Utilization of Tropical Fruits for Wine Production with Special Emphasis on Mango (Mangifera indica L.) Wine

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Abstract

Tropical fruits have their origin in the tropics and require rather a ­tropical or subtropical climate; and do not tolerate frost. The tropical zone stretches from 23.4° North latitude to 23.4° South latitude. There are hundreds of edible tropical fruits some of which have very high export potential all over the world. Most of the tropical fruits are important sources of antioxidants, vitamins and minerals; and form a very healthy part of a diet. India is the largest producer of fruits in the world with an annual production of 46 million tons, amounting to 10% of total world production. Nearly 20–30% of the produce is generally spoiled at post-harvest stages leading to losses. There is a need to preserve and utilize or transform the surplus and unutilized fruits to valuable products like wine and other processed foods. Wines form many tropical fruits like guava, banana, custard apple, litchi, pineapple, pomegranate, mango, ber and melon have been prepared and evaluated for their acceptability. Mango (Mangifera indica L) is the most popular and the choicest fruit of India. A major portion (nearly 60–70%) of the total quantity produced is locally consumed and a sizable portion is exported to other countries. Ten varieties of mango, which are abundantly available in the region, were selected for wine production and the conditions for juice extraction were optimized. To prepare wine, the fruits were peeled and juice (must) was extracted immediately after crushing (control) and also after 10 h of pectinase treatment. The Raspuri gave the highest juice yield (600) followed by Banganpalli (570 ml/kg). The sugar content of must ranged from 15% to 18% (w/v). The recovered juice was fermented at 15°C and 20°C and the ethanol concentration of mango wine ranged from 6.3% to 8.5%. Fermentation efficacy of three yeast strains, viz. Saccharomyces cerevisiae CFTRI 101, Palm wine isolate and Baker’s yeast was determined and highest score was obtained for Banganpalli wines with yeast strain S. cerevisiae CFTRI 101 followed by Alphonso and Totapuri. Pectinase enzyme treatment increased the yield of juice and ethanol production also. Optimization of fermentation conditions (like yeast strain, pectinase enzyme, pH and temperature) was carried out using response surface methodology (RSM). Production profiles of higher alcohols and other volatile compounds during wine fermentation were investigated. Total volatile composition of mango wine was determined using GC-MS and identified 33 compounds having fruity aroma characters. More volatiles were observed in wine produced from Banganpalli (343) than wine from Totapuri cultivar (320 mg/l). Polyphenols and carotenoids profiles were determined using HPLC, and antioxidant activity was evaluated using in vitro models. From physicochemical characteristics and sensory characteristics it is concluded that table wine of acceptable qualities can be prepared from mango. Further, the analyses showed that the aroma of mango wine is complex and is composed of a number of compounds, similar to grape wine.

Keywords

Tropical fruits Wine production Fermentation conditions Mango Volatile compounds Saccharomyces cerevisiae Antioxidant activity 
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Notes

Acknowledgements

We thank DBT, CSIR (New Delhi) and BRNS (DAE, Mumbai) for their financial support. We also thank Dr. S.C. Basappa, Dr. Y. Sudheer Kumar and Mr. S. Varakumar for their critical comments and suggestions during the preparation of the book chapter.

References

  1. R.N. Adsule, P.M. Kotech, S.S. Kadam, Beverage Food World 19, 13–16 (1992)Google Scholar
  2. M.Z. Ali, H.A. Dirar, J. Food Sci. 49, 459 (1984)CrossRefGoogle Scholar
  3. M.A. Amerine, H.W. Berg, R.E. Kunkee, C.S. Qugh, V.L. Singleton, A.D. Webb, The Technology of Wine Making, 4th edn. (AVI, Westport, 1980)Google Scholar
  4. Anon, Wealth of India – Raw Materials 6, (L-M) (Publication and information directorate, CSIR, New Delhi, 1962)Google Scholar
  5. Anon. 1963. Int Bottr Pack 37: 157–159.Google Scholar
  6. A. Askar, K.H. Gierschner, H. Siliha, M. El Zoghbi, in Proceedings 20th Symposium of the International Federation of Fruit Juice Producers. Paris, 16–18 May, 1990. pp. 207–223Google Scholar
  7. B.L. Attri, B.B. Lal, V.K. Joshi, Indian Food Packer 46, 39–44 (1994)Google Scholar
  8. R.K. Baisya, Indian Food Pack, 2004, pp. 78–82Google Scholar
  9. M.C. Bardiya, B.S. Kundu, P. Tauro, Haryana J. Hort. Sci. 3, 140–144 (1974)Google Scholar
  10. J.A. Barnett, Yeast 14, 1439–1451 (1980)CrossRefGoogle Scholar
  11. R.E. Brathwaite, N. Badrie, J. Food Sci. Technol. 38(4), 381–385 (2001)Google Scholar
  12. S. Chauvet, P. Sudraud, T. Jouan, Rev. Oenologues 39, 17–19 (1986)Google Scholar
  13. B. Cheirslip, K. Umsakul, J. Food Process Eng. 31, 78–90 (2008)CrossRefGoogle Scholar
  14. N. Czyhrinciwk, Am. J. Enol. Vitic. 17, 27–30 (1966)Google Scholar
  15. C.L. Duitschaever, J. Alba, C. Buteau, P. Allen, Am. J. Enol. Vitic. 42, 19–25 (1989)Google Scholar
  16. FAO, FAOSTAT Statistic database agriculture, Rome, 2007. http://faostat.fao.org/faostat/collection
  17. T. Forment, Rev. Oenologues 69s, 31–50 (1993)Google Scholar
  18. G. Fowles, New Scientist Sept 1989, pp. 38–42Google Scholar
  19. M. Fundira, M. Blom, I.S. Pretorius, P. Van Rensburg, J. Agric. Food Chem. 50, 1535–1542 (2002)PubMedCrossRefGoogle Scholar
  20. N. Gardner, N. Rodrigue, C.P. Champagne, Appl. Environ. Microbiol. 59, 2022–2028 (1993)PubMedGoogle Scholar
  21. F.C. Gasteineau, J.W. Darby, T.B. Tuner, Fermented Food Beverages Nutrition (Academic Press, New York, 1979)Google Scholar
  22. S.K. Gautam, B.S. Chundawat, Indian Food Pack 52, 17–21 (1998)Google Scholar
  23. K.V. Giri, D.V. Krishna Murthy, P.L. Narashimha Rao, J. Ind. Inst. Sci. 35A, 77–98 (1953)Google Scholar
  24. D.A. Heatherbell, P. Struebi, R. Eschenbruch, L.M. Withy, Am. J. Enol. Vitic. 31, 114–121 (1980)Google Scholar
  25. V.K. Joshi, D. Attri, J. Sci. Indