Effect of temperature, storage period and bulblet size on growth of hyacinth bulblet ‎‎(Hyacinthus orientalis L.)‎

Document Type : Full Paper

Authors

1 M. Sc. Graduate Student, Faculty of Agriculture, Bu-Ali Sina University, Hamadan, Iran

2 Assistant Professor, Faculty of Agriculture, Bu-Ali Sina University, Hamadan, Iran

Abstract

Hyacinth (Hyacinthus orientalis L.) is one of the most popular ornamental bulbous plants in Iran and the world. Hyacinth bulbs are propagated by daughter bulbs. Storage conditions after harvest of daughter bulbs are important on next growth quality and development rate of them to become as a mother's bulbs. The present study was designed and conducted to investigate the effect of temperature, storage period and also size of daughter bulbs on growth of first generation of daughter bulbs after cultivation in three separate experiments. Results indicated that the highest fresh weight of bulblet (3.70 g) obtained in 3 cm bulblets with 8 weeks storage period at 4°C. Also, in storage at 10°C, the highest fresh weight of bulblet (4.50 g) was observed by interaction between 10 weeks storage period and 3 cm bulblets. The highest fresh weight of bulblet (3.24 g) was obtained in 3 cm bulblets with 10 weeks storage period at 20°C. Finally, results of this study indicated that storage period of the first generation of daughter bulbs can be decreased by reducing the storage temperature.

