Evaluation of Stenting for the Propagation of Syringa vulgaris on Ligustrum vulgare Rootstock
Subject Areas : Journal of Ornamental Plants
Mousa Solgi
1
,
Mohammad Sajad Asheghi
2
,
Hossein Bagheri
3
1 - Department of Horticultural Engineering, Faculty of Agriculture and Natural Resources, Arak University, Arak 38156-8-8349, Iran
2 - Department of Horticultural Engineering, Faculty of Agriculture and Natural Resources, Arak University, Arak 38156-8-8349, Iran
3 - Department of Horticultural Engineering, Faculty of Agriculture and Natural Resources, Arak University, Arak 38156-8-8349, Iran
Keywords: Cutting-grafting, Grafting, Ligustrum vulgare, Lilac, Propagation,
Abstract :
Lilac (Syringa vulgaris) is a valuable shrub used in the landscape due to its beautiful leaves and flowers and pleasant fragrance. Grafting of lilac on wild privet (Ligustrum vulgare) was evaluated in this study to reduce the time required for propagation and the use of rootstock. Stenting or simultaneous rooting and grafting is a novel method for propagating of some woody plants. In this research, the stenting technique was applied to propagate lilac for the first time. Two stenting methods (splice and omega) and three concentrations of IBA (0, 1000 and 2000 mg L-1) were evaluated. According to the results, stenting via the splice method significantly increased the percentage of rooted stentings and leafed scions and reduced the rate of dried stentings in comparison to the omega method. The percentage of rootstock callus formation, percentage of leafed scions, and fresh weight of produced roots and shoots were significantly enhanced by application of IBA. The best results were obtained with 2000 mg L-1. In addition, the lowest percentage of dried stenting was observed in this treatment. Also, final success of stenting showed that the use of the splice method and IBA had the highest achievement. In conclusion, the application of 2000 mg L-1 IBA in comparison with splice stenting method is recommended for propagation of Syringa vulgaris.
Babaie, H., Zarei, H. and Hemmati, K. 2014. Propagation of ficus benjamina var. Starlight by stenting technique under different concentrations of IBA in various times of taking cutting. Journal of Ornamental Plants, 4(2): 75-79.
Bean, W.J. 1921. Ligustrum vulgare Linnaeus, Common Privet. p. 2-29. In: W. J. Bean, Trees and shrubs hardy in the British Isles. Vol. 2. London: John Murray Publisher.
Bean, W.J. 1921. Syringa Vulgaris, Linnaeus. Common Lilac. p. 2-572. In: W. J. Bean, Trees and Shrubs Hardy in the British Isles,Vol. 2. London: John Murray Publisher.
Brar, J. and Khehra, S. 2017. Stenting: A technique for rapid multiplication of peach. International Journal of Current Microbiolgy, 6(8): 1449-1453.
Cabrera, R.I. 2002. Rose yield, dry matter partitioning and nutrient status responses to rootstock selection. Scientia Horticulturae, 95: 75-83.
Hartmann, H.T., Kester, D.E. and Davies, F. 2010. In: Plant propagation, principles & practices (p. 647). Englewood Cliffs, New Jersey, NJ, USA: Prentice-Hall Inc. Englewood.
Izadi, Z. and Zarei, H. 2014. Evaluation of propagation of Chinese hibiscus (Hibiscus rosa-sinensis) through stenting method in response to different IBA concentrations and rootstocks. American Journal of Plant Science, 5(13): 1836-1841.
Izadi, Z., Zarei, H. and Alizadeh, M. 2013 Role of grafting technique on the success of stenting propagation of two rose (Rosa sp.) Plant Varieties Journal, 4 (5): 41-44.
Jędrzejuk, A., Rochala, J., Dolega, M. and Łukaszewska, A. 2013. Comparison of petal senescence in forced and unforced common lilac flowers during their postharvest life. Acta Physiologiae Plantarum, 35: 1785-176.
Karimi, H.R. 2011. Stenting (cutting and grafting) - A technique for propagating pomegranate (Punica Granatum L.). Journal of Fruits Ornamental Plant Research, 19(2): 73-79.
