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Physiological and quality changes during postharvest ripening of purple passion fruit (Passiflora edulis Sims)

Published online by Cambridge University Press:  28 January 2014

Alemwati Pongener ,
Vidyaram Sagar ,
Ram Krishna Pal ,
Ram Asrey ,
Ram Roshan Sharma  and
Sanjay Kumar Singh
Alemwati Pongener*
Affiliation:
Div. Post Harvest Technol., I.A.R.I., New Delhi, India. alemwati@gmail.com
Vidyaram Sagar
Affiliation:
Div. Post Harvest Technol., I.A.R.I., New Delhi, India. alemwati@gmail.com
Ram Krishna Pal
Affiliation:
Ntl. Res. Cent. Pomegranate, Solapur Maharashtra, India
Ram Asrey
Affiliation:
Div. Post Harvest Technol., I.A.R.I., New Delhi, India. alemwati@gmail.com
Ram Roshan Sharma
Affiliation:
Div. Post Harvest Technol., I.A.R.I., New Delhi, India. alemwati@gmail.com
Sanjay Kumar Singh
Affiliation:
Div. Fruits Hortic. Technol., I.A.R.I, New Delhi, India
*
* Correspondence and reprints
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Abstract

Introduction. Postharvest physiology and ripening in passion fruit are not well documented, which is an impediment in designing handling and storage regimes. Materials and methods. Passion fruits harvested at four different maturity stages were studied for postharvest ripening behaviour and to determine the correct stage of harvesting. Results and discussion. The respiratory climacteric peak was attained in all stages irrespective of harvest maturity, while the ethylene evolution rate increased by almost 8.15 times the initial value to peak levels of 505.35 µL C2H4·kg–1·h–1 in fruits harvested at the 50% colour turning stage. Changes in Hunter L*a*b* values indicated development of optimum colour only in fruits harvested after 50% colour turning. Fruit quality attributes were also better in fruits harvested after half (50%) colour turning than fruits harvested earlier. Conclusion. Passion fruit should be harvested only after 50% of fruit surface colour has developed, so as to allow for optimum postharvest storage, proper ripening, and development of characteristic flavour and fruit quality attributes.

Keywords

Passiflora edulispassion fruitsfruitspostharvest ripeningmaturityqualityPassiflora edulisgrenadillefruitsmaturation après récoltematuritéqualitéPassiflora edulisgranadillafrutasmaduración en postcosechamadurezcalidad
Type
Original article
Information
Fruits , Volume 69 , Issue 1 , January 2014 , pp. 19 - 30
Copyright
© 2014 Cirad/EDP Sciences

