The Effect of Modified Atmosphere Packaging on the Shelf-life of Greenhouse-grown Tomato
الموضوعات :B. Tajeddin 1 , F. Azadshahraki 2 , Z. Rafiee Darsangi 3
1 - Associate Professor of the Food Engineering & Post-harvest Technology Research Department, Agricultural Engineering Research Institute (AERI), Agricultural Research, Education and Extension Organization (AREEO), Karaj, Iran.
2 - Assistant Professor of the Greenhouse Engineering Research Department, Agricultural Engineering Research Institute (AERI), Agricultural Research, Education and Extension Organization (AREEO), Karaj, Iran.
3 - Laboratory Expert of the Food Engineering & Post-harvest Technology Research Department, Agricultural Engineering Research Institute (AERI), Agricultural Research, Education and Extension Organization (AREEO), Karaj, Iran.
الکلمات المفتاحية: Cold Storage, Compost Tea, Nanopolymer, Packaging, Shelf-Life, tomato,
ملخص المقالة :
In the present study, packaging of a greenhouse-grown tomato on the culture medium containing 0, 25, 50, 75 and 100% compost tea under modified atmosphere: MA (88%N2 + 8%CO2 + 4%O2) in polyethylene and nanosilicon-polyethylene bags was studied at 5°C for 30 days. Several quality parameters such as moisture content, pH, total soluble solids (TSS), titratable acidity (TA), Vitamin C content, texture, and respiration rate were evaluated after 0, 10, 20, and 30 days of storage. Data were then analyzed using three-factor (i.e. substrate, packaging film, and storage time) completely randomized design with three replicates by SPSS software. Results showed that in term of substrate, the treatments containing compost tea had a significant effect on the characteristics of tomato in comparison with substrate without compost tea. However, the different levels of compost tea did not show the same results for all experiments. In term of storage time, most of the characteristics had a decreasing trend; however, they were in the defined standard domain for these properties. In term of the type of film, nano film was superior to polyethylene film. These findings confirmed the extension shelf life and maintain the quality of growing tomatoes on the substrate containing compost tea packaged under MA in a nanosilicon-polyethylene film for one month.
Ahmadzadeh Ghavidel, R. (2008). Increasing the shelf life of tomatoes in package with modified atmosphere. First National Congress on Tomato Production and Processing Technology, Mashhad, Iran.
AOAC. (2005a). Method 923.03. In: Official Methods of Analysis, 18th Edition, AOAC International Publisher, Gaithersburg.
AOAC. (2005b). Method 967.21. In: Official Methods of Analysis, 18th Edition, AOAC International Publisher, Gaithersburg
Arancon, N. Q., Edwards, C. A., Dick, R. & Dick, L. (2007). Vermicompost tea production and plant growth impacts, Part I. Biocycle, Advancing Composting, Organics Recycling and Renewable Energy. www.biocycle.net
Arancon, N. Q., Pant, A., Radovich, T. J. K., Hue, N. V., Potter Jesse, K. & Converse Chad, E. (2012). Seed germination and seedling growth of tomato and lettuce as affected by vermicompost water extracts (teas). Hortscience, 47(12), 1722-1728.
Atiyeh, R. M., Arancon, N., Edwards, C. A. & Metzge, J. D. (2002). The influence of humic acids derived from earthworm processed organic wastes on plant growth. Bioresource Technology, 84(1), 7-14.
Bakhtiari, A.E., Abdollahpour, S. & Hematian, A. (2010). Effect of Factors on modeling the respiratory rate of fruits and vegetables for Modified Atmospheric Packaging (MAP). First National Conference on Mechanization and Modern Technologies in Agriculture, Iran.
Batu, A. & Thompson, A. K. (1998). Effects of modified atmosphere packaging on post-harvest qualities of pink tomatoes. Turkish Journal of Agriculture and Forestry, 22(4), 365-372.
Bezanson, G. S., Ells, T. C. & Prange, R. K. (2014). Effect of composting on microbial contamination and quality of fresh fruits and vegetables - a mini-review. Acta Horticulture, 1018, 631-638.
Caleb, O. J., Opara, U. L. & Witthuhn, C. R. (2012). Modified atmosphere packaging of pomegranate fruit and arils: a review. Journal of Food and Bioprocess Technology, 5, 15-30.
