Original Article
Value addition to Fruit and Vegetable Processing Waste– An Appraisal
Year: 2020 | Month: December | Volume 10 | Issue 2
1.Anonymous. 1977. Olive canner fined for pits: making boilers fuel. Conner Paclur, 1977.
View at Google Scholar2.Anonymous. 1979. Trivalley fries boiler with peach pits. Processed Prepared Foods, 33.
View at Google Scholar3.Aref, H.L., Salah, K.B.H., Chaumont, J.P., Fekih, A.W., Aouni, M. and Said, K. 2010. In vitro antimicrobial activity of four Ficus carica latex fractions against resistant human pathogens. Pakistan Journal of Pharmaceutical Sciences, 23: 53-58.
View at Google Scholar4.Arrianitiyannis, I.S., Ladas, O. and Mavromatis, A. 2006. Wine waste treatment methodology. Int. J. Food Sci. Technol., 41(10): 1117-1151.
View at Google Scholar5.Arrianitiyannis, I.S. 2008. Waste management for food industries. Elsevier, Amsterdam, The Netherlands.
View at Google Scholar6.Arumugam, R. and Manikandan, M. 2011. Fermentation of Pretreated Hydrolyzates of Banana and Mango Fruit Wastes for Ethanol Production. Asian J. Exp. Biol. Sci., 2(2): 246-256.
View at Google Scholar7.Badger, P.C. and Brodwer, D.J. 1989. Ethanol production from food processing waste. Hort. Sci., 24(2): 227.
View at Google Scholar8.Bahar, S. and Azueze, J.T. 1984. Studies on the growth of Fusarium sp on citrus waste for production of single cell protein. J. Food Sci. Technol., 21(2): 63.
View at Google Scholar9.Bath, D.L. 1981. Feed by-products and their utilization by ruminants. In: Upgrading Residues and By Products for Animals. Thuber J (ed.) CRC Press, Inc. Boca Raton, F L.
View at Google Scholar10.Beerh, O.P., Raghuramaiah, B. and Krishnamurthy, G.V. 1976. Utilization of mango waste peel as a source of pectin. J. Food Sci. Technol., 13(2): 96.
View at Google Scholar11.Bendini, A., Cerretani, L., Pizzolante, L., Toschi, T.G., Guzzo, F., Ceoldo, S., Marconi, A.M., Andreetta, F., Levi, M. 2006. Eur. Food Res. Tech., 223: 102–109.
View at Google Scholar12.Bhalerao, S.D., Mulsmuky, G.V., Anthanthakishna, S.M. and Potty, V.H. 1989. Effluent management in food industry. Indian Food Packer, 43(2): 5.
View at Google Scholar13.Bhalla, T.C. and Joshi, M.C. 1994. Protein enrichment of apple pomace by co-culture of cellulolytic moulds and yeasts. Worlds J. Microbiol. Biotechnol., 10(1): 116.
View at Google Scholar14.Bhushan, S. and. Joshi, V.K 2007. Apple pomace utilization for the production of baker’s yeast: Performance in preparation of bakery products. Proc. Nat. Acad. Sci. India, 77(B) III: 303- 312.
View at Google Scholar15.Bhushan, S. and Joshi, V.K. 2006. Baker’s yeast production under fed batch culture from apple pomace. J. Sci. Ind. Res., pp. 72-76.
View at Google Scholar16.Boucque, C.V. and L.O. Fiems. 1988. Vegetable by-products of agro-industrial origin. Livestock Production Science, 19: 97- 135.
View at Google Scholar17.Boushy A.R. El and Poe A.F.B. van der. 2001. Formulating feed from waste and by-products. World Poultry Elsevier, 17(9): 34-37.
View at Google Scholar18.Campo, ID., Alegria, I., Zazpe, M., Echeverria, M. and Echeverria, I. 2006. Diluted acid hydrolysis pretreatment of agri-food wastes for bioethanol production. Indust. Crops and Prod., 42: 214 221.
