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Effect of Packaging Materials on Quality Losses in Fresh Fig (Ficus carica L.) Fruits During Transportation


Affiliations
1 Department of Agricultural Process Engineering, Mahatma Phule Krishi Vidyapeeth, Rahuri, Ahmednagar (M.S.), India
2 Department of Processing and Food Engineering, University of Agricultural Sciences, Raichur (Karnataka), India
3 Department of Agricultural Processing and Food Engineering, Vasantrao Naik Marathwada Krishi Vidyapeeth, Parbhani (M.S.), India
     

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The protection of the fig fruit quality in the chains from harvesting to marketing is very important. Vibration often causes some damages to perishable fruits in transportation and reduces their quality. The fruit injury due to vibration is related to the transportation characteristics of vehicles, packaging boxes and the conditions of the roads. The objective of this study was to investigate the effectiveness of packaging materials to reduce the quality loss of fresh fig during transportation. The experiments were carried out with five packaging materials and three transportation distances. The results showed that the CFB box with news paper lining was not proper for transporting of the fresh fig fruits in all transportation distance. The mass loss and total soluble solids of fresh fig fruits packed in CFB box with paper lining was more than CFB box with polyurethane foam sheet and polyethylene foam sheet. Also the decay loss of fresh fig fruits was more in CFB box with paper lining. Fruits packed in CFB box with polyurethane foam sheet were more firm and extended shelf-life than other packaging material.

Keywords

Fig, Packaging, Polyurethane Foam, Quality, Transport, Vibration.
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  • Acican, T., Alibas, K. and Ozelkok, I.S. (2007). Mechanical damage to apples during transport in wooden crates. Biosystems Engg., 96(2): 239-248.
  • Alayunt, F.N., Cakmak, B., Can, Z. and Aksoy, U. (2000). A study on vibrational damage to some fig cultivars using a simulator. XXIV. HASATC Research and Development Conference Proceedings.
  • Blazkova, J., Hlusickova, I. and Blazek, J., (2002). Fruit weight, firmness and soluble solids content during ripening of Karesova cv. sweet cherry. Hort. Sci., 29 (3): 92-98.
  • Bollen, A.F. and De La Rue, B.T. (1990). Handling impactsfor kiwifruit, Asian pears and apples. ASAE Paper No 90-6005.
  • Budde, C.O., Blanco, M.P. and Altube, H.A.(2000). Fruit firmness, ground color and ethylene evolution in two cultivars of peach (Prunus persica L. Batsch). Agriscientia,17: 69-72.
  • Hung, D. V., Tanaka, F., Uchino, T. and Hiruma, N.(2011). Using nanomist humidifier to maintain postharvest quality of fig (Ficus carica L.) fruit in high humidity storage environment. J. Fac. Agr., 56(2): 361-365.
  • Kuczynski, A., Varoquaux, P. and Souty, M. (1994). Reflectance spectra of 'ready-to-use' apple products for determination of enzymatic browning. Int. Agrophys, 7: 85-92.
  • Miccolis, V. and Saltveit, M.E.(1995). Influence of storage temperature on the postharvest characteristics of six melons (Cucumis melo L., Inodorus Group) cultivars. Postharvest Biol. Technol., 5: 211-219.
  • O'Brien and Guillou, R. (1969). An in-transit vibration simulator for fruit-handling studies. Trans. ASAE, 12(1): 94-97.
  • Ogut, H., Peker, A. and Aydin, C. (1999). Simulated transit studies on peaches: effect of container, cushion materials and vibrations on elasticity modulus. Agricultural Mechanization in Asia, Africa & Latin America, 30(3): 59-62.
  • Ozguven, F. and Vursavus, K. (2002). Domateste olusan mekanik zedelenme uzerine tasyma syrasyndaki titresim etkilerinin arastyrylmasy. Cukurova Universitesi Ziraat Fakültesi Dergisi, 17(2): 33-40.
  • Peleg, K. and Hinga, S.(1986). Simulation of vibration damage in produce transportation. Trans. ASAE, 29(2): 633-641.
  • Singh, K.K. and Reddy, B. Sreenivasula (2006). Post-harvest physico-mechanical properties of orange peel and fruit. J. Food Engg., 73: 112-120.
  • Singh, S.P. and Xu, M. (1993). Bruising in apple as a function of truck vibration and packaging. American Society of Agricultural Engineers, 9(5): 455-460.
  • Sommer, N.F. (1957). Pear transit simulated in test. California Agriculture, 11(1): 3-4.
  • Zhou, R., Su, S., Yan, L. and Li, Y. (2007). Effect of transport vibration levels on mechanical damage and physiological responses of Huanghua pears (Pyrus pyrifolia Nakai, cv. Huanghua). Postharvest Biology & Technol.,46 (1): 20-28.
  • www.indiastat.com(2009)

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  • Effect of Packaging Materials on Quality Losses in Fresh Fig (Ficus carica L.) Fruits During Transportation

Abstract Views: 498  |  PDF Views: 2

Authors

Govind B. Yenge
Department of Agricultural Process Engineering, Mahatma Phule Krishi Vidyapeeth, Rahuri, Ahmednagar (M.S.), India
Shubhangi D. Shelar
Department of Processing and Food Engineering, University of Agricultural Sciences, Raichur (Karnataka), India
Kiran S. Shinde
Department of Agricultural Processing and Food Engineering, Vasantrao Naik Marathwada Krishi Vidyapeeth, Parbhani (M.S.), India

Abstract


The protection of the fig fruit quality in the chains from harvesting to marketing is very important. Vibration often causes some damages to perishable fruits in transportation and reduces their quality. The fruit injury due to vibration is related to the transportation characteristics of vehicles, packaging boxes and the conditions of the roads. The objective of this study was to investigate the effectiveness of packaging materials to reduce the quality loss of fresh fig during transportation. The experiments were carried out with five packaging materials and three transportation distances. The results showed that the CFB box with news paper lining was not proper for transporting of the fresh fig fruits in all transportation distance. The mass loss and total soluble solids of fresh fig fruits packed in CFB box with paper lining was more than CFB box with polyurethane foam sheet and polyethylene foam sheet. Also the decay loss of fresh fig fruits was more in CFB box with paper lining. Fruits packed in CFB box with polyurethane foam sheet were more firm and extended shelf-life than other packaging material.

Keywords


Fig, Packaging, Polyurethane Foam, Quality, Transport, Vibration.

References