Endogenous plant metabolites influence on shelf-life extension of tuberose flowers

Authors

  • V Allwin Department of Horticulture, School of Life Sciences, Central University of Tamil Nadu, Thiruvarur - 610005, Tamil Nadu, India Author
  • K Rama Krishna Department of Horticulture, School of Life Sciences, Central University of Tamil Nadu, Thiruvarur - 610005, Tamil Nadu, India Author

DOI:

https://doi.org/10.24154/jhs.v19i1.1851

Keywords:

Flower opening, putrescine, room temperature, spermidine, spoilage

Abstract

Tuberose is highly valuable for making floral ornaments, bouquets, artistic garlands, button holes and essential oil. The present study aimed to increase the shelf life of loose flowers by the exogenous application of endogenous plant metabolites i.e. polyamines-putrescine and spermidine at 15 and 20 mg each and with two controls (with/ without packaging). The polyamine-dipped tuberose florets were packed in polyethylene zip covers (56 microns thickness & 1% ventilation), and stored at room temperature (32±1oC and 65 ± 3% RH). Results revealed that putrescine (20 mg) and spermidine (20 mg) treated florets had reduced physiological loss in weight and spoilage percentage with delayed flower opening, and higher sensory acceptance when compared to other treatments and also extended vase life (4 days). The shelf life of untreated flowers without a package was just on the harvested day. Thus, the exogenous application of polyamines had a synergic effect on the shelf life of tuberose loose flowers and can be effectively utilized in the supply chain of tuberose.

Author Biographies

  • V Allwin , Department of Horticulture, School of Life Sciences, Central University of Tamil Nadu, Thiruvarur - 610005, Tamil Nadu, India

    PG Scholar, Department of Horticulture, School of Life Sciences, Central University of Tamil Nadu, Thiruvarur - 610005, Tamil Nadu, India

  • K Rama Krishna, Department of Horticulture, School of Life Sciences, Central University of Tamil Nadu, Thiruvarur - 610005, Tamil Nadu, India

    Assistant Professor, Department of Horticulture, School of Life Sciences, Central University of Tamil Nadu, Thiruvarur - 610005, Tamil Nadu, India

References

MoAFW. (2023). Ministry of Agriculture & Farmers Welfare, GoI. Final Estimate 2022-23, https://agriwelfare.gov.in/s ites/default/files/2022_23_Final.xlsx (Accessed on 01.04.2024)

AOAC. (2005). Official method of analysis (18th ed.). Washington, DC: Association of Officiating Analytical Chemists.

Bouchereau, A., Aziz, A., Larher, F., & Martin-Ttanguy, J. (1999). Polyamines and environmental challenges: recent development, Plant Science., 140, 103-125. doi:10.1016/S0168-9452(98)00218-0

Gao, F., Mei, X., Guo, J., & Shen, Y. (2021). Update on the roles of polyamines in fleshy fruit ripening, senescence, and quality. Frontiers in Plant Science, 12, 610313.

Jia Y., Guo S., and Li, J. (2008). Effects of exogenous putrescine on polyamines and antioxidant system in cucumber seedlings under root-zone hypoxia Stress. Acta Botanica Boreali Occidentalia Sinica, 28, 1654–1662.

Kar, P. K., Jena, K. B., Srivastava, A.K., Giri, S., & Sinha, M. K. (2013). Gall-induced stress in the leaves of Terminalia arjuna, food plant of tropical tasar silkworm, Antheraea mylitta. Emirates Journal of Food and Agriculture, 25(3), 205-210.

Karimi, M., Akbari, F., & Heidarzade, A. (2017). Protective effects of polyamines on regulation of senescence in spray carnation cut flowers (Dianthus caryophyllus ‘Spotlight’). Acta agriculturae Slovenica, 109(3), 509-515.

Karimi, M., Hassanpour Asil, M., & Zakizadeh, H. (2013). Increasing plant longevity and associated metabolic events in potted carnation (Dianthus caryophyllus. ‘Clove Pink’), Brazilian Journal of Plnat Physiology, 24(4), 247-252. doi:10.1590/S1677-04202012000400003

Khan, A. S., Singh, Z., Abbasi, N. A., & Swinny, E. E. (2008). Pre or postharvest application of putrescine and low temperature storage affect fruit ripening and quality of ‘Angeline’ plum. Journal of the Science of Food and Agriculture, 88, 1686-1695.

Kumar, B. V., & Kumar, A. (2013). Assessment of tuberose (Polianthes tuberosa L.) varieties under eastern U.P. conditions. Plant Archies, 13, 185–186.

Lee, A. K., & Suh, K. S. (1996). Effect of harvest stage, pre and postharvest treatments on longevity of cut Lilium flowers. Acta Horticulturae, 414, 287-293.

Li, C., Pei, Z,. & Gan, L. (2014). Effects of photoperiod on flowering and polyamine contents of nobile-type Dendrobium. Journal of Plant Physiology, 1167–1170. 10.13592/j.cnki.ppj.2012.0435

Lim, J. (2011). Hedonic scaling: A review of methods and theory. Food Quality and Preference,22(8), 733-747.

Meman, M. A., & Dabhi, K. M. (2006). Effects of different stalk lengths and certain chemical substances on vase life of gerbera (Gerbera jamesonii Hook.) cv. ‘Savana Red’. Journal of Applied Horticulture, 8(2), 147-150.

Nowak, J., & Rudnicki, R. M. (1990). Postharvest handling and storage of cut flowers, florist greens, and potted plants. Timber Press, Portland, Oregan, USA. pp: 210.

Nunes, M. C. N., Emond, J. P., Brecht, J. K., Dea, S., & Proulx, E. (2007). Quality curves for mango fruit (cv. Tommy Atkins and Palmer) stored at chilling and nonchilling temperatures. Journal of Food Quality, 30(1), 104-120.

Sharma, B. P., Beshir, H. M., Dilta, B. S., & Chaudhary, S. V. S. (2008) . Effect of various wrapping material and storage

durations on post-harvest life of Asiatic hybrid lily cv. ‘Apeldoorn’. In: 4th National symposium on “Scenario of Agriculture in Changing Climatic Conditions”. pp. 69-74

Tatte S., Alka, S., & Ahlawat T. R. (2015). Effect of PAs on postharvest quality and vase life of rose var. Samurai. The Bioscan, 10, 675–678.

Vuosku, J., Karppinen, K., Muilu-Mäkelä, R., Kusano, T., Sagor, G. H. M., Avia, K., & Sarjala, T. (2018). Scots pine amino propyl transferases shed new light on evolution of the polyamine biosynthesis pathway in seed plants. Annals of Botany, 121(6), 1243-1256.

Wu J., Shu S., Li C., Sun J., & Guo S. (2018). Spermidine-mediated hydrogen peroxide signaling enhances the antioxidant capacity of salt-stressed cucumber roots. Plant Physiology and Biochemestry, 128, 152–162. 10.1016/j.plaphy.2018.05.002

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Published

10-06-2024

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Section

Original Research Papers

How to Cite

Allwin , V., & Rama Krishna, K. (2024). Endogenous plant metabolites influence on shelf-life extension of tuberose flowers. Journal of Horticultural Sciences, 19(1). https://doi.org/10.24154/jhs.v19i1.1851

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