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The influence of the mixture of vermicompost and sulphur-perlite-containing waste on the yield and the quality of crops

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Identyfikatory
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
Any type of material that increases soil yield, both qualitatively and quantitatively, to strengthen the soil and increase its fertility is called fertilizer. The current study examines the production of a new effective fertilizer. Results presented involve effects of new bioorganic-mineral compositions obtained from the combination of vermicompost and sulphur-containing waste from sulphuric acid production on the yield and quality of tubers (beets, carrots). An increase in the yield of tubers has been found to be 1.13–1.25 times when the bioorganic-mineral composition (~20 Mg∙ha–1) is introduced into the sierozem (serozem) soil. The best results are obtained with mass ratios in the range 30–45 and 55–70 for vermicompost and sulphur-perlite-containing waste, respectively. The effectiveness of the mixture of vermicompost and sulphur-containing waste is explained by the increased synergistic interaction of these components. The proposed composition has high structure-forming, water-retaining, nutritional and biologically active properties.
Wydawca
Rocznik
Tom
Strony
213--218
Opis fizyczny
Bibliogr. 26 poz., tab.
Twórcy
  • Kazakh National Agrarian University, Faculty of Agrobiology, Abay avenue 8, Almaty 050010, Kazakhstan
  • Khoja Akhmet Yassawi International Kazakh-Turkish University, Ecology Research Institute, B. Sattarhanov avenue 29, Turkistan 161200, Kazakhstan
  • Khoja Akhmet Yassawi International Kazakh-Turkish University, Ecology Research Institute, B. Sattarhanov avenue 29, Turkistan 161200, Kazakhstan
  • Khoja Akhmet Yassawi International Kazakh-Turkish University, Ecology Research Institute, B. Sattarhanov avenue 29, Turkistan 161200, Kazakhstan
  • Kazakh National Agrarian University, Faculty of Agrobiology, Abay avenue 8, Almaty 050010, Kazakhstan
  • Muğla Sıtkı Koçman University, Faculty of Science, Turkey
Bibliografia
  • ALVAREZ R. 2005. A review of nitrogen fertilizer and conservation tillage effects on soil organic carbon storage. Soil Use and Management. Vol. 21. Iss. 1 p. 38–52. DOI 10.1111/j.1475-2743.2005.tb00105.x.
  • ANGIN I., ŞAHIN Ü., TUNC T. 2011. Laboratory experiment concerning the use of fly ash as a reclamation material in salinesodic soils. Carpathian Journal of Earth and Environmental Sciences. Vol. 6. Iss. 2 p. 109–114.
  • BASHOUR I.I., SAYEGH A.H. 2007. Methods of analysis for soils of arid and semi-arid regions. Rome, Italy. Food and Agriculture Organization of the United Nations. ISBN 978-92-105661-5 pp. 119.
  • BOINCEAN B., DENT D. 2019. Farming the black earth: Sustainable and climate-smart management of chernozem soils. Springer. ISBN 978-3-030-22533-9 pp. 226.
  • BURZYŃSKA I. 2019. Monitoring of selected fertilizer nutrients in surface waters and soils of agricultural land in the river valley in Central Poland. Journal of Water and Land Development. Vol. 43 p. 41–48. DOI 10.2478/jwld-2019-0061.
  • CHRISTOPHER S.F., LAL R. 2007. Nitrogen management affects carbon sequestration in North American cropland soils. Critical Reviews in Plant Sciences. Vol. 26. No Iss. 1 p. 45–64. DOI 10.1080/07352680601174830.
  • DOMÍNGUEZ J. 2018. Earthworms and vermicomposting. In: Earth-worms the ecological engineers of soil. DOI 10.5772/ intechopen.76088.
  • FEDOTOV G.N., TRET’YAKOV Y.D., DOBROVOL’SKII G.V., PUTLYAEV V.I., PAKHOMOV E.I., FAN’KOVSKAYA A.A., POCHATKOVA T.N. 2006. Water resistance of soil aggregates and gel structures. Doklady Chemistry. Vol. 411. Iss. 3, 215–218 p. 334–337. DOI 10.1134/S0012500806110061.
  • GHOSH P.K., BANDYOPADHYAY K.K., MANNA M.C., MANDAL K.G., MISRA A.K., HATI K.M. 2004. Comparative effectiveness of cattle manure, poultry manure, phosphocompost and fertilizer-NPK on three cropping systems in vertisols of semi-arid tropics. II. Dry matter yield, nodulation, chlorophyll content and enzyme activity. Bioresource Technology. Vol. 95. Iss. 1 p. 85–93. DOI 10.1016/j.biortech.2004.02.012.
  • GOST R 54650-2011. Pochvy. Opredeleniye podvizhnykh soyed-ineniy fosfora i kaliya po metodu Kirsanova v modifikatsii TSINAO [Soils. Determination of mobile phosphorus and potassium compounds by Kirsanov method modified by CINAO]. Moscow. Standartinform Publ. pp. 210.
