowski S., Cichuta R., Wysokiński A. 2006. The yield of biomass and content of nitrogen in willow (Salix viminalis) at different nitrogen fertilization rate. Pamiętnik Puławski, 142, 171–178.
- 11. Kauter D., Lewandowski I., Claupein W. 2001. Pappeln in Kurzumtriebswirtschaft: Eigenschaften und Qualitätsmanagement bei der Festbrennstoffbereitstellung-Ein Überblick. Pflanzenbauwissenschaften, 5, 64–74.
- 12. Klasa A., Księżniak A., Szałański W. 2008. Estimation of the effects of mycorrhizal fungi application of yield and chemical composition of above ground biomass of short rotation willow. Pamiętnik Puławski, 148, 25–36.
- 13. Mondini C., Cayuela M.L., Sinicco T., Sanchez- Monedero M.A., Bertolone E., Bardi L. 2008. Soil application of meat and bone meal. Short-term effects on mineralization dynamics and soil biochemical and microbiological properties. Soil Biology & Biochemistry, 40, 462–474.
- 14. Mortensen J., Nielsen K.H., Jorgensen U. 1998. Nitrate leaching during establishment of willow (Salix viminalis) on two soil types and at two fertilization levels. Biomass Bioenergy, 15(6), 457–466.
- 15. Nogalska A. 2013. Changes in the soil nitrogen content caused by direct and residual effect of meat and bone meal. Journal of Elementology, 18(4), 659–671.
- 16. Nogalska A., Chen L., Sienkiewicz S., Nogalski Z. 2014. Meat and bone meal as nitrogen and phosphorus supplier to cereals and oilseed rape. Agricultural and Food Science, 23(1), 19–27.
- 17. Nogalska A., Skwierawska M., Nogalski Z., Kaszuba M. 2013. The effect of increasing doses of meat and bone meal (MBM) applied every second year on maize grown for grain. Chilean Journal of Agricultural Research, 73(4), 430–434.
- 18. Nogalska A., Zalewska M. 2013. The effect of meat and bone meal on phosphorus concentrations in soil and crop plants. Plant, Soil and Environment, 59(12), 575–580.
- 19. Nowak D., Jasiewicz Cz., Kwaśniewski D. 2012. Influence of mineral fertilizer and compost on yield and chemical composition of willow. Inżynieria Rolnicza, 4(139), 295–301.
- 20. Panak H. 1997. Metodical Guide to Agricultural Chemistry. Wydawnictwo ART, Olsztyn.
- 21. Quaye A.K., Volk T.A., Hafner S., Leopold D.J., Schirmer C. 2011. Impacts of paper sludge and manure on soil and biomass production of willow. Biomass Bioenergy, 35(7), 2796–2806.
- 22. Spychaj-Fabisiak E., Kozera W., Majcherczak E., Ralcewicz M., Knapkowski T. 2007. Evaluation of light soil fertility after the application of organic waste and manure. Acta Scientiarum Polonorum, Agricultura, 6(3), 69–76.
- 23. Stępień A., Szymczyk S. 2009. Application of meat and bone meals in agricultural ecosystems and their effect on the aquatic environment. Ecosystems and Sustainable Development VII. WIT Transactions on Ecology and the Environment, 122, 449–457.
- 24. Stępień A., Wojtkowiak K. 2013. Composition of gluten proteins in spring and winter wheat grain cultivated under conditions of varied fertilization. Acta Agriculturae Scandinavica, Section B – Soil & Plant Science, 63(7), 588–594.
- 25. Szczukowski S., Tworkowski J., Stolarski M., Sobotka W. 2001. Biomass from short rotation willow plantations as a source of environmentally friendly fuel. Zeszyty Problemowe Postępów Nauk Rolniczych, 477, 187–193.
- 26. Ylivainio K, Uusitalo R, Turtola E. 2008. Meat bone meal and fox manure as P sources for ryegrass (Lolium multiflorum) grown on a limed soil. Nutrient Cycling in Agroecosystems, 81, 267–278.
- 27. Valenzuela H.R., Goo T., Randall H., Hamasaki R.H., Radovich T. 2000. The effect of bone meal on the yield of jicama. Pachyrhizus Erosus in Oahu Hawaii. Proceedings of the Florida State Hortticultural Society, 113, 222–226.
Uwagi
PL
Opracowanie ze środków MNiSW w ramach umowy 812/P-DUN/2016 na działalność upowszechniającą naukę.
Typ dokumentu
Bibliografia
Identyfikator YADDA
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