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  1. Abdülhabip, Ö. Z. E. L., & Erden, K. (2018). The Effect of Bulb Sizes on the Yield and Some Plant Characteristics of Narcissus tazetta tazetta L. Harran Tarım ve Gıda Bilimleri Dergisi, 22(3), 355-362.
  2. Addai, I. K. (2010). Growth and biochemistery of the common hyacinth (Hyacinthus orientalis) and the lily (Lilium longiflorum L.). Ph.D. Thesis, University of Sussex, England.
  3. Addai, I. K., & Scott, P. (2011). Influence of bulb sizes at planting on growth and development of the common hyacinth and the lily. Agriculture and Biology Journal of North America, 2(2), 298-314.
  4. Akbari, R., & Tehranifar, A. (2009). Effect of time and temperature of storage on vegetative and reproductive growth in Tuberose (Polianthes tuberosa). Journal of Plant Production, 16 (3),119-134. (In Farsi).
  5. Alam, A., Iqbal, M., & Vats, S. (2013). Cultivation of some overlooked bulbous ornamentals-A review on its commercial viability. Report and Opinion, 5, 9-34.
  6. Amirshekari, H., Soroushzadeh, A., Modares, S. S., & Jalali, J. M. (2006). Study of effects of root temperature, corm size and gibberllin on underground organs of safron (Crocus sativus). Iranian Journal of Biology, 19(1), 5-18. (In Farsi).
  7. Dole, J. M. (2003). Research approaches for determining cold requirements for forcing and flowering of geophytes. HortScience, 38(3), 341-346.
  8. Ghasemi ghehsareh, M., & Kafi, M. (2016). Floriculture. Publisher Masoud Ghasemi Ghehsareh. 314 p. (In Farsi).
  9. Herlina, D., & Winarto, B. (2020). Responses of lily types in different vernalization periods on vegetative and generative growth performances of lily. South-Western Journal of Horticulture, Biology and Environment, 11(1), 1-14.
  10. Inkham, C., Piriyapongpitak, P., & Ruamrungsri, S. (2019). Storage and growth temperatures affect growth, flower quality, and bulb quality of Hippeastrum. Horticulture, Environment, and Biotechnology, 60(3), 357-362.
  11. Kamenetsky, R., & Okubo, H. (2012). Ornamental geophytes: from basic science to sustainable production. CRC press. 672p.
  12. Kapczyńska, A. (2014). Effect of bulb size on growth, flowering and bulb formation in Lachenalia Horticultural Science, 41(2), 89-94.
  13. Karimi, M., Kalantari, S., Naderi, R., & shafiei, M. (2014). Quality and Quantity Characteristics of Two Gladiolus Cultivars (Gladiolus grandiflorus White Prosperity and Ruse Supreme). Iranian Journal of Horticultural Science, 1(45), 55-66. (In Farsi).
  14. Khodorova, N. V., & Boitel-Conti, M. (2013). The role of temperature in the growth and flowering of geophytes. Plants, 2(4), 699-711.
  15. Kim, H. H., Ohkawa, K., & Nitta, E. (1996). Effects of Bulb Weight on the Growth and Flowering of Leucocoryne coquimbensis Phill. Acta Horticulturae, 454, 341-346.
  16. Lambrechts, H., Rook, F., & Kolloffel, C. (1994). Carbohydrate status of tulip bulbs during cold-induced flower stalk elongation and flowering. Plant Physiology, 104(2), 515-520.
  17. Langens-Gerrits, M. M., Miller, W. B., Croes, A. F., & De Klerk, G. J. (2003). Effect of low temperature on dormancy breaking and growth after planting in lily bulblets regenerated in vitro. Plant Growth Regulation, 40(3), 267-275.
  18. Majidian, N., Naderi, R., Majidian, M., & khalighi, A. (2012). Effects of different concentrations of GA3 and BA treatments, storage temperature and duration on Rrhizome and subsequent growth of calla Llily pot pP\lant (Zantedeschia aethiopica childsiana). Iranian Journal of Horticultural Science, 1(43), 65-78. (In Farsi).
  19. Manimaran, P., Ghosh, S., and Priyanka, R. (2017). Bulb size and growth regulators on the growth and performance of bulbous ornamental crops-A Review. Chemical Science Review and Letters, 6(22), 1277-1284.
  20. Marković, M., Trifunović Momčilov, M., Uzelac, B., Jevremović, S., & Subotić, A. (2021). Bulb dormancy in vitro-Fritillaria meleagris: Initiation, release and physiological parameters. Plants, 10(5), 902.
  21. Molaahmad Nalousi, A., Baniasadi, F., Fazilati, M., Edrisi, B., & Azadi, P. (2018). Hyacinthus orientalis quality improvement and rapid flowering by applying proper bulb storage temperature. Flower and Ornamental Plants, 3(1), 13-26. (In Farsi).
  22. Nazari, F., Naseri, A., & Rostami Bourojeni, M. (2019). Investigating the cold requirement of autumn daffodil (Sternbergia lutea) and the effect of bulb size on its growth, development and flowering.  Journal of Crop Production and Processing, Isfahan University of Technology, 9(1), 111-125. (In Farsi).
  23. Ramawat, K. G., & Merillon, J. M. (2013). Bulbous plants: biotechnology. CRC Press. 444 p.
  24. Ranwala, A. P., & Miller, W. B. (2008). Gibberellin-mediated changes in carbohydrate metabolism during flower stalk elongation in tulips. Plant Growth Regulation, 55(3), 241-248.
  25. Rees, A. (2012). The Growth of Bulbs: Applied aspects of the physiology of ornamental bulbous crop plant. Elsevier. 316 p.
  26. Rees, A. R. (1966). The physiology of ornamental bulbous plants. The Botanical Review, 32(1), 1.
  27. Salehzadeh, S. H., Daneshvar, M. H., & Moalemi, N. (2006). Direct organogenesis from scale, leaf primordia and immature floret explants of hyacinth (Hyacinthus orientalis). Iranian Journal of Horticultural Science and Technology, 6(4), 215-222. (In Farsi).
  28. Xu, R. Y., Niimi, Y., & Han, D. S. (2006). Changes in endogenous abscisic acid and soluble sugars levels during dormancy-release in bulbs of (Lilium rubellum). Scientia Horticulturae, 111(1), 68-72.