Khalili, M.R., Nekonam, F., Khososi, M., Naderi, R. and Jabarzadeh, J. 2011. The effect of indole butyric acid hormone concentration and rootstock on propagation of rose cv. "Olivia" through stenting technique. Agroecology Journal, 6(4): 15-22.
Kiran, R.H., Patil, R., Patil, B.C., Shiragur, M., Koulagi, S. and Sabarad, A. 2022. Influence of season of grafting on stenting of Dutch rose var. Top Secrete. The Pharma Innovation Journal, 11(3): 55-59.
Ludwig-Müller, J. 2000. Indole-3-butyric acid in plant growth and development. Plant Growth Regulation, 32: 219-230.
Nazari, F., Khosh-Khui, M. and Salehi, H. 2009. Growth and flower quality of four Rosa hybrida L. cultivars in response to propagation by stenting or cutting in soilless culture. Scientia Horticulturaem, 119: 302–305.
Nowrozi, M., Karimi, H.R. and Mirdehghan, S.H. 2016. Effect of rootstock, scion and grafting method on vegetative propagation of pomegranate. Iranian Journal of Horticultural Sciences, 47(2): 337-350. (In Persian)
Ohkawa, K. 1980. Cutting-grafts as a means to propagate greenhouse roses. Scientia Horticulturae, 13(2): 191-199.
Osborne, D. and McManus, M. 2005. Hormones, signals and target cells in plant development. Cambridge University Press, 249 page.
Park, Y. and Jeong, B. 2012. Effect of light intensity during stenting propagation on rooting and subsequent growth of two rose cultivars. Flowers Resaerches, 20(4): 228−232.
Pinghai, D. and Rongting, X. 1993 Effect of phenols on survival of walnut grafting. Acta Horticulture, 311: 134-140.
Pourghorban, M., Azadi, P., Khaghani, S., Mirzakhani, A., Changizi, M. and Edrisi, B. 2020. Propagation of three cultivars of Rosa hybrida L. through stenting method. International Journal of Horticultural Science and Technology, 7(1): 27-36.
Pourghorban, M., Khaghani, S., Azadi, P., Mirzakhani, A. and Changizi, M. 2019. Propagation of Rosa hybrida L. cv. Dolce Vita by stenting and stem cutting methods in response to different concentrations of IBA. Advanced Horticultural Sciences, 33(1): 105-111.
Ramos, E. D. 1998. Walnut production manual: University of California. Division of Agriculture and Natural Resources. Communication Services Publication, 3373: 19-23.
Rawat, S. and Kumar Das, K. 2020. Stenting: A new technique for rapid multiplication of plants. Journal of Pharmacognosy and Phytochemistry, 9(3): 1285-1287.
Royal Horticultural Society. 2008. A-Z encyclopedia of garden plants. Great Britain: Dorling Kindersley Limited.
Solgi, M., Shahrjerdi, I. and Ebadi, A. 2012. Effect of scion genotype, rootstock age and time of grafting on success of soft grafting method in walnut. Acta Horticulture, 940: 119-123.
Solgi, M., Taghizadeh, M. and Bagheri, H. 2022. Response of black mulberry onto white mulberry rootstock to stenting. Ornamental Horticulture, 28: 78-84.
Stanisavljevic, M. and Mitrovic, M. 1997. Effect of variety on successful grafting & development of nursery trees of walnut (Juglans regia L.). Acta Horticulture, 442: 281-284.
van de Pol, P. and Breukelaar, A. 1982. Stenting of roses; a method for quick propagation by simultaneously cutting and grafting. Scientia Horticulturae, 17(2): 187-196.
Waldenmaier, S. and Bünemann, G. 1991. Ex vitro effects in micropropagation of Syringa L. Acta Horticulture, 300: 201-210.
Yeshiwas, T., Workie, M.A. and Alemayehu, G. 2018. Influence of indole butyric acid (IBA) for stenting propagation of cut rose. Current Research in Agricultural Sciences, 5(2): 48-52.
Zhao, Y. 2010. Auxin biosynthesis and its role in plant development. Annual Review of Plant Biology, 61: 49-64.