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Journal of Integrative Agriculture  2017, Vol. 16 Issue (09): 2093-2100    DOI: 10.1016/S2095-3119(16)61569-1
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Effect of post-harvest UV-C irradiation and calcium chloride on enzymatic activity and decay of tomato (Lycopersicon esculentum L.) fruit during storage
Saeideh Mansourbahmani1, Behzad Ghareyazie2, Sepideh Kalatejari1, Reza Salehi Mohammadi3, Vahid Zarinnia1
1 Department of Horticultural Sciences, Science and Research Branch, Islamic Azad University, Tehran 1477893855, Iran
2 Agriculture Biotechnology Research Institute of Iran (ABRII)/Agricultural Research, Education and Extension Organization (AREEO), Karaj 3158777871, Iran
3 Department of Horticultural Sciences, University of Tehran, Karaj 3158777871, Iran
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Abstract      Tomato is one of the extensively consumed vegetable crops worldwide.  The regular consumption of tomato decreases the incidence of chronic degenerative diseases such as certain types of cancer and cardiovascular diseases.  The objective of this study was to find an appropriate method that not only reduces tomatoes decay, but also maintains its post-harvest quality.  A factorial experiment based on randomized complete block design with three replications was conducted to evaluate effects of ultraviolet (UV)-C and CaCl2 applications on tomato during storage.  The traits studied included ethylene, polygalacturonase (PG) activity, pectin methyl esterase (PME) activity, firmness, total phenol content, and fungal-induced decay were measured weekly during 35 days of storage.  Both UV-C and CaCl2 treatments had positive effects on tomato quality as compared to control treatment.  The 3 and 4.5 kJ m–2 levels of UV-C and 2% CaCl2 had positive effects on quality characteristics, respectivly.  Fruits treated by UV-C and CaCl2 had higher phenol and firmness, and less PME activity, PG activity, ethylene production, and decay than the control fruits.  In conclusion, increasing in storage duration significantly affected the fruits quality by increasing in ethylene, PME activity, PG activity, decay and decreasing the phenol content and firmness.  But UV-C and CaCl2 led to significant decrease in this adverse impact relative to control treatment.  
Keywords:  CaCl2        ethylene production        firmness        PG        PME        phenol  
Received: 13 August 2016   Accepted:
Corresponding Authors:  Correspondence Sepideh Kalatejari, Tel/Fax: +98-21-44865179, E-mail: str.branch@gmail.com   

Cite this article: 

Saeideh Mansourbahmani, Behzad Ghareyazie, Sepideh Kalatejari, Reza Salehi Mohammadi, Vahid Zarinnia. 2017. Effect of post-harvest UV-C irradiation and calcium chloride on enzymatic activity and decay of tomato (Lycopersicon esculentum L.) fruit during storage. Journal of Integrative Agriculture, 16(09): 2093-2100.

Barka E A, Kalantari S, Makhlouf J, Arul J. 2000. Impact UV-C irradiation on the cell walldegrading enzymes during ripening of tomato (Lycopersicon esculentum L.) fruit. Journal of Agricultural and Food Chemistry, 48, 667–671.

Batu A. 2004. Determination of acceptable firmness and colour values of tomatoes. Journal of Food Engineering, 61, 471–475.

Bu J, Yu Y, Aisikaer G, Ying T. 2013. Postharvest UV-C irradiation inhibits the production of ethylene and the activity of cell wall-degrading enzymes during softening of tomato (Lycopersicon esculentum L.) fruit. Postharvest Biology and Technology, 86, 337–345.

Cheour F, Willemot C, Arul J , Makhlouf J, Desjardins Y. 1991. Postharvest response of two strawberry cultivars to foliar application of CaCl2. HortScience, 9, 1186–1188.

Conway W S, Sam C E. 1984. Possibles mechanisms by which postharvest calcium treatment reduces decay in apples. Phytopathology, 74, 208–210.

D’hallewin G, Schira M, Pala M, Ben-Yehoshua S. 2000. Ultraviolet C irradiation at 0.5 kJ m–2 reduces decay without causing damage or affecting postharvest quality of star ruby grapefruit (C. paradise Macf.). Journal of Agricultural and Food Chemistry, 48, 4571–4575.

Fonseca J M, Rushing J W. 2006. Effect of Ultraviolet-C light on quality and microbial population of fresh-cut watermelon. Postharvest Biology and Technology, 40, 256–261.

Gonzalez-Aguilar G A, Zavaleta-Gatica R, Tiznado-Hernandez M E. 2007. Improving postharvest quality of mango Haden by UV-C treatment. Postharvest Biology and Technology, 45, 108–116.