View at Google Scholar19.Chaliha, B.P., Barua, A.D., Gohain, A. and Siddapa, G.S. 1963. Assam lemon as a source of pectin. Part I. Effect of method of extraction, drying and storage of peels and pomace on the recovery and quality of pectin. Indian Food Packer, 17(3): 8.
View at Google Scholar20.Chanda, S., Baravalia, Y., Kaneria, M. and Rakholiya, K. Fruit and vegetable peels- trong natural source of antimicrobics.
View at Google Scholar21.Cohn, R. and Cohn, L. 2001. By-products of fruit processing. In: Fruit Processing: Nutrition Products and Quality Management. Arthey D & Ashurt PR (eds). Aspean Publication, Maryland, pp. 225-245.
View at Google Scholar22.Costa, E.S., Hiruma-Lima, C.A., Lima, E.O., Sucupira, G.C., Bertolin, A.O., Lolis, S.F., Andrade, F.D.P., Vilegas, W. and Souza-Brito, A.R.M. 2008. Antimicrobial activity of some medicinal plants of the Cerrado, Brazil. Phytotherapy Research, 22: 705-707.
View at Google Scholar23.Das, N.B. and Banerjee, R.M. 1952. Utilization of mango seed kernel as source of starch. Science Culture, 17: 33.
View at Google Scholar24.Devarajan, A., Joshi, V.K., Gupta, K. Chander Shekhar and Lal, B.B. 2002. Evaluation of apple pomace based reconstituted feed in rats after solid state fermentation and ethanol recovery. Brazilian Archievs of Biology Technology, 47(1): 93- 106.
View at Google Scholar25.Devender, Attri and Joshi, V.K. 2005. Optimization of Apple Pomace Based Medium and Fermentation Conditions for Pigment Production by Chromobacter species. J. Food Sci. Technol., 43(5): 515-520.
View at Google Scholar26.Devender, Attri and Joshi, V.K. 2005. Optimization of apple pomace based medium and fermentation conditions for pigment production by Micrococcus species J. Sci. Ind. Res., 64: 598-601.
View at Google Scholar27.Directorate of Marketing and Inspection. 1958. Ministry of food and agriculture report.. Govt. of India, Nagpur.
View at Google Scholar28.Eliot, D.C., Baker, E.G., Butner, R.S. and Seebok Ir, L.J. 1993. Bench scale reactor tests of low temperature, catalytic gasification of wet industrial wastes. Transaction of the ASMME. J. Solar Energy Engg., 115: 53.
View at Google Scholar29.Essien, J.P., Akpan, E.J. and Essien, E.P. 2005. Studies on mould growth and biomass production using waste banana peel. Bioresource Technol., 96: 1451 1456.
View at Google Scholar30.FAO 2003. (Food and Agricultural Organization of the Unites Nations). FAOSTAT statistics data base, Agriculture, Rome, Italy.
View at Google Scholar32.Fluit, A.C., Visser, M.R. and Schmitz, F.J. 2001. Molecular detection of antimicrobial resistance. Clinical Microbiology Reviews, 14: 836-871.
View at Google Scholar33.Gera, I.B. and Kramer, A. 1969. The utilization of food industries westes In: Advances in Food Research, Chichester CO, Mark EM & Stewart GF (eds.), Academic Press, New York, London, pp. 28.
View at Google Scholar34.Ghanem, K.M. 1992. Single cell protein production from beet pulp by mixed cultures. Microbiologia, 8(1): 39.
View at Google Scholar36.Gray, S.T. 2006. Food waste management and value added products. J. Food Sci., 69(3): 102-104.
View at Google Scholar37.Gray, W.D. and Abou-el-Seound, M.O. 1966. Fungal protein for food and feed IV whole sugar beets on beet pulp as a substrate. Econ. Bot., 20: 372.
View at Google Scholar38.Grohmann, K., Baldwin, E.A. and Buslig, B.S. 1994. Production of ethanol form enzymatic hydrolysed orange peel by the yeast Saccharomyces cerevisiae. Appl. Biochem. Biotechnol., 45/46: 315.
