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Vol. 23 No. 4 (2013)

Articles

Analysis of growth and development of blue honeysuckle (Lonicera caerulea L. var. kamtschatica Sevast.) seedlings in in vitro culture

Submitted: May 20, 2019
Published: 2013-12-29

Abstract

The aim of the study was to determine the suitability of in vitro culture for the selection of seedlings derived from two blue honeysuckle cultivars ‘Atut’ and ‘Czelabinka’. The usefulness of in vitro culture for genetic and breeding work within this species was assessed on the basis of an analysis of growth and development of seedlings grown on medium Murashige and Skoog (MS) supplemented with cytokinins. The addition of this group of growth regulators was to assist in removing endogenous cytokinin apical bud dominance and thereby stimulate the shoots of seedlings for propagation. Two types of cytokines – 6-benzyladenine (BA) and kinetin (KIN) – at the concentrations of 4 and 2 mg · dm-3, respectively, were applied. During the culture, differentiation was observed in the growth and development of seedlings in the two populations of progeny. Shoots longer than 15 mm accounted for more than 60% in both populations. Among seedlings of cultivar ‘Atut’, the highest contribution of shoots with 5–10 leaves was observed on the MS medium supplemented with kinetin, while in the seedling population of cultivar ‘Czelabinka’ – on the medium supplemented with BA. The roots produced during the culture by both seedling populations showed various degrees of development. The seedlings of cultivar ‘Atut’ produced a greater number of roots, but the roots were short, while the seedlings of cultivar ‘Czelabinka’ produced fewer roots reaching the length of more than 5.0 mm. The obtained results may arise from genetic variation of the segregating progeny populations of seedlings, which would be due to the allogamy of the species. The studies are contributory and only indicate the potential use of in vitro selection within the species. Therefore, further experimental work should be carried out to determine the optimal conditions for efficient selection and breeding of blue honeysuckle in in vitro culture.

References

Dyrda D.E., Dziadczyk P., Hortyński J., 2001. Wpływ NaCl na wzrost siewek poziomkówki indyjskiej (Fragaria indica Andr., syn. Duchesnea indica). Folia Hortic., 13 (1A), 2–14.

Dziadczyk P., Kiszczak W., Tyrka M., Łaba M., Diufer K., 2005. Evaluation of strawberry (Fragaria × ananassa Duch.) cultivar’s salt stress tolerance on the basis of S1 seeds in vitro germination. J. Food, Agric. Environ. 3 (2), 275–281.

Dziadczyk P., Supryn-Sweklej S., Hortyński J., 1998. Evaluation of Fragaria vesca salt resistance clones. Acta Physiol. Plant. 20 (3) supl., 17.

Dziedzic E., 2008. Propagation of blue honeysuckle (Lonicera caerulea var. kamtschatica Pojark.) in in vitro culture. J. Fruit Ornam. Plant Res. 16, 93–100.

Dziedzic E., 2009. Effect of culture form, sucrose and iron on blue honeysuckle shoot proliferation. Zesz. Probl. Postęp. Nauk Rol. 536, 73–80.

Hummer K.E., 2006. Blue honeysuckle: a new berry crop for North America. J. Am. Pomol. Soc.

60 (1), 3–8.

Jagła J., 2006. Rozmnażanie jagody kamczackiej, aktinidii, róży i świdośliwy w kulturach in vitro.

W: XLIV Ogólnopolska konferencja sadownicza, Skierniewice, 30–31 sierpnia, 76–77.

Jankiewicz L.S. (red.), 1997. Regulatory wzrostu i rozwoju roślin. T. 1. Właściwości i działanie.

Wyd. Nauk. PWN.

Jurikova T., Rop O., Mlcek J., Sochor J., Balla S., Szekeres L., Hegedusova A., Hubalek J., Adam V., Kizek R., 2012. Phenolic profile of edible honeysuckle berries (Genus Lonicera) and their biological effects. Molecules 17, 61–79.

Karhu S.K., 1997a. Axillary shoot proliferation of blue honeysuckle. Plant Cell Tissue Organ Cult.

48, 195–201.

Karhu S.K., 1997b. Rooting of blue honeysuckle microshoots. Plant Cell Tissue Organ Cult. 48, 153–159.

Karhu S.K., 2003. Performance of Lonicera microcuttings as affected by mineral nutrients and genotype. Acta Hortic. 616, 181–183.

Miyashita T., Ohashi T., Shibata F., Araki H., Hoshino Y., 2009. Plant regeneration with maintenance of the endosperm ploidy level by endosperm culture in Lonicera caerulea var. emphyllocalyx. Plant Cell Tissue Organ Cult. 98 (3), 291–301.

Murashige T., Skoog F., 1962. A revised medium for rapid growth and bioassays with tobacco tissue cultures. Physiol. Plant. 15, 473–497.

Qu G., Huang L., Huo J., 2008. Regeneration of blue honeysuckle via dormant axillary buds.

J. Northeast Agric. Univ. 15 (2), 9–11

Sedlák J., Paprštein F., 2007. In vitro propagation of blue honeysuckle. Hortic. Sci. (Prague) 34 (4), 129–131.

Smolik M., Ochmian I., Grajkowski J., 2010. Genetic variability of Polish and Russian accessions of cultivated blue honeysuckle (Lonicera caerulea). Russ. J. Genet. 46 (8), 960–966.

Svarcova I., Heinrich J., Valentova K., 2007. Berry fruits as a source of biologically active compounds: The case of Lonicera caerulea. Biomed. Pap. Med. Fac. Univ. Palacky Olomouc Czech Repub. 151 (2), 163–174.

Szopa J., Kostyń K., 2006. Kultury komórkowe i rośliny transgeniczne w biotechnologii. Biotechnologia 4 (75), 7–17.

Szot I., Lipa T., 2013. Estimating the fruit quality after application the pruning of blue honeysuckle bushes. Mod. Phytomorphol. 4, 51–54.

Thompson M.M., Barney D.L., 2007. Evaluation and breeding of haskap in North America. J. Am.

Pomol. Soc. 61 (1), 25–33.

Zimoch-Guzowska E., Gołębiewska M., 2011. Wykorzystanie biotechnologii przez polską hodowlę roślin. Biul. IHAR 259, 121–129.

Żebrowska J.I., 2011. Efficacy of resistance to Verticillium wilt in strawberry (Fragaria × ana- nassa Duch.) tissue culture. Acta Agrobot. 64 (3), 3–12.

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