Castro, S. M., Saraiva, J. A., Lopes-da-Silva, J. A., Delgadillo, I., Van Loey, A., Smout, C. & Hendrickx, M. (2008). Effect of thermal blanching and of high pressure treatments on sweet green and red bell pepper fruits (Capsicum annuum L.). Food Chemistry, 107, 1436–1449.
Dehdashtizadeh, B., Aruee, H., Azizi, M. & Davoudinezhad, G. H. (2009). Effect of different levels of vermicompost and phosphorus mineral elements on growth and development and intake of some nutrients in tomato seedlings. Journal of Horticultural Science, 40 (3), 49-58.
Ebrahimian, A. (2012). Evaluation of various atmospheric compositions in packaging on the storage time and the quality of some fruits and vegetables. MSc. Thesis, Agricultural Machinery Mechanics, University of Agricultural Sciences and Natural Resources of Sari, Iran.
El-Hanafi Sebti, K. (2005). Compost tea effects on soil fertility and plant growth of organic tomato (Solanum Lycopersicum Mill) in comparison with different organic fertilizers. Master Thesis, IAMB Mediterranean Agronomic Institute of Bari, Organic farming. Collection Master of Science IAMB-CIHEAM (International Centre for
advanced Mediterranean agronomic studies, no. 405, Italy.
Farber, J. N., Harris, L. J., Parish, M. E., Beuchat, L. R., Suslow, T. V., Gorney, J. R., Garrett, E. H. & Busta, F. F. (2003). Microbiological safety of controlled and modified atmosphere packaging of fresh and fresh-cut produce. Comprehensive Review in Food Science and Food Safety, 2, 142–160.
Federico, A., Gutierrez, M., Santiago-Borraza, I., Adolfo Montes, J., Camerino, C., Abud-Archila, M., Angelam, M., Llaven, A., Rincon-Rosales, R. & Dendooven, L. (2007). Vermicompost as a soil supplement to improve growth, yeild and fruit quality of tomato (Lycopersicum esculentum). Bioresources Technology, 98, 2781-2786.
Geeson, J. D., Genge, P. M. & Sharpies, R. O. (1994). The application of polymeric film lining systems for modified atmosphere box packaging of English apples. Postharvest Biology and Technology, 4, 35–48.
Gericke, W. F. (1937). Hydroponics – crop production in liquid culture media. Science, 85, 177-185.
Gil, M. I., Conesa, M. A. & Arte´s, F. (2002). Quality changes in fresh cut tomato as affected by modified atmosphere packaging. Postharvest Biology and Technology, 25, 199–207.
Gross, K. C., Wang, C. Y. & Saltveit, M. (2016). The commercial storage of fruits, vegetables, and florist and nursery stocks, in: Agriculture Handbook Number 66. Agricultural Research Service, United States Department of Agriculture (USDA).
Hong, J. H. & Gross, K. C. (2001). Maintaining quality of fresh‐cut tomato slices through modified atmosphere packaging and low temperature storage. Journal of Food Science, 66(7), 960-965.
Ingram, D. T. & Millner, P. D. (2007). Factors affecting compost tea as a potential source of escherichia coli and salmonella on fresh produce. Journal of Food Protection, 70 (4), 828-834.
Javanmardi, J. & Hasanshahian, O. (2014). Humic acid and manure tea affected reproductive stage and fruit quality factors of pepino in organic production system. Rahmann, G. & Aksoy, U. (Eds.), Proceedings of the 4th ISOFAR Scientific Conference. ‘Building Organic Bridges’, at the Organic World Congress 2014, 13-15 Oct., Istanbul, Turkey (eprint ID 23677).
Joe, V., Rock, C. & Mclain, J. (2017). Compost tea 101: what every organic gardener should know. The University of Arizona, college of Agriculture & Life Sciences.
Kader, A. A. & Watkins, C. B. (2000). MAP toward 2000 and beyond. Horttechnology, 10(3), 483-486.
Li, H. M., Li, F. & Wang, L. (2009). Effect of nano-packing on preservation quality of Chinese jujube. Journal of Food Chemistry, 114, 547-552.
Li, X., Li, W., Jiang, Y., Ding, Y., Yun, J., Tang, Y. & Zhang, P. (2011). Effect of nano-ZnO-coated active packaging on quality of fresh-cut "fugi" apple. Journal of Food Science and Technology, 46, 1947-1955.
