Open Access
Subscription Access
Studies on Pretreatment of Minimally Processed Banana Central Core
In general, banana pseudo stem (central core) is an abundant natural resource in tropical and subtropical regions. Banana central core is used traditionally as vegetable and preparing soup. Banana central core is having property of dissolving kidney stone. Stem juice of banana central core is used for treating diarrhoea, dysentery, diabetes, antilithic, antiulcerogenic, hypoglycemic, hypolipidemic, antioxidant actions inflammation etc. However, the usage of the central core is very low because of its tedious pre-preparation process. The main objective of this investigation is to evaluate the equipment designed by CIAE-IEP- NRCB, for the minimal processing of banana central core and to standardize the pretreatment to arrest the oxidation during processing with extended shelf life. Central core of banana has the property of quick oxidizing, because of the action of polyphenol oxidase. Various pretreatments like Citric Acid (CA), Ascorbic acid (AA) and Potassium Meta bisulphite (KMS) with varying concentrations (0.05, 0.1 and 0.2%) and combinations were used for standardizing the pretreatment method for minimal processing. Samples were stored under both ambient and refrigerated condition for analysis. They were standardized based on the analysis in colour, pH&Microbial load on daily basis. Based on the present investigation it has found that KMS at 0.2% and combination of KMS (0.1%) + AA (0.1%) gave good result. The colour and pH was acceptable level till day 3 in ambient and day 5 in refrigeration. There were no changes in colour and off odour till these days. Sensory evaluation conducted by 5 point hedonic scale gave pretreated day fifth refrigerated sample (0.1% KMS + 0.1% AA) as the best result.
Keywords
Antilithic, Antioxidants, Antiulcerogenic, Ascorbic Acid, Banana Central Core, Citric Acid, Dicing, Hypoglycemic, Hypolipidemic, Minimal Processing, Polyphenol Oxidase, Potassium Meta Bisulphite.
User
Font Size
Information
- Indian horticultural database. Published by national horticultural board, ministry of agriculture, government of India, gurgan, India. 2012.
- Shiva K.N., Mail Vaganan M., and Mustaffa M.M., “Value addition in Banana – A Potential enterprise”. Souvenir of the Global Conference on Banana- Meeting the Challenges in on banana and plantation for emerging biotic and abiotic stresses, 10-13 December 2010, Tiruchirappalli: organized by AIPUB & NRCB, Tiruchirappalli, Tamil Nadu, p. 70–74, 2010.
- Vaganan M.M., Shiva K.N., Ravi I., and Mustaffa M.M.. “Wealth generation from waste: Banana fibre, Paper and fuel”. Souvenir of the Global Conference on Banana- Meeting the Challenges in on banana and plantation for emerging biotic and abiotic stresses, AIPUB & NRCB, Tiruchirappalli, Tamil Nadu, p. 75–80, 2010.
- Mustaffa M.M., and Shiva K.N., “Banana and Processed Products as Food, Nutrient and Livelihood” Shodh Chintan (Souvenir) of 4th Swadesh Prem Jagriti Sangosthi 2012 (Eds. Babita Singh, Manoj Kumar and Malhotra, S.K.) – Global Conference on Horticulture for food, nutrition and livelihood options, organized by ASM Foundation, New Delhi and OUAT, Bhubaneswar, Odisha, 28-31 2012 at Bhubaneswar, Odisha: Published by Plain & Valley, New Delhi, p. 78–82. 2012
- Ultra V.U., Mendozam D.M., and Briones A.M., “Chemical changes under aerobic composting and nutrient supplying potential of banana residue compost”, Renew. Agr. Food. Syst., vol. 20(2). p. 113–125, 2005.
- Ulloa J.B., Weerd J.H., Huisman E.A., and Vereth J.A.J., “Tropical agricultural residues and their potential uses in fish fees: the costa ican situation”, Waste Manag., vol. 24(1). p. 87–97, 2004.
- Pothan L.A., and Thomas S., “Polarity parameters and dynamic mechanical behaviour of chemically modified banana fiber reinforced polyester composites”, Compos. Sci. Tech., vol. 63(9). p. 1231–1240, 2003.
- Habibunnisa, Baskaran R., Prasad R., Shivaiah K.M., “Storage behaviour of minimally processed pumpkin (Cucurbita maxima) under modified atmosphere packaging conditions”, Eur. Food Res. Technol., vol. 212,.p. 165–169, 2001.
- Babarinde G.O., and Fabunmi O.A., “Effects of packaging materials and storage temperature on quality of fresh okra (Abelmoschus esculentus) fruit”, Agricultura Tropica Et Subtropica, vol. 42. p. 4, 2009.
- Alam M.S., Kaur B., Gupta K., and Uma S., “Studies on refrigerated storage of minimally processed papaya (Carica papaya L.)”, Department of Processing and Food Engineering, Punjab Agricultural University, Ludhiana, Punjab, India, 15, p. 4. 2013.
- Kay S.J., “Postharvest Physiology of Perishable Plant Products”, New York: Van Nostrand Reinhold. 1999.
- Sgroppo S.C., Vergara L.E., and Tenev M.D., “Effects of sodium metabisulphite and citric acid on the shelf life of fresh cut sweet potatoes”, Spanish. J. Agr. Res., vol. 8(3). p. 686– 693, 2010.
- Barwal V.S., Sharma R., and Singh R., “Preservation of cauliflower by hurdle technology”, J. Food Sci. Tech., vol. 42(1). p. 26–31, 2005.
Abstract Views: 653
PDF Views: 613