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Autor
Bąbelewski Przemysław (Wrocław University of Environmental and Life Sciences), Pancerz Magdalena (Wrocław University of Environmental and Life Sciences)
Tytuł
Influence of Geocomposite Application on Selected Biometric Features of Rosa, White Meidiland' and Berberis Thunbergii, Green Carpet' in the Container Nursery Production
Źródło
Infrastruktura i Ekologia Terenów Wiejskich, 2017, nr II/1, s. 577-585, tab., bibliogr. 18 poz.
Infrastructure and Ecology of Rural Areas
Słowa kluczowe
Produkcja roślinna, Nawożenie gruntów, Wyniki badań
Crop production, Fertilization of land, Research results
Uwagi
summ.
Abstrakt
An innovative technology of superabsorbent application in a form of agrotextile filled with polymer, called geocomposite, is a solution that allows preserving the beneficial effect of using superabsorbents with simultaneous reduction of their negative influence on soil environment. Research was carried out in 2012-2014 on one year old cuttings of Rosa‚ White Meidiland' and Berberis thunbergii ‚Green Carpet' in unheated foil tunnel at the Research Station belonging to the Department of Horticulture at Wrocław University of Environmental and Life Sciences. First factor was the use of geocomposite, while the second was fertilization with full (3 g) and half (1.5 g) dose of Osmocote Plus 3-4M and 3 g of YaraMila Complex fertilizer. The aim of this study was to assess the influence of geocomposite application with the use of fertilizers on selected biometric features and fresh weight of plants. Geocomposite had the positive influence on tested shoots and roots biometric features of Rosa 'White Meidiland' and Berberis thunbergii ‚Green Carpet', on the fresh weight of roots and total of both species, as well as on their root:shoot ratio. In both species there was a tendency to obtain the highest values with 1.5 g Osmocote fertilization. (original abstract)
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Bibliografia
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  1. Agro E., Zheng Y. (2014). Controlled-release fertilizer application rates for container nursery crop production in Southwestern Ontario, Canada. HortSci., 49(11), 1414-1423.
  2. Apostol K.G., Jacobs D.F., Dumroese R.K. (2009). Root desiccation and drought stress responses of bareroot Quercus rubra seedlings treated with a hydrophilic polymer root dip. Plant Soil, 315, 229-240.
  3. Bosiacki M., Kleiber T., Markiewicz B. (2011). Estimation of the growth of selected taxons of ornamental shrubs depending on the fertilization with Osmocote Exact Standard (5-6 M). Nauka Przyroda Technologie, 5(6), #115.
  4. Dehgan B., Yeager T.H., Almira F.C. (1994). Photinia and Podocarpus growth response to a hydrophilic polymer-amended medium. HortSci., 29(6),641-644.
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  6. Ghehsareh M. G., Khosh-Khui M., Abedi-Koupai J. (2010). Effects of superabsorbent polymer on water requirement and growth indices of Ficus benjamina L. 'Starlight'. J. Plant Nutr., 33, 785-795.
  7. http://www.geosap.up.wroc.pl; (access: 21.01.2017)
  8. Islam M.R., Xue X., Mao S., Zhao X. Eneji A.E., Hu Y. (2011). Superabsorbent polymers (SAP) enhance efficient and eco-friendly production of corn (Zea mays L.) in drought affected areas of northern China. Afr. J. Biotechnol., 10(24), 4887-4894.
  9. Kim S., Iyer G., Nadarajah A., Frantz J., Spongberg A. (2010). Polyacrylamide hydrogel properties for horticultural applications. Int. J. Polym. Anal. Charact., 15, 307-318.
  10. Korszun S., Sękowska J, Golcz M. (2005). Wpływ różnych dawek dwóch nawozów Osmocote na wzrost berberysu odmiany 'Profesor Sękowski' uprawianego w pojemnikach. Zeszyty Problemowe Postępu Nauk Rolniczych, 504(1), 423-430.
  11. Oraeel A., Moghadam E.G. (2013). The effect of different levels of irrigation with superabsorbent (SAP) treatment on growth and development of Myrobalm (Prunus cerasifera) seedling. African Journal of Agricultural Research, 8(14), 1813-1816.
  12. Orikiriza L.J.B., Agaba H., Tweheyo M., Eilu G., Kabasa J.D., Hutterman A. (2009). Amending soils with hydrogels increases the biomass of nine tree species under nonwater stress conditions. Clean 37(8), 615-620.
  13. Orzeszyna H., Garlikowski D., Pawłowski A., Lejcuś K. (2006). Results of application of water absorbing geocomposite. Woda Środ. Obsz. Wiej., 6(2), 271-279.
  14. Rad M.H., Assareh M.H., Soltani M. (2010). Response of the root of Eucalyptus camaldulensis Dehnh. To drought stress. J. Forest Poplar Res., 18(2), 285-296.
  15. Sloup J., Salas P. (2010). Effect of Soil Conditioners on the Quality of Nursery Production Proc. 1st IS on Woody Ornamentals, Acta Hort. 885, 355-360.
  16. Tohidi-Moghadam H.R., Shirani-Rad A.H., Nour-Mohammadi G., Habibi D., MashhadiAkbar-Boojar M. (2009). Effect of Super Absorbent Application on Antioxidant Activities in Canola (Brassica napus L.) Cultivars Under Water Stress Conditions. American Journal of agricultural and Biological Sciences, 4(3), 215-223.
  17. Tongo A., Mahdavi A., Sayad E. (2014). Effect of superabsorbent polymer Aquasorb on chlorophyll, antioxidant enzymes and some growth characteristics of Acacia victoriae seedlings under drought stress. Ecopersia, 2(2), 571-583.
  18. Wróblewska K., Dębicz R., Bąbelewski P. (2012). The influence of water sorbing geocomposite and pine bark mulching on growth and flowering of some perennial species. Acta Sci. Pol., Hortorum Cultus, 11(2). 203-216.
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ISSN
1732-5587
Język
eng
URI / DOI
http://dx.medra.org/10.14597/infraeco.2017.2.1.044
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