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Prospects of post-harvest processing of fruit, A review

By: Mohammad Aurangzeb, Zia-Ul-Haq, Hamza Muneer Asam, Talha Mehmood, Sohail Raza Haidree

Key Words: Post harvest, Fruit, Storage, Processing, Packing

Int. J. Biosci. 17(1), 194-200, July 2020.

DOI: http://dx.doi.org/10.12692/ijb/17.1.194-200

Certification: ijb 2020 0048 [Generate Certificate]

Abstract

Harvested fruits require sufficient postharvest processing before and after reaping. Increased production needs more conservation and preservation practices. In under developed countries large amounts of fruit loss from production to consumption due to poor post-harvest practices. Holding of fruit in storage at farm is becoming necessary practice. Storage under the proper conditions permits the holding of the fruit in a high quality state throughout the storage period, thus providing a regulated supply of the fruit during the winter and spring following the harvesting. When fruit is picked from the trees, it continues to carry on the process on respiration which is characteristic of all living organisms. Oxygen is necessary for respiration, reducing oxygen contents of the air and increasing the carbon dioxide content is one method of reducing rate of respiration and increasing storage life of fruit. The reaction will continue until fruit becomes overripe, soft and unpalatable. The purpose of the storage is to provide a suitable atmosphere that will slow down this process. Wastage of fruit decreases the per capita accessibility of organic products. It is necessary to build up innovations in postharvest to increase life quality and year-round availability of fruit. This paper talks about normal nevertheless significant postharvest advancements to keep up the nature of organic products.

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Prospects of post-harvest processing of fruit, A review

Abadias M. 2008. Microbiological quality of fresh, minimally-processed fruit and vegetables , and sprouts from retail establishments. International Journal of Food Microbiology 123, 121-129

Adisa VA. 1986. The influence of molds and some storage factors on the ascorbic acid content of orange and pineapple fruits. Food Chemistry 22, 13-146

Alenazi M. 2009. Effect of harvesting and storage conditions on the post-harvest quality of tomato (Lycopersiconesculentum Mill). Australian Journal of Crop Science Southern Cross 3(2),113-121.

Anonymous. 2006. Postharvest Management of Fruit and Vegetables in the Asia-Pacific Region. Asian Productivity Organization, Japan. ISBN: 92-833-7051-1.

Anonymous. 2013. Press Information Bureau Government of India, Ministry of Agriculture, MP: SS: CP: vegetables& fruits, 17th December 17, 20 IST.

Argenta LC. 2004. Production of volatile compounds by fuji apples following exposure to high CO2 or low O2.Journal of Agricultural Food Chemistry 52, 5957-5963.

Bachmann J, Earles R. 2000.Postharvest handling of fruits and vegetables. Appropriate Technology Transfer for Rural Areas. NCAT Agriculture Specialists pp. 1-19.

Beaudry RM, Cameron AC, Shirazi A. Dostal-Lange DL. 1992. Modified-atmosphere packaging of blueberry fruit: Effect of temperature on package O2 and CO2. Journal of American Society of Horticulture Science 117, 436-441.

Bhosale J. 2013. Emerson Climate Technologies India, a business of the US-based manufacturing and technology company Emerson. ET Bureau, 28th November 02, 53 PM, IST.

Botrel N, De-Carvalho VD, Capriade VD. 1993. Effect of fruit weight on internal browning and quality inpine apple smooth cayenne. Pesquisa Agrropequaria Brasiliere 28(9), 1055-1064.

Buzby JC. Hyman J. 2012. Total and per capita value of food loss in the United States. Food Policy 37(5), 561-570.

Chakraverty A. 2001. Post-harvest Technology. Enfield, NH: Scientific Publishers. ISBN: 0-8247-0514-9

Chonhenchob V, Chantarasomboon Y. Singh SP. 2007. Quality changes of treated fresh-cut tropical fruits in rigid modified atmosphere packaging containers. Packaging Technology Science 20, 27-37.

Day BPF. 2008. Active packaging of food. In Smart Packaging Technologies for Fast Moving Consumer Goods.Hoboken, NJ: John Wiley pp. 1-18.

Egharevaba RKA. 1995. Physiology of fruits and vegetables. Journal of Tropical Postharvest 2, 51-73.

Fishman S, Rodov V. Ben-Yehoshua S. 1996. Mathematical model for perforation effect on oxygen and water vapour dynamics in modified atmosphere packages. Journal of Food Science 61, 956-961.

Gupta HC, Singh J, Kathuria OP. 2000. Methodological Investigation on Post harvest Losses, Journal of Indian Society Agriculture Statistics 53(2), 161-171.

Harvey JM. 1978. Reduction of losses in fresh market fruits and vegetables. Annual Review of Phytopathology 16, 321-341.

Hodges RJ, Buzby JC, Bennett B. 2011. Postharvest losses and waste in developed and less developed countries: opportunities to improve resource use. Journal of Agricultural Science 149, 37-45.

Hossain MA, Goffr MA, Chowdury JCS, Mollah MS. 1996. Shelf life of fruits of some tomato lines under ordinary condition. BARI Annual Report pp. 5-8.

