Abstract
One of the requirements for early and profitable fruit cropping is the quality of trees used for orchard establishment. Nursery tree quality is influenced by many factors, among which the method of tree propagation plays an important role. In these experiments, the knip-boom (KB) trees produced in the 3-year cycle, from either sleeping buds (B) or bench-grafts (G), were compared in terms of tree quality parameters. B-trees outperformed G-trees in trunk diameter, total shoot extension, and in the number of shoots > 10 cm. No significant differences were found in such features as tree height, apical dominance and the percent of the number of shoots suitable for tree training. Studies on spatial configuration of lateral shoots and their length did not show any essential differences in
the shape of canopy between both tree types. However, lateral shoots of B-trees were significantly longer than those of G-trees. Linear correlations between different quality characteristics in both types of trees demonstrated greater strength of either positive or negative correlations in G-compared with B-trees. We have not found any essential differences between B- and G-trees in nursery tree performance; therefore for a full evaluation of the trees produced by either method of propagation should be based on the analysis of nursery production economics and orchard performance of the trees (B and G) used.
References
Ananda S.A., Negi K.S., 1998. Chip budding in deciduous fruit trees. Agr. Rev. (Karnal) 19, 1, 1–5.
Berg van den A., 2003. Certified nursery tree production in Holland. Compact Fruit Tree 20, 230–231.
Bielicki P., Czynczyk A., Nowakowski S., 2004. Wzrost i owocowanie jabłoni odmiany ‘Szampion’ w zależności od użytego materiału szkółkarskiego. Folia Univ. Agr. Stetin. Agricultura 96, 21–24.
Czarnecki B., 1998. Wpływ wysokości przycięcia drzewek w szkółce na ich jakość. Zesz. Nauk. AR Kraków 333, 1, 411–414.
Czynczyk A., 1996. Warunki do produkcji szkółkarskiej drzewek owocowych wysokiej jakości w Polsce. Proc. 1st Inter. Symposium on Nursery Prod. Lublin, 438–60.
Elfving D.C., Visser D.B., 2005. Cyclanilide induces branching in apple trees. HortSci. 40, 119–122.
Gudarowska E., Szewczuk A., 2006. Yielding of apple cv. ‘Fiesta’ and ‘Pinova’ depending on the age of planting material and the methods of its production in a nursery. Sci. Works Lith. Inst. Hort. Horticult. 25, 3, 90–97.
Hartmann H.T., Kester D.E., Davies F.T., Geneve R., 2011. Plant propagation. Principles and practices, 8th Edition, Prentice-Hall Inc., Englewood Cliffs, New Jersey.
Jacyna T., 2007. Growth correlations in apple nursery trees. Annales UMCS, sec. EEE, Horticultura 17, 1, 9–16.
Kowalik M., 2001. Korelacje wzrostowe u jednorocznych okulantów czereśni, gruszy i jabłoni. MS Thesis, AR Lublin.
Lipecki J., Janisz A., 1999. Zależność między cechami charakteryzującymi wzrost okulantów jabłoni. Zesz. Nauk. AR Kraków, 66, 66–72.
Łanczont M., 2004. Korelacje wzrostowe u jednorocznych okulantów śliwy, gruszy i jabłoni. MS Thesis, AR Lublin.
Nicolai J., Nicolai N.J.V., 1998. European trends in apple tree density, rootstocks and tree training. Proc. 41st IDFTA Conf., Pasco, Washington, 1–8.
Ostrowska K., Chełpiński P., 1997. The relationship between growth indices of young apple trees. J. Fruit Ornament. Res. 5, 1, 21–29.
Poniedziałek W., Porębski S., Gąstoł M., 1996. Korelacje między pomiarami fitometrycznymi okulantów odmiany ‘Melrose’ i ‘Gloster’ a ich wzrostem i plonowaniem w sadzie. Proc. 34th Sci. Conf. Fruit Growing, Skierniewice, 1, 101–110.
Rejman A., Makosz E., 1994. Szkółkarstwo roślin sadowniczych. Plantpress, Kraków.
Sadowski A., Lewko J., Dziuban R., 2006. Evaluation on some nursery techniques in the production of „knip-boom” apple trees. Latvian J. Agr. 9, 130–134.
Downloads
Download data is not yet available.