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References

Patel, S.S., Morphology and pharmacology of Passiflora edulis: a review, J. Herb. Med. Toxicol. 3 (2009) 16. Google Scholar
Zibadi, S., Watson, R.R., Passion fruit (Passiflora edulis): Composition, efficacy and safety, Evid.-based Integr. Med. 1 (2004) 183187. CrossRefGoogle Scholar
Sema A., Maiti C.S., Passion fruit - Industry in North East India, in: Chadha K.L., Singh A.K., Patel V.B. (Eds.), Recent Initiatives in horticulture, Hortic. Soc. India, New-Delhi, India, 2008, 457–469.
Pruthi, J.S., Physiology, chemistry and technology of passion fruit, Adv. Food. Res. 12 (1963) 203282. CrossRefGoogle ScholarPubMed
Shiomi, S., Wamocho, L.S., Agong, S.G., Ripening characteristics of purple passion fruit on and off the vine, Postharvest Biol. Technol. 7 (1996) 161170. CrossRefGoogle Scholar
Schotsmans, W.C., Nicholson, S.E., Pinnamaneni, S., Mawson, A.J., Quality changes of purple passion fruit (Passiflora edulis) during storage, Acta Hortic. 773 (2008) 239244. CrossRefGoogle Scholar
Shiomi, S., Kubo, Y., Wamocho, L.S., Koaze, J., Nakamura, R., Inaba, A., Postharvest ripening and ethylene biosynthesis in purple passion fruit, Postharvest Biol. Technol. 8 (1996) 199207. CrossRefGoogle Scholar
Biale J.B., Synthetic and degrading process in fruit ripening, in: Haard N.F., Salunkhe D.K. (Eds.), Postharvest Biology and Handling of Fruits and Vegetables, AVI Pub., Westport CT, U.S.A., 1975, 5–18.
Matta F.B., Arjona H.E., Garner J.O., Silva J.L., Studies on postharvest quality of passion fruit, Miss. Agric. For. Exp. Stn. Bull. 1153 (2006).
Campbell C.W., Knight R.J., Production de gandadilla, Minist. Agric. Pesca Alim., Canary Islands, Spain, 1983, 223–231.
Patel, P.R., Gol, N.B., Ramana Rao, T.V., Physiochemical changes in sunberry (Physalis minima L.) fruit during growth and ripening, Fruits 66 (2011) 3746. CrossRefGoogle Scholar
León, K., Mery, D., Pedreschi, F., León, J., Color measurement in L*a*b* units from RGB digital images, Food Res. Int. 39 (2006) 1041091. CrossRefGoogle Scholar
Sharma, S., Sharma, R.R., Pal, R.K., Jhalegar, M.D., Singh, J., Srivastav, M., Dhiman, M.R., Ethylene absorbents influence fruit firmness and activity of enzymes involved in fruit softening of Japanese plum (Prunus salicina Lindell) cv. Santa Rosa, Fruits 67 (2012) 257266. CrossRefGoogle Scholar
Anon., Official methods of analysis, 17th ed., Assoc. Off. Anal. Chem. (AOAC), Gaithersburg, MD, U.S.A., 2000.
Singleton, V.L., Rossi, J.A., Colorimetry of total phenolics with phosphomolybdic phosphotungstic acid reagents, Am. J. Vitic. Enol. 16 (1965) 144158. Google Scholar
Panse V.G., Sukhatme P.V., Statistical methods for agricultural workers, ICAR, New Delhi, India, 1984, 288–290.
Singh, A., Yadav, D.S., Patel, R.K., Nath, A., Bhuyan, M., Wax coating and padding materials influence quality and shelf-life of purple passion fruit during storage, Indian J. Hortic. 68 (2011) 246249. Google Scholar
Akamine, E.K., Young, R.E., Biale, J.B., Respiration and ethylene production in the purple passion fruit, Proc. Am. Soc. Hortic. Sci. 69 (1957) 221225. Google Scholar
Mita, S., Kawamura, S., Yamawaki, K., Nakamura, K., Hyodo, H., Differential expression of genes involved in the biosynthesis and perception of ethylene during ripening of passion fruit (Passiflora edulis Sims), Plant Cell Physiol. 39 (1998) 12091217. CrossRefGoogle Scholar
Apelbaum, A., Burgoon, A.C., Anderson, J.D., Lieberman, M., Polyamines inhibit biosynthesis of ethylene in higher plant tissue and fruit protoplasts, Plant Physiol. 68 (1981) 453456. CrossRefGoogle ScholarPubMed
Kader, A.A., Fruit maturity, ripening, and quality relationships, Acta Hortic. 485 (1999) 203208. CrossRefGoogle Scholar
Crisosto, C.H., Garner, D., Andris, H.L., Day, K.R., Controlled delayed cooling extends peach market life, Hortic. Technol. 14 (2004) 99104. Google Scholar
Chen, M., Jiang, Q., Yen, X., Lin, Q., Chen, J., Allen, A.C., Xu, C., Chen, K., Effect of hot air treatment on organic acid- and sugar-metabolism in Ponkan (Citrus reticulata) fruit, Scientia Hortic. 147 (2012) 118125. CrossRefGoogle Scholar
Kader, A.A., Flavor quality of fruits and vegetables, J. Sci. Food Agric. 88 (2008) 18631868. CrossRefGoogle Scholar
Obenland, D., Collin, S., Mackey, B., Sievert, J., Fjeld, K., Arpaia, M.L., Determinants of flavor acceptability during the maturation of navel oranges, Postharvest Biol. Technol. 52 (2009) 156163. CrossRefGoogle Scholar
Lowe, G.M., Young, A.J., Antioxidant and prooxidant properties of carotenoids, Arch. Biochem. Biophys. 385 (2001) 2027. Google Scholar
Biacs, P.A., Daood, H.G., Lipoxygenase-catalysed degradation of carotenoids from tomato in the presence of antioxidant vitamins, Biochem. Soc. Trans. 28 (2000) 839845. CrossRefGoogle ScholarPubMed
Szeto, Y.T., Tomlinson, B., Benzie, I.F.F., Total antioxidant and ascorbic acid content of fresh fruits and vegetables: implications for dietary planning and food preservation, Br. J. Nutr. 87 (2002) 5559.CrossRefGoogle ScholarPubMed