View at Google Scholar39.Gross, J. 1977. In: Citrus Science and Technology Vol. 2. Negy S, Show PE & Veldhuis MK (eds.) AVI Pub. Westport CT, pp. 302.
View at Google Scholar40.Guneseelan, N.V. 2004. Biochemical methane potential of fruits and vegetables solid waste feedstocks. Biomass and Bioenergy, 26: 389-399.
View at Google Scholar41.Gupta, K. and Joshi, V.K. 2000. Fermentative Utilization of Food Processing Waste. In: Post-harvest Technology of Fruits and Vegetables. L.R. Verma, and Joshi, eds, pp. 1171- 1193. The Indus Publ. New Delhi.
View at Google Scholar42.Gupta, K. and Joshi, V.K. 2000. Fermentative utilization of waste from food processing industry. In: Post-harvest Technology of Fruits and Vegetables: Handling Processing Fermentation and Waste Management, Vol. 2. Verma LR & Joshi VK (eds). Indus Pub Co, New Delhi, pp. 1171-1193.
View at Google Scholar43.Gupta, R., Chauhau, T.R. and Lall, D. 1993. Nutritional protential of vegetable waste products for ruminants. Biores. Technol., 44: 263-265.
View at Google Scholar44.Hakkinen, S., Heinonen, M., Karenlampi, S., Mykkanen, H., Ruuskanen, J. and Torronen, R. 1999. Screening of selected flavonoids and phenolic acids in 19 berries. Food Research International, 32(5): 345-353.
View at Google Scholar45.Hammer, M.J. and Hammer, M.J.J. 2004. Water and Waste Technology. Pearson Educational International. 5th Edition, New Jersey, pp. 388-437.
View at Google Scholar46.Hammond, J.B., Egg, R., Diggins, D. and Coble, C.G. 1996. Alcohol from bananas. Bioresource Technol., 56: 125 130.
View at Google Scholar47.Hang, Y.D., Splittstoesser, O.F., Woodams, E.E. and Scherman, R.M. 1977. Citric acid fermentation of brewery waste. J. Food Sci., 42: 383.
View at Google Scholar48.Hang, Y.D., Splittstoesser, O.F. and Woodams, E.E. 1975. Utilization of brewery spent grain liquor by Aspergillus niger. Appl. Microbiol., 30: 879.
View at Google Scholar49.Hang, Y.D. 1988. Improvement of nutritional value of apple pomace by fermentation. Nutr. Rep. Int., 38(1): 207
View at Google Scholar50.Hang, Y.D. and Walters, R.H. 1989. Treatment and utilization of apple processing wastes. In: Processed Apple Products, Downing DL (ed.) AVI Van Nostand Reinhold, New York. pp. 365.
View at Google Scholar51.Hang, Y.D. and Woodams, E.E. 1977. Baked beans waste: potential substrate for producing amylase. Appl. Environ. Microbiol., 33: 1293.
View at Google Scholar52.Hang, Y.O., Splilttstoesser, O.F. and Landschoot, R.L. 1972. Sauerkraut waste: A favorable medium for cultivating yeasts. Appl. Microbiol., 24: 1007.
View at Google Scholar53.Harrison, R.M. 2001. Pollution causes, effect and controls. Royal Society of Chemistry UK.
View at Google Scholar54.Hills, D.J. and Roberts, D.W. 1982. Conversion of tomato peel and honeydew solid waste into methane gas. Transaction of the ASAE., 25(30): 820.
View at Google Scholar55.Huber, J.T. 1981. Upgrading residues and by products for animals. CRC Press Inc. Boca Raton F L.
View at Google Scholar56.Iacopini, P., Baldi, M., Storchi, P. and Sebastiani, L. 2008. J. Food Compos. Anal., 21: 589– 598.
View at Google Scholar57.Imire, F.K.E. and Vlitos, A.J. 1975. In: Single cell protein II, Tannenbaum SR & Wang D (eds.) MIT Press, Cambridge, pp. 223.
View at Google Scholar58.Jacob, R., Hasegawa, S. and Manners, G. 2000. Perishables Handling Quarterly, 102: 6-8.
