Abstract
A study involving flower senescence (tepal senescence) and evaluation of the efficacy of certain chemical formulations on vase life (of its cut scapes) was conducted in Amaryllis belladonna. For studies related to senescence, flower development has been divided into easily recognizable six morphological stages (stages I to VI) and changes in some important morphological and biochemical parameters including fresh and dry weight, MSI, soluble protein content and soluble solid content were recorded. SDS-PAGE of crude protein extract was also performed. Moreover, the cut freshly cut healthy scapes were subjected to different chemical formulations (provided as vase solutions) including sugar source (sucrose) and antimicrobial compounds [Al2(SO4)3 and CoCl2] for assessing the efficacy of these chemicals in improving their postharvest performance. The results indicate that the loss of floral fresh and dry weight, decline in MSI, decline in the content of soluble proteins and changes in the soluble solid content (sugar status and phenolics) may be considered as important parameters of tepal senescence in Amaryllis and that postharvest performance in cut scapes can be improved to a great extent by the combined application of antimicrobial compounds and sugar source at given concentrations in vase solutions.
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References
Ausubel, F. M., Brent, R., Kingston, R. E., Moore, D. D., Seidman, J. C., & Struhl, K. (1989). Current protocols in molecular biology. New York: Wiley.
Bai, S., Willard, B., Chapin, L. J., Kinter, M. T., Francis, D. M., Stead, A. D., et al. (2010). Proteomic analysis of pollination-induced corolla senescence in Petunia. Journal of Experimental Botany,61, 1089–1109.
Battelli, R., Lombardi, L., Rogers, H. J., Picciarelli, P., Lorenzi, R., & Ceccarelli, N. (2011). Changes in ultrastructure, protease and caspase-like activities during flower senescence in Lilium longiflorum. Plant Science,180, 716–725.
Cavaiuolo, M., Cocetta, G., & Ferrante, A. (2013). The antioxidant changes in ornamental flowers during development and senescence. Antioxidants,2, 132–155.
Chapin, L. J., & Jones, M. (2009). Ethylene regulates phosphorus remobilization and expression of a phosphate transporter (PhPT1) during petunia corolla senescence. Journal of Experimental Botany,60, 2179–2190.
Cho, H. K., & Lee, J. M. (1979). Studies on extending the life of cut flowers of rose and carnation with various chemical preservatives. Journal of Korean Society for Horticultural Science,20, 106–110.
Collier, D. E. (1997). Changes in respiration, protein and carbohydrates of tulip tepals and Alstroemeria petals during development. Journal of Plant Physiology,150, 446–451.
Dineshbabu, M., Jawaharlal, M., & Vijayakumar, M. (2002). Influence of holding solutions on the postharvest life of Dendrobium hybrid Sonia. South Indian Horticulture,50, 451–457.
Eason, J. R., de Vré, L. A., Somerfield, S. D., & Heyes, J. A. (1997). Physiological changes associated with Sandersonia aurantica flower senescence in response to sugar. Postharvest Biology and Technology,12, 43–50.
Elgimabi, E. N., & Sliai, A. M. (2013). Effects of preservative solutions on vase life and postharvest qualities of Taif rose cut flowers (Rosa damascene cv. trigintipetala). American Eurasian Journal of Agricultural and Environmental Science,13, 72–80.
Hassanpour, A. M., Hatamzadeh, A., & Nakhai, F. (2004). Study on the effect of temperature and various chemical treatments to increase vase life of cut rose flower “Baccara”. Agricultural Science Research Journal Guilan Agricultural Faculty,1, 121–129.
Hoeberichts, F. A., Van Doorn, W. G., Vorst, O., Hall, R. D., & Van Wordragen, M. F. (2007). Sucrose prevents up-regulation of senescence-associated genes in carnation petals. Journal of Experimental Botany,58, 2873–2875.
Hutchinson, M. J., Chebet, D. K., & Emongor, V. E. (2003). Effect of accel, sucrose and silver thiosulphate on the water relations and postharvest physiology of cut tuberose flowers. African Crop Science Journal, 11, 279–287.
Ichimura, K., & Goto, R. (2002). Extension of vase life of cut Narcissus tazetta var. chinensis flowers by combined treatment with STS and gibberellin acid. Journal of Japanese Society for Horticultural Science,71, 226–230.