Liguori, L., Pane, C., Albanese, D., Celano, G., Zaccardelli, M. & Di Matteo, M. (2015). Compost and compost tea management of mini watermelon cultivations affects the chemical, physical and sensory assessment of the fruits. Agricultural Sciences, 6, 117-125.
Majidi, H., Minaei, S., Almassi, M. & Mostofi, Y. (2012). Tomato quality in controlled atmosphere storage, MAP and cold storage. Association of Food Science& Technologists, 51(19), 2155-2161.
Mangaraj, S., Goswami, T. K. & Mahajan, P. V. (2009). Application of plastic films for MAP of fruits and vegetables: a- review. Food Engineering
Reviews, 1, 133-158.
Mazaheri Tehrani, M., Mortazavi, S.A., Ziaal-Haq, H. & Qandi, A. (2007). Production and processing of tomatoes. Marze Danesh Publication, 337 pages.
Oms-Oliu, G., Hertog, M. L. A. T. M., Van de Poel, B., Ampofo-Asiama, J., Geerared, A. H. & Nicolai, B.M. (2011). Metabolic characterization of tomato fruit during preharvest development,
ripening, and postharvest shelf-life. Postharvest Biology and Technology, 62, 7-16.
Perkins-Vaezie, P. (2007). Blueberry fruit response to postharvest application of ultraviolet radiation. Postharvest Biology and Technology, 10, 1005-1016.
Rahemi, M. (1998). Post-harvest physiology. Introduction to physiology and the handling of fruits and vegetables, 2nd Edition, Shiraz University Press.
Rathore, H. A., Masud, T., Shehla, X. S. & Soomro, A. H. (2007). Effect of storage on physico-chemical composition and sensory properties of Mango (Mangnifera indica L.) variety Dosehari. Pakistan Journal of Nutrition, 6(2), 143-148.
Riahi, A., Hdider, C., Saana, M., Tarchoun, N., Ben Kheder, M. & Guezal, I. (2009). The Influence of Different Organic Fertilizers on Yield and Physico-Chemical Properties of Organically Grown Tomato. Journal of Sustainable Agriculture, 33(6), 658-673.
Sahin, F. H., Ulger, P., Aktas, T. & Orak, H. (2010). Effects of different drying techniquers on some nutritional components of Tomato (Lycopersicon esculentum). Journal of Agricultural Machinery Science, 6(1), 71-78.
Sammi, S. & Masud, T. (2007). Effect of Different Packaging Systems on Storage Life and Quality of Tomato (Lycopersicon esculentum var. Rio Grande) during different ripening stages. International Journal of Food Science and Technology, 44(5), 918- 926.
Sandhya, A. (2010). Modified atmosphere packaging of fresh produce: Current status and future needs. LWT-Food Science and Technology, 43(3), 381-392.
Tabatabaei Klour, S. R., Ebrahimian, A. & Hashemi, S. J. (2016). Effect of temperature, package type and modified atmosphere on quality characteristics of tomato. Journal of Food Science and Technology, 13(51), 13-1.
Tajeddin, B., Ahmadi, B., Sohrab, F. & Ahmadi Chenarbon, H. (2017). Polymers for modified atmosphere packaging applications (Chapter 14), in "Handbook of food bioengineering, Volume 9: Food packaging and preservation", Alexandru Mihai Grumezescu & Alina Maria Holban (Eds.), pp. 457- 499, Elsevier, Academic Press (AP).
Tajeddin, B. & Behmadi, H. (2019). Respiration rate and some physicochemical characteristics of Salicornia bigelovii as a leafy green vegetable. Journal of Food Biosciences and Technology, 9(2), 21-28.
Themman, A. P. N., Tucker, G. & Grierson, D. (1982). Degradation of isolated tomato cellwalls by purified polygalacturonase in vitro. Journal of Plant Physiology, 69, 122-124.
Tsegay, D., Tesfaye, B., Mohammed, A., Yirga, H. & Bayleyegn, A. (2013). Effects of harvesting stage and storage duration on postharvest quality and shelf life of sweet bell pepper (Capsicum annuum L.) varieties under passive refrigeration system. International Journal for Biotechnology and Molecular Biology Research, 4(7), 98-104.
Yang, F., Li, H., Li, F. & Hu, Q. (2010). Effect of nano-packing on preservation quality of fresh strawberry (Fragaria ananassa Duch.cv.Fengxiang) during storage at 4ºC. Journal of Food Science, 75, 236-240.