View at Google Scholar59.Jayaprakasha, G.K., Selvi, T. and Sakariah, K.K. 2003. Antibacterial and antioxidant activities of grape (Vitis vinifera) seed extracts. Food Research International, 36: 117- 122.
View at Google Scholar60.Johar, D.S., Krishnamurthy, G.V. and Bhatia, B.S. 1960. Utilization of apple pomace. Food Sci., 9: 82.
View at Google Scholar61.Joshi, C. and Joshi, V.K. 1990. Food processing management technology: Need for integrated approach. Indian Food Packer, 44(5): 56.
View at Google Scholar62.Joshi, V.K., Attri, D., Bala, A. and Bhushan, S. 2003. Microbial pigments. Ind. J. Biotechnol., 2: 362.
View at Google Scholar63.Joshi, V.K., Dev Raj and Joshi, Chetan. 2011. Utilization of wastes from food fermentation industry. In: Food Processing Wastes Management. New India Publishing Agency, Pitam Pura, New Delhi, pp. 295-356.
View at Google Scholar64.Joshi, V.K., Devranjan, A. and Sharma, Nivedita. 2013. Solid state fermentation of apple pomace: the effect of sequential interactive co-culture system on solid state fermentation behavior and physic-chemical characteristics. Journal of Hill Research, 26(1&2): 43-55.
View at Google Scholar65.Joshi, V.K., Gupta, K., Devarajan, A., Lal, B.B. and Arya, S.P. 1999. Production and evaluation of fermented apple pomace feed in broiler J. Food Sci. Technol., 37(6): 609-612.
View at Google Scholar66.Joshi, V.K., Gupta, K., Devrajan, A., Lal, B.B. and Arya, S.P. 2000. Production and evaluation of fermented apple pomace in the feed of broilers. J. Food Sci. Technol., 37(6): 609.
View at Google Scholar67.Joshi, V.K., Kaushal, N.K. and Thakur, N.S. 1996. Apple pomace sauce: Development and quality of fresh and stored products. J. Food Sci. Technol., 33(5): 414-417.
View at Google Scholar68.Joshi, V.K., Kumar, A. and Kumar, V. 2012. Antimicrobial, antioxidant and phyto-chemicals from fruit and vegetable wastes: A review. International Journal of Food and Fermentation Technology, 2(2): 123-126.
View at Google Scholar69.Joshi, V.K., Pandey, A. and Sandhu, D.K. 1999. Food Factory Waste Management Technology. In: Biotechnology: Food Fermentation, Vol. II. Joshi VK & Pandey A (eds.) pp. 1291- 1348. Educational Publishers and Distributors, New Delhi.
View at Google Scholar70.Joshi, V.K., Parmar, Mukesh and Rana, Neerja. 2006. Pectin esterase production from apple pomace in solid state and submerged fermentations. Food Technology Biotechnology, 44(2): 253-256.
View at Google Scholar71.Joshi, V.K., Rana Neerja and Devi Mutum. Preema 2009. Technology for utilization of apple pomace: A waste from apple juice processing industry. Indian Food Industry, 28(4): 1-10.
View at Google Scholar72.Joshi, V.K., Walia, Abhishek and Rana S. Neerja. 2011. Production of Bioethanol from Food Industry Waste: Microbiology, Biochemistry and Technology. In: “Bioenergy production from Waste. Eds. C. Bhasker, Springer, Berlin, pp. 251-302.
View at Google Scholar73.Joshi, V.K. 2002. Food Processing Waste Management - oppurtunities and challenges. In: Biotechnology in Agriculture and Enviornment. J.K. Arora, S.S. Marwaha and R. Grover. (Eds.). Asia Tech Publishers and Distributors, New Delhi, pp. 129-148.
View at Google Scholar74.Joshi, V.K. and Attri, D. 2005. Optimization of apple based medium and fermentation conditions for pigment production by Rhodotorula species. Proc. Nat. Acad. Sci. India, 76B: 171.