Jones, M. L. (2013). Mineral nutrient remobilization during corolla senescence in ethylene-sensitive and -insensitive flowers. AoB Plants (SPECIAL ISSUE: Ethylene 2012),5, 1–11.
Jowkar, M. M., Khalighi, A., Kafi, M., & Hassanzadeh, N. (2013). Evaluation of aluminum sulfate as vase solution biocide on postharvest microbial and physiological properties of ‘cherry brandy’ rose. Acta Horticulturae,1012, 615–626.
Khan, F. U., Khan, F. A., Hayat, N., & Bhat, S. A. (2007). Influence of certain chemicals on vase life of cut tulip. Indian Journal of Plant Physiology,12, 127–132.
Leiv, M. M., & Hans, R. G. (2005). Effect of air humidity variation on powdery mildew and keeping quality of cut roses. Scientia Horticulturae,140, 49–55.
Leverentz, M. K., Wagstaff, C., Rogers, H. J., Stead, A. D., Chanasut, U., Silkowski, H., et al. (2002). Characterization of a novel lipoxygenase- independent senescence mechanism in Alstroemeria peruviana floral tissue. Plant Physiology,130, 273–283.
Liao, L. J., Lin, Y. H., Huang, K. L., & Chen, W. S. (2001). Vase life of Eustoma grandiflorum as affected by aluminum sulfate. Botanical Bulletin of Academica Sinica,42, 35–38.
Lowry, O. H., Rosenbrough, N. J., Farr, A. L., & Randall, R. J. (1951). Protein measurement with folin phenol reagent. Journal of Biological Chemistry,193, 265–275.
Nelson, N. (1944). Photometric adaptation of Somogy’s method for the determination of glucose. Journal of Biological Chemistry,153, 375–380.
Nichols, R., & Ho, L. C. (1975) An effect of ethylene on the distribution of 14C- sucrose from petals to other flower parts in the senescent cut inflorescence of Dianthus caryophyllus. Annals of Botany,39,433–438.
Panavas, T., & Rubinstein, B. (1998). Oxidative events during programmed cell death of daylily (Hemerocallis hybrid) petals. Plant Science,133, 125–138.
Put Henriette, M. C., Clerkx-Anke, C. M., & Boekestein, A. (1992). Aluminum sulphate restricts migration of Bacillus subtilis in xylem of cut roses: A scanning electron microscope study. Scientia Horticulturae,51, 261–274.
Ranwala, A. P., & Miller, W. B. (2009). Comparison of the dynamics of non-structural carbohydrate pools in cut tulip stems supplied with sucrose or trehalose. Postharvest Biology and Technology,52, 91–96.
Reddy, B. S., & Singh, K. (1996). Effect of aluminum sulphate and sucrose on vase life of tuberose. Journal of Maharashtra,21, 201–203.
Reid, M. S. (2012). Handling of cut flowers for air transport. http://ucce.ucdavis.edu/file/datastore/234-1373.
Rosen, H. (1957). A modified ninhydrin colorimetric method for amino acids. Archives for Biochemistry and Biophysics,67, 10–15.
Saradhi, P. P., & Ram, H. Y. M. (1989). Prolongation of vase-life of chrysanthemum blooms by cobalt chloride and its reversal by IAA. Acta Horticulturae,261, 309–312.
Seyf, M., Khalighi, A., Mostofi, Y., & Naderi, R. (2012). Study on the effect of aluminum sulfate treatment on postharvest life of the cut rose ‘Boeing’ (Rosa hybrida cv. Boeing). Journal of Horticulture Forestry Biotechnology,16, 128–132.
Shahri, W., Ahmad, S. S., & Tahir, I. (2014). Sugar signaling in plant growth and development. In K. R. Hakeem, et al. (Eds.), Plant signaling: Understanding the molecular crosstalk (pp. 93–116). Berlin: Springer.
Shahri, W., & Tahir, I. (2011a). Flower senescence: Strategies and some associated events. Botanical Review,77, 152–184.