Ilić Z, Fallik E, Dardić M. 2009. Harvest, sorting, packaging and storage of vegetables. Agriculturae Conspectus Scientificus 77(1), 1-4.

Izumi H, Tatsumi Y, Murata T. 1984. Effect of storage temperature on changes of ascorbic acid content of cucumber, winter squash, sweet potato and potato. Nippon Shokuhin Kogyo Gakkaishi 31, 47-49.

Jindal KK. 2004. Challenges and Opportunities in Apple Cultivation in Hills. Presented in National Works hopon Enhancing Productivity of Apple in India. YSPHUF, Solan. ISBN: 92-833-7051-1.

Jones CS, Holt JE, Schoorl D. 1991. A model to predict damage to horticultural produce during transport. Journal of Agriculture Engineering Research 50, 259-72.

Jong A, Jongbloed H. 2004.Conditions of purchase: active and intelligent packaging in Europe. Europian Food Drink Review Spring 1, 37-40.

Kader AA, Rolle RS. 2004. The Role of Postharvest Management in Assuring the Quality and Safety Horticultural Crops. Food and Agriculture Organization. Agricultural Services Bulletin 152, 52.

Kader AA. 2002. Postharvest Biology and Technology: An Overview, In: Postharvest technology of horticultural crops. University of California, Division of Agriculture and Natural Resources, Special Publication 3311, 39-47.

Kantor LS, Lipton K, Manchester A, Oliveira V. 1997. Estimating an addressing America’s food losses. Food Review 20, 3-11.

Kibar H. 2012. Design and management of postharvest potato (Solanum tuberosum L.) storage structures, Igdir University, Department of Biosystems Engineering, Igdir-Turkey, Ordu Üniversity. Ordu University Journal of Science and Technology l(2), 23-48.

Kitinoja L, Saran S, Roy SK, Kaderc AA. 2011. Postharvest technology for developing countries: challenges and opportunities in research, outreach and advocacy. Journal of Food Science and Agriculture 91, 597-603.

Mehyar GF, Han JH. 2011. Active Packaging for Fresh-Cut Fruits and Vegetables, Edited by Aaron L. Brody, Hong Zhuang and Jung H. Han. Blackwell Publishing Ltd pp. 267-284.

Miller EV, Heilman AS. 1952.Ascorbic acid and physiological breakdown in the fruits of the pineapple (Ananas comosus L. Merr.). Science 116, 505-506.

Mohamed S, Taufik B, Karim MNA. 1996. Effect of modified atmosphere packaging on the physiochemical characteristics of ciku (Achras sapota L) at various storage temperature. Journal of Science Food Agriculture 70, 231-240.

Ozdemir M, Floros JD. 2004. Onions: Postharvest Operation, Organisation: Massey University, Private Bag, Active food packaging technologies. Critical Review Food Nutrition 44, 185-193.

Ram R, Friedman K, Sobey MN. 2008. Impacts of harvesting and post harvesting processing methods on the quality and value of beche-de-mer in Fiji Islands. SPC Beche-de-merInformation Bulletin pp. 21-24.

Rodrigues ET, Han JH. 2003.Intelligent packaging. In: Heldman DR, editor. Encyclopedia of Agricultural, Food, and Biological Engineering. New York: Marcel Dekker pp. 528-535.

Salami P, Ahmadi H, Keyhani A, Sarsaifee M. 2010. Strawberry postharvest energy losses in Iran. Researcher 4, 67-73.

Shah A, Gupta DK, Arya SS. 2000. Value-added Product Development of Horticultural Produce. Indian Horticulture, April–June: pp18-20.

Sharp AK, Irving AR, Morris SC. 1993. Does temperature variation limit the use of MA packaging during shipment in freight containers In: G. Blanpied, Journal of Bartsch and Journal of Hicks (eds) Proc. 6th Intl Contr. Atmospheric Research Conference. Cornell University, Ithaca NY pp. 238-251.

Siddiqui MW, Momincm, Acharya P, Kabir J, Debnath MK, Dhua RS. 2013a. Dynamics of changes in bioactive molecules and antioxidant potential of Capsicum chinense Jacq. cv. Habanero at nine maturity stages. Acta Physiologiae Plantarum, 35(4), 1141-1148.

Singh A, Singh Y. 1992. Effect ofvibration during transportation on the quality of tomatoes. Journal of Agriculture Mechinary, Asia, Africa and Latin America 23, 70-72.

Smith RC. 2010. Vegetable Maturity Dates, Yields and Storage, Ph.D. Extension Horticulturist, NSDU Extension survice, North Dakota State University, Fargo, ND 58, 108.

Sudheer KP, Indira V. 2007. Postharvest technology of horticultural pp. 01-05.

Tan SC. 1997. Postharvest handling of cucumber, lettuce and tomato, Research Officer, Horticultural Science, South Perth. Farm note 41/96.

Mohammad Aurangzeb, Zia-Ul-Haq, Hamza Muneer Asam, Talha Mehmood, Sohail Raza Haidree.
Prospects of post-harvest processing of fruit, A review.
Int. J. Biosci. 17(1), 194-200, July 2020.
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