View at Google Scholar75.Joshi, V.K. and Attri, Devender. 2006. Solid State Fermentation of Apple Pomace for the Production of Value Added Products. Natural Product Radiant, 5(4): 289-296.
View at Google Scholar76.Joshi, V.K. and Bhutani, V.P. 1995. Peaches and nectarines. In: Handbook of fruit science and technology D.K. Salunkhe and S.S. Kadam. Marcel Dekker, New York, pp. 243.
View at Google Scholar77.Joshi, V.K. and Bhutani, V.P. 1995. Peaches and nectarines. In: Handbook of fruit science and technology D.K. Salunkhe and S.S. Kadam. Marcel Dekker, New York, pp. 243.
View at Google Scholar78.Joshi, V.K. and Dev, R. 2010. Biotechnology in waste management. In: Food Biotechnology: Principles and Practices. Joshi, V.K. and Singh, R.S. (Eds). IK International Publishing House. New Delhi, pp. 881-914.
View at Google Scholar79.Joshi, V.K. and Devrajan, A. 2008. Recovery of ethanol from solid state fermented apple pomace and composition of left-over dried fermented apple pomace. Natural Product Radiant, 7(2): 127-132.
View at Google Scholar80.Joshi, V.K. and Kaushal, N.K. 2001. Effect of apple pomace addition on the characteristics of apple pomace bread and leavening activity. Natl. Acad. Sci. Letter, 24(1&2): 1-7.
View at Google Scholar81.Joshi, V.K. and Lal, B.B. 1998. Food processing waste management : Opportunities and Challenges. Presented in: Biotechnology in Agriculture and Environment organised by PSCST, Chandigarh and DBT, New Delhi, pp. 31.
View at Google Scholar82.Joshi, V.K. and Rana, N. 2008. Microbial technology for the production of value added products from apple pomace. In: Agriculturally Important Microorganisms Vol II. Khachatourians GG, Arora DK, Rajendra TP & Shrivastava AK (eds), Academic Worlds International, pp. 271.
View at Google Scholar83.Joshi, V.K. and Sandhu, D.K. 1996. Effect on type of alcohols in the distillates from the solid state fermentation of apple pomace by different yeasts Natl. Acad. Sci. Letters, 49(11 & 12) : 219-224.
View at Google Scholar84.Joshi, V.K. and Sandhu, D.K. 1996. Preparation and evaluation of animal feed using solid state fermentation of apple pomace. Bioresource Technol., 56: 251-255.
View at Google Scholar85.Joshi, V.K. and Sandhu, D.K. 1996. Preparation and evaluation of animal feed using solid state fermentation of apple pomace. Bioresource Technol., 56: 251.
View at Google Scholar86.Joshi, V.K. and Sharma, J.K. 1989. Preliminary studies on utilization of waste from wine fermentation as a pollen substitute for Honey bees.
View at Google Scholar87.Joshi, V.K. and Sharma, S.K. 2011. Food Processing Industrial Wastes: Present Scenario. In: Food Processing Wastes Management. New India Publishing Agency, Pitam Pura, New Delhi, pp. 1-31.
View at Google Scholar88.Joshi, V.K. Shashi Bhushan, Attri Devender and Kaushal B.B.L. 2005. Utilization of apple pomace in comparison to molasses and Jaggery under fed -Batch cultivation for the production of Baker’s yeast. J.S. Chauhan, S.D. Sharma, R.C. Sharma, A.S.Rehalia and K. Kumar (Eds) Acta Horticulture, II, 479-484.
View at Google Scholar89.Joshi, V.K. Shashi Bhushan, Attri Devender and Kaushal B.B.L. 2005. Utilization of apple pomace in comparison to molasses and Jaggery under fed -Batch cultivation for the production of Baker’s yeast. J.S. Chauhan, S.D. Sharma, R.C. Sharma, A.S.Rehalia and K. Kumar (Eds) Acta Horticulture, II, 479-484.
View at Google Scholar90.Joshi, V.K and Bhushan, S. 2003. Apple pomace utilisation for the production of Bakers Yeast: Effect of different substrate concentrations and growth stimulators . Indian J. Biotechnol., 2: 220-226.