  • HOFFMANN C.M., KLUGE-SEVERIN S. 2011. Growth analysis of autumn and spring sown sugar beet. European Journal of Agronomy. Vol. 34. Iss. 1 p. 1–9. DOI 10.1016/j.eja.2010. 09.001.
  • KOZHEMYAKO A.V., KISELYOVA T.F., VECHTOMOVA E.A., MONASTYRSKAYA E.A., MITYAKINA O.V. 2019. Development of manufacturing technology of non-waste production of the field vegetable processing. IOP Conference Series: Earth and Environmental Science. IOP Publishing. Vol. 224, 012058.
  • KWIATKOWSKI C.A., JUSZCZAK J. 2011. The response of sweet basil (Ocimum basilicum L.) to the application of growth stimulators and forecrops. Acta Agrobotanica. Vol. 64. Iss. 2 p. 12–29. DOI 10.5586/aa.2011.019.
  • LU C.C., TIAN H. 2017. Global nitrogen and phosphorus fertilizer use for agriculture production in the past half century: shifted hot spots and nutrient imbalance. Earth System Science Data. Vol. 9 p. 181–192. DOI 10.5194/essd-9-181-2017.
  • MAGUGU J.W., FENG S., HUANG Q., OTOTO G.O. 2018. Socio-economic factors affecting agro-forestry technology adoption in Nyando, Kenya. Journal of Water and Land Development Vol. 39 p. 83–91. DOI 10.2478/jwld-2018-0062.
  • MOHAMMADI-SICHANI M.M., ASSADI M.M., FARAZMAND A., KIANIRAD M., AHADI A.M., GHAHDERIJANI H.H. 2017. Bioremediation of soil contaminated crude oil by Agaricomycetes. Journal of Environmental Health Science and Engineering. Vol. 15. Iss. 1, 8. DOI 10.1186/s40201-016-0263-x.
  • MONDAL M.M.A., MALEK M.A., PUTEH A.B., ISMAIL M.R., ASHRAFUZZAMAN M., NAHER L. 2012. Effect of foliar application of chitosan on growth and yield in okra. Australian Journal of Crop Science. Vol. 6. Iss. 5 p. 918–921.
  • MUNROE G. 2007. Manual of on-farm vermicomposting and vermiculture. Organic Agriculture Centre of Canada. Vol. 39 pp. 40.
  • MURGESE P., SANTAMARIA P., LEONI B., CRECCHIO C. 2020. Ameliorative effects of PGPB on yield, physiological parameters, and nutrient transporter genes expression in barattiere (Cucumis melo L.). Journal of Soil Science and Plant Nutrition. Vol. 20 p. 784–793.
  • MUSTAFAYEV M.G. 2015. Criteria for the evaluation of reclamation status of soils in the Mugan-Salyan massif. Journal of Water and Land Development. Vol. 24 p. 21–26. DOI 10.1515/jwld-2015-0003.
  • NOMAN A., ALI Q., NASEEM J., JAVED M.T., KANWAL H., ISLAM W., AQEEL M., KHALID N., ZAFAR S., TAYYEB M. 2018. Sugar beet extract acts as a natural bio-stimulant for physio-biochemical attributes in water stressed wheat (Triticum aestivum L.). Acta Physiologiae Plantarum. Vol. 40. Iss. 6, 110.
  • PAN X.-Y., LI J.-Y., DENG K.-Y., XU R.-K., SHEN R.-F. 2019. Four-year effects of soil acidity amelioration on the yields of canola seeds and sweet potato and N fertilizer efficiency in an ultisol. Field Crops Research. Vol. 237 p. 1–11. DOI 10.1016/j.fcr. 2019.03.019.
  • RAKUTKO S., RAKUTKO E., AVOTINS A., APSE-APSITIS P. 2019. Method and device for measuring stability of plant development by fluctuating asymmetry of optical density of leaves. Engineering for Rural Development Proceedings. 22–24.05.2019 Jelgova p. 1263–1268. DOI 10.22616/ER-Dev2019.18.N548.
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  • YUAN J.-H., SHENG-ZHE E., CHE Z.-X. 2020. The ameliorative effects of low-grade palygorskite on acidic soil. Soil Research. Vol. 58. Iss. 4 p. 411–419. DOI 10.1071/sr19178.
  • ZHANG Y., WANG X., WANG X., LI M. 2019. Effects of land use on characteristics of water-extracted organic matter in soils of arid and semi-arid regions. Environmental Science and Pollution Research. Vol. 26. Iss. 25 p. 26052–26059. DOI 10.1007/ s11356-019-05858-9.
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
Identyfikator YADDA
bwmeta1.element.baztech-6f65f4f9-a47e-48cb-bbbc-37453735cef5
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