The Influence of Bulb Storage Regimes on the Growth and Flowering of Hippeastrum (Hippeastrum hybridum Hort.)

Date Received: Oct 19, 2018

Date Accepted: Oct 22, 2018

Date Published: Oct 22, 2018

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Pham, H. T., Dinh, N., Trinh, T. N., Phung, T. H., Nguyen, T. H., & Nguyen, H. (2018). The Influence of Bulb Storage Regimes on the Growth and Flowering of Hippeastrum (Hippeastrum hybridum Hort.). Vietnam Journal of Agricultural Sciences, 1(2), 127–133. https://doi.org/10.31817/vjas.2018.1.2.02

The Influence of Bulb Storage Regimes on the Growth and Flowering of Hippeastrum (Hippeastrum hybridum Hort.)

Huyen Trang Thi Pham (*) 1 , Nam Van Dinh 1 , Thanh Nga Thi Trinh 1 , Thu Ha Thi Phung 1 , Thuy Hanh Thi Nguyen 2   , Hoa Hanh Nguyen 1

  • Corresponding author: huyentrang.phm@gmail.com
  • 1 Faculty of Agronomy, Vietnam National University of Agriculture, Hanoi 131000, Vietnam
  • 2 Faculty of Biotechnology, Vietnam National University of Agriculture, Hanoi 131000, Vietnam
  • Keywords

    Hippeastrum hybridum, Amaryllis, temperature, wrapping materials, flowering time

    Abstract


    Hippeastrum hybridum cultivar ‘Cam Tu’ bulbs were subjected to ten different treatment regimens to evaluate the effect of temperature (4°C or 25°C), duration (4, 6, or 8 weeks), and wrapping materials (coir fiber or newspaper) on their growth and flowering. The data revealed that the storage treatments had significant effects on several growth and flowering characteristics of H. hybridum cv. ‘Cam Tu’. In terms of vegetative characteristics, bulbs stored at 4°C with coir fiber wrapping for 6 weeks (T9) had the largest leaf size (a length of 39.46 cm, a width of 4.39 cm), the longest flower scape (48.64 cm in length), and the longest pedicel (4.75 cm in length). Bulbs of the T9 treatment also showed the shortest time to flower bud emergence (62.24 days) and first flower opening (80.43 days), and the date of 70% first flower fully opening was January 19, 2018. Both of the two thermal treatment regimens shortened flowering time (80.43-103.16 days) compared to the control (132.46 days). However, the number of bulblets per plant, number of leaves per plant, number of florets per scape, floret diameter, longevity of a flower, and longevity of a flower scape were not statistically impacted by the treatments.

    References

    De Hertogh A. A. and Gallitano L. B. (1998). Influence of bulb packing systems on forcing of Dutch–grown Hippeastrum (Amaryllis) as flowering potted plant in North America. HortTechnology. Vol 8 (2). pp. 175-179.

    Do N. T. (2007). Flora of Vietnam, Part 8. Science and Technics Publishing House, Hanoi (in Vietnamese).

    Ephrath J. E., Ben-Asher J., Alekparov C., Silberbush M., Wolf S. and Dayan E. (2001). The effect of temperature on the development of Hippeastrum: A phytotron study. Biotronics. Vol 30. pp. 51-62.

    Fernandez J. A., Penapareja D., Lopez J., Gonzalez A., and Banon S. (2009). The effect of bulb size and bulb temperature storage treatments on flowering of Iris xiphium. Acta Horticulturae. Vol 813. pp. 605-608.

    Hartsema A. M. (1961). Influence of temperatures on flower formation and flowering of bulbous and tuberous plants. In: W. Ruhland (ed.), Handbuch der Pflanzenphysiologie. Springer-Verlag, Berlin. Vol 16. pp. 123-167.

    Ho P. H. (2000). An illustrated flora of Vietnam, Part III. Young Publishing House, Ho Chi Minh city. pp. 497 (in Vietnamese).

    Khodorova N. V., and Boitel-Conti M. (2013). The role of temperature in the growth and flowering of geophytes. Plants. Vol 2. pp. 699-711.

    Liberty H. B. H. (1976). Hortus third: A concise dictionary of plant cultivated in the United States and Canada. 3rd ed. Macmillan, New York.

    Okubo R. K. H. (1993). Hippeastrum (Amaryllis). In: A. De Hertogh and M. Le Nard (eds.). The physiology of flower bulbs. Elsevier Science Publisher, Amsterdam. pp. 321-334.

    Read V. M. (2004). Hippeastrum: the gardener’s Amaryllis. Timber Press. Portland, Oregon. In association with the Royal Horticultural Society. Cambridge, England.

    Roberts A. N., Wang Y. T. and Moeller F. W. (1983). Effects of pre and post-bloom temperature regimes on development of Lilium longiflorum Thunb. Scientia Horticulturae. Vol 18 (4). pp. 363-379.

    Warrington I. J., Brooking I. R. and Fulton T. A. (2011). Lifting time and bulb storage temperature influence Nerine sarniensis flowering time and flower quality. New Zealand Journal of Crop and Horticultural Science. Vol 39 (2). pp. 107-117.