Shahri, W., & Tahir, I. (2011b). Physiological and biochemical changes associated with flower development and senescence in Consolida ajacis Nieuwl cv. Violet blue. Frontiers of Agriculture in China,5, 201–208.
Shahri, W., & Tahir, I. (2011c). An effective storage protocol for improving the postharvest performance in cut spikes of Consolida ajacis Nieuwl cv. Violet blue. Scientia Horticulturae,129, 154–158.
Shahri, W., & Tahir, I. (2014). Flower senescence: Some molecular aspects. Planta,239, 277–297.
Shahri, W., Tahir, I., Islam, S. T., & Ahmad, M. (2010). Response of some ornamental flowers of family Ranunculaceae to sucrose feeding. African Journal of Plant Science,4, 346–352.
Shahri, W., Tahir, I., Islam, S. T., & Bhat, M. A. (2011). Physiological and biochemical changes associated with flower development and senescence in so far unexplored Helleborus orientalis Lam. cv. Olympicus. Physiology and Molecular Biology of Plants,17, 33–39.
Shu, Z., Shi, Y., Qian, H., Tao, Y., & Tang, D. (2010). Distinct respiration and physiological changes during flower development and senescence in two Freesia cultivars. HortScience,45, 1088–1092.
Sood, S., & Nagar, P. K. (2003). Changes in abscisic acid and phenols during flower development in two diverse species of rose. Acta Physiologia Plantarum,25, 411–416.
Sultan, S. M., Tahir, I., & Farooq, S. (2001). Effect of sucrose and cobalt chloride in the holding solution on the vase life and flower quality of cut scapes of Hemerocallis fulva L. cv. Royal Crown. Journal of Plant Biology,28, 127–130.
Swain, T., & Hillis, W. E. (1959). The phenolic constituents of Prunus domestica L. The quantitative analysis of phenolic constituents. Journal of Food Science and Agriculture,10, 63–68.
Takahama, U., & Oniki, T. (1997). A peroxidase/phenolics/ascorbate system can scavenge hydrogen peroxide in plant cells. Physiologia Plantarum,101, 845–852.
Thwala, M., Wahome, P. K., Oseni, T. O., & Masarirambi, M. T. (2013). Effects of floral preservatives on the vase life of orchid (Epidendrum radicans L.) cut flowers. Journal of Horticultural Science and Ornamental Plants,5, 22–29.
Trivellini, A., Vernieri, P., Ferrante, A., & Serra, G. (2007). Physiological characterization of flower senescence in long life and ephemeral hibiscus (Hibiscus rosa-sinensis L.). Acta Horticultuare, 755, 457–464.
Van Doorn, W. G. (1996). Water relations of cut flowers 18. In J. Janick (Ed.), Horticultural reviews. Oxford: Wiley. https://doi.org/10.1002/9780470650608.ch1.
Van Doorn, W. G. (1998). Effects of daffodil flowers on the water relations and vase life of roses and tulips. Journal of American Society for Horticultural Science,123, 146–149.
Van Doorn, W. G., & de Witte, Y. (1991). Effect of bacterial suspensions on vascular occlusion in stems of cut rose flowers. Journal of Applied Bacteriology,71, 119–123.
Van Doorn, W. G., & Woltering, E. J. (2008). Physiology and molecular biology of petal senescence. Journal of Experimental Botany,59, 453–480.
Waithaka, K., Reid, M. S., & Dodge, L. L. (2001). Cold storage and flower keeping quality of cut tuberose (Polianthes tuberosa L.). Journal of Horticultural Science and Biotechnology,76, 271–275.
Woodson, W. R., & Handa, A. K. (1987). Changes in protein patterns and in vivo protein synthesis during presenescence and senescence of Hibiscus petals. Journal of Plant Physiology,128, 67–75.
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Dr. Fahima Gul and Mr. Waseem Shahri carried out the experiment, interpreted the results and Prof. Inayatullah Tahir supervised the overall study and helped in writing the manuscript.
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Gul, F., Tahir, I. & Shahri, W. Flower senescence and some postharvest considerations of Amaryllis belladonna cut scapes. Plant Physiol. Rep. 25, 315–324 (2020). https://doi.org/10.1007/s40502-020-00506-8
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DOI: https://doi.org/10.1007/s40502-020-00506-8