View at Google Scholar91.Joshi V.K. and Devender, A. 2006. Optimization of apple pomace based medium and fermentation conditions for pigment production by Rhodotorula species. Proceedings of National Academy of Sciences 76,B.171-176.
View at Google Scholar92.Joshi V.K. and Sharma, S.K. 2011. Food Processing Wastes Management. New India Publishing Agency, Pitam Pura, New Delhi, pp. 472.
View at Google Scholar93.Joshi VK. 2019. Is Waste from Food Processing Industrial Meant for Throwing in Environment only: The Case of Apple Pomace. Nov. Tech. Nutri. Food Sci., 3(2).
View at Google Scholar94.Kahlon, S.S. and Arora, M. 1986. Utilization of potato peels by fungi for protein production. J. Food Sci. Technol., 23(5): 264.
View at Google Scholar95.Kaneria, M., Baravalia, Y., Vaghasiya, Y. and Chanda, S. 2009. Determination of antibacterial and antioxidant potential of some medicinal plants from Saurashtra region, India. Indian Journal of Pharmaceutical Sciences, 71: 406-412.
View at Google Scholar96.Kanna, J., Ben-Shelam, V. and River, O. 1984. Proceeding of international federation of fruit juice producers, 18: 219.
View at Google Scholar97.Kaushal, N.K. and Joshi, V.K. 1995. Preparation and evaluation of apple pomace cookies. Indian Food Packer, 49(5): 17-24.
View at Google Scholar98.Kaushal, NK., Joshi, V.K. and Vaidya, D. 2001. Effect of stages of apple pomace collection and treatment on physicochemical and sensory qualities of pomace toffees. Indian Food Packer, pp. 64-69.
View at Google Scholar99.Kjeldsen, P., Bariaz, M.A., Rooker, A.P., Baun, A., Lendin, A. and Chistensen, T.H. 2002. Crit. Rev. Env. Sci. Tech., 32: 297- 336.
View at Google Scholar100.Knol, W., Vander Most, M.D. and De Waart, J. 1978. Biogas production by anaerobic digestion of fruit and vegetables wastes. J. Food Sci. Agric., 29: 822.
View at Google Scholar102.Long, S.K. and Patrick, R. 1961. Production of 2,3 butylene glycol from citrus waste. Appl. Microbiol., 9: 244.
View at Google Scholar103.Maini, S.B. and Sethi, V. 2000. Utilization of fruits and vegetable processing waste In: Post-harvest Technology of Fruits and Vegetables: handling processing fermentation and waste management. Verma LR & Joshi VK (eds) Indus. Publishing Co., New Delhi Vol. 2, pp. 1006.
View at Google Scholar104.Mani Lal, V.B., Naryanan, C.S. and Balagopalan, C. 1991. Cassava starch effluent treatment with concomitant SCP production. World J. Microbiol. Biotechnol., 7(2): 185.
View at Google Scholar105.Marwaha, S.S. and Arora, J.K. 1999. Production of gum amino acid and vitamins. In: Biotechnology: Food Fermentation. Vol-II. Joshi VK & Pandey A (eds.) . Educational Publisher and Distributors, New Delhi, pp. 1231.
View at Google Scholar106.Masuda. 1964. Studies on fermentative processing of apple fruit. Fermentation of milled apple pulps in cider making. J. Ferment Technol., 42: 379.
View at Google Scholar107.Mazza, G. and Miniati, E. 1993. Anthocynanins in fruits, vegetable and grains. CRC Press, Boca Raton FL.
View at Google Scholar108.Miyake, Y., Yamamoto, K., Morimitsu, Y. and Osawa, T. 1997. J. Agric. Food Chem., 45: 4619–4623.
View at Google Scholar110.Nair, P.M. 1994. Biotechnology and Hi-technology in food production processing and preservation industry and export opportunities. Indian Food Ind., 13(1): 18.
View at Google Scholar112.Nicolini, L.V., Nolstein, V.J. and Cirilli, C.S. 1987. Solid state fermentation of orange peel grape stalks by Pleutrotus osteatus, Agroybe aegerita and Armillariella mellea. Appl. Microbial Biotechnol., 26: 25.