Guillén F, Castillo S, Zapata P J, Martínez-Romero D, Serrano M, Valero D. 2007. Efficacy of 1-MCP treatment in tomato fruit: 1. Duration and concentration of 1-MCP treatment to gain an effective delay of postharvest ripening. Postharvest Biology and Technology, 43, 23–27.

Hajiloo J, Deghan G R, Amjad L, Zinalirad S. 2012. Biochemical and physiological changes blueberry fruit during storage period. MSc thesis, Faculty of Natural Sciences, Tabriz University, Iran. (in Persian)

Jagadeesh S L, Charles M T, Gariepy Y, Goyett B, Ragharan G S, Vigneault C. 2009. Influence of postharvest UV-C hormesis on the bioactive components of tomato during posttreatment handling. Food Bioprocess Technology, 4, 1–10.

Ketsa S, Daengkanit T. 1999. Firmness and activities of polygalacturonase, pectinesterase, β-galactosidase and cellulase in ripening durian harvested at different stages of maturity. Scientia Horticulturae, 80, 181–188.

Krebbers B, Matser A M, Hoogerwerf S W, Moezelaar R, Tomassen M M M, Berg R W V D. 2003. Combined high-pressure and thermal treatments for processing of tomato puree: Evaluation of microbial inactivation and quality parameters. Innovative Food Science & Emerging Technologies, 4, 377–385.

Li L, Ban Z, Li X, Xue T. 2014. Effect of 1-methylcyclopropene and calcium chloride treatments on quality maintenance of ‘Lingwu Long’ Jujube fruit. Journal of Food Science and Technology, 51, 700–707.

Luna-Guzmán I, Barrett D M. 2000. Comparison of calcium chloride and calcium lactate effectiveness in maintaining shelf stability and quality of fresh-cut cantaloupes. Postharvest Biology and Technology, 19, 61–72.

Lurie S. 2009. Stress physiology and latent damage. In:  Florkowski W J, Shewfelt R L, Brueckner B, Prussia S E, eds., Postharvest Handling. 2nd ed. Academic Press, San Diego. pp. 443–459.

Manganaris G A, Vasilakakis M, Diamantidis G, Mignani I. 2007. The effect of postharvest calcium application on tissue calcium concentration, quality attributes, incidence of flesh browning and cell wall physicochemical aspects of peach fruits. Food Chemistry, 100, 1385–1392.

Manganaris G A, Vasilakis M, Migani I, Diamantidis G, Tzavellaklonari K. 2005. The effect of preharvest calcium sprays on quality attributes, physicochemical aspects of cell wall components and susceptatibility to brown rot of peach fruit (Prunus persica L. cv. Andross). Scientia Horticultureae, 107, 43–50.

Severo J, Tiecher A, Pirrello J N, Regad F, Latché A, Pech J, Bouzayen M, Rombaldi V C. 2015. UV-C radiation modifies the ripening and accumulation of ethylene response factor (ERF) transcripts in tomato fruit. Postharvest Biology and Technology, 102, 9–16.

Shiri M A, Ghasemnezhad M, Fatahi M J, Ebrahimi R. 2014. Fruit growth and sensory evaluation of ‘Hayward’ kiwifruit in response to preharvest calcium chloride application and orchard location. Agriculturae Conspectus Scientificus, 79, 183–189.

Shiri M A, Ghasemnezhad M, Fatahi M J, Ebrahimi R. 2016. Enhancing and maintaining nutritional quality and bioactive compounds of ‘Hayward’ kiwifruit: Comparison the effectiveness of different CaCl2 spraying times. Journal of Food Processing and Preservation, 40, 850–862.

Stevens C, Khan V A, Lu J Y, Wilson C L, Pusey P L, Kabwe M K, Igwegbe E C K, Chalutz E, Droby S. 1998. The germicidal and hormetic effects of UV-C light on reducing brown rot disease and yeast microflora of peach. Crop Protection, 17, 75–84.

Stevens C, Khan V A, Wilson C L, Lu J Y, Chalutz E, Droby S. 2005. The effect of fruit orientation of postharvest commodities following low dose ultraviolet light-C treatment on host induced resistance to decay. Crop Protection, 24, 756–759.

Stevens C, Liu J, Khan V A, Lu J Y, Kabwe M K, Wilson C L, lgwegbe E C K, Chalutz E, Droby S. 2004. The effects of low-does ultraviolet light-C treatment on polygalacturonase activity, delay ripening and Rhizopus soft rot development of tomatoes. Crop Protection, 23, 551–554.

Zhu Z, Chen Y, Zhang X, Li M. 2016. Effect of foliar treatment of sodium selenate on postharvest decay and quality of tomato fruits. Scientia Horticulturae, 198, 304–310.
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