View at Google Scholar113.Nigam, P. 1990. Investigation of some factors important for solid state fermentation of sugar cane baggasse for animal feed production. Enzyme Microb. Technol., 12: 808.
View at Google Scholar114.Nigam, P. and Singh, D. 1996. Processing of agriculture waste in solid state fermentation for microbial protein production. J. Sci. Ind. Res. 55- special issue. Publication of Information Directorate, New Delhi.
View at Google Scholar115.Onwuka, C.F.I., Adetiloye, P.O. and Afolami, C.A. 1997. Use of household wastes and crop residues in small ruminant feeding in Nigeria. Small Ruminant Research, 24: 233 237.
View at Google Scholar116.Palaniswamy, K.P., Muthukrishnan, C.R. and Shanamugavellu K.G. 1974. Physico-chemical characteristics of some varieties of mango. Indian Food Packer, 28(5): 12.
View at Google Scholar117.Prasad, K.N., Xie, H., Hao, J., Yang, B., Qiu, S., Wei, X., Chen, F. and Jiang, Y. 2010. Antioxidant and anticancer activities of 8 – hydroxypsoralen isolated from wampee [Clausena lansium (Lour.) Skeels] peel. Food Chemistry, 118: 62-66.
View at Google Scholar118.Pruthi, J.S., Mookerji, K.K. and Lal, G. 1960. A study of factors affecting the recovery and quality of pectin from guava. Indian Food Packer, 14(7): 7.
View at Google Scholar119.Rabe, T. and Van Staden, J. 1997. Antibacterial activity of South African plants used for medicinal purposes. Journal of Ethanopharmacology, 56: 81-87.
View at Google Scholar120.Rahmat, H., Hodge, R.A., Manderson, G.J. and Yu, P.L. 1995. Solid substrate fermentation of Kloekera apiculata and Candida uitilis on apple pomace to produce on improved state feed. World J. Microbiol. Biotechnol., 11(2): 168.
View at Google Scholar121.Rajaei, A., Barzegar, M., Mobarez, A.M., Sahari, M.A. and Esfahani, Z.H. 2010. Antioxidant, antimicrobial and antimutagenicity activities of pistachio (Pistachia vera) green hull extract. Food Chemistry and Toxicology, 48: 107- 112.
View at Google Scholar122.Rauha, J.P., Remes, S., Heinonen, M., Hopia, A., Kahkonen, M., Kujala, T., Pihlaja, K., Vuorela, H. and Vuorela, P. 2000. Antimicrobial effects of Finnish plants extracts containing flavonoids and other phenolic compounds. International Journal of Food Microbiology, 56(1): 3-12.
View at Google Scholar123.Sakellaris, G., Nikolaropoulos, A.S. and Evangelopoulos, A.E. 1988. Polygalacturonase biosynthesis by Lactobacillus plantarum effect of cultural conditions on enzyme production, J. Appl. Bacteriol., 65: 397–404.
View at Google Scholar124.Sandhu, D.K. and Joshi, V.K. 1996. Development of apple pomace medium optimiz-ation of conditions for pigment production by Rhodotorula. Adv. Food Res., 19(1/2): 31-34.
View at Google Scholar125.Sandhu, D.K. and Joshi, V.K. 1996. Development of apple pomace medium optimization of condition of pigment production by Rhodotorula. Adv. Food Res., 19(1/2): 31.
View at Google Scholar126.Schroeder, J.W. 1999. By-products and regionally available alternative feedstuffs for dairy cattle. North Dakota State University. NDSU Extension Service. http://www.ext. nodak. edu/extpubs/ansci/dairy/as1180w.html.
View at Google Scholar127.Shah, G.H. and Masoodi, F.A. 1984. Studies on utilization of wastes from apple processing plants. Indian Food Packer, 48(50): 47.
View at Google Scholar128.Shukla, J.P. and Dutta, S.M. 1967. Production of fungal protein form waste molasses. Indian J. Technol., 5: 27.
View at Google Scholar129.Simons, G., Johannis, M. and Miller, W. 1994. Institution issues facing California biomass energy industry and role a collaborative. Bio-energy 94, Proceedings of sixth National Bio-energy Conference. Reno/ sparks, NV, pp. 547.
View at Google Scholar130.Singh, R.P., Murthy, K.N.C. and Jayaprakasha, G.K. 2002. Studies on the antioxidant activity of pomegranate (Punica granatum) peel and seed extracts using in vitro models. Journal of Agricultural and Food Chemistry, 50: 81-86.
View at Google Scholar131.Skogman, H. 1976. Production of symba-yeast from potato waste: In: Food From Waste, Birch GG, Parkar KJ & Worgan JT (eds.) Applied Science Pub., London.
View at Google Scholar132.Souquet, J.M., Cheynier, V., Brossaud, F. and Moutounet, M. 1996. Phytochemistry, 43: 509–512.
View at Google Scholar133.Srirangrajan, A.N. and Shrikhande, A.J. 1977. Characterization of mango peels pectin. J. Food Sci., 42: 279.
View at Google Scholar134.Srivas, S.L. and Pruthi, J.S. 1976. Studies on the quantitative estimation of chemical components of cashew apple, citrus and other fruit pectin. J. Inst. Chemists (India), 48: 95.
View at Google Scholar135.Subramanyam, V., Lal, G., Bhetil, G.S., Jain, N.L., Bains, G.S., Srinath, K.V., Anandaswamy, B., Krishna, B.H. and Lakshmi Narayanan, S.K. 1957. Studies on banana pseudostem starch. Production yield, physio-chemical properties and uses. J. Sci. Food Agric., 8: 253.
View at Google Scholar136.Sundsfjord, A., Simonsen, G.S., Haldorsen, B.C., Haaheim, H., Hjelmevoll, S.O., Littauer, P. and Dahl, K.H. 2004. Genetic methods for detection of antimicrobial resistance. Acta Pathologica, Microbiologica et Immunologica Scandinavica, 112: 815-837.
View at Google Scholar137.Tannenbaum, S.R. and Wang, D.I.C. 1975. Single cell protein vol.-II. MIT press, Cambridge, Mass.
View at Google Scholar140.Trehan, K. 1990. Energy from microbial and other sources. In: Biotechnology. Wiley Eastern, New Delhi, pp. 286.
View at Google Scholar141.Van Den Broeck, I., Ludikhuyze, L.R., Weemaes, C.A., Van Loey, A.M. and Hendrickx, M.E. 1999. Thermal inactivation kinetics of pectin esterase extracted from oranges, J. Food Process Preserv., 23: 391–406.
View at Google Scholar142.Verma, L.R. and Joshi, V.K (Eds). 2000. Post-harvest Technology of Fruits and Vegetables. 1 & 2: 1242. The Indus Publ, New Delhi.
View at Google Scholar143.Walter, R.H., Rao, M.A., Sharman, R.M. and Cooley, H.J. 1985. Edible fibers from apple pomace. J. Food Sci., 56: 747-749.
View at Google Scholar144.Whiting, K.J. 2001. Proceeding of the 3rd International symposium on waste treatment technologies, Brussels. Institution of chemical engineers publication, Rugby 1, 13.
View at Google Scholar145.William, P.T. 2005. Water treatment and disposal. John Wally (eds.) Greet Britain, pp. 9.
View at Google Scholar146.Wright, J. 1995. In: food flavouring. Ashurst PR (ed). Black A & P, Elasgow, Scotland, pp. 24.
View at Google Scholar147.Wyman, Ch.E. 2001. Twenty years of trials, tribulations, and research progress in bioethanol technology. Appl. Biochem. Biotech., 91: 521.
View at Google Scholar148.Zhang, P., Whistler, R.L., BeMiller, J.N. and Hamaker, B.R. 2005. Banana starch: Production, physicochemical properties, and digestibility a review. Carbohydrate Polymers, 59: 443 458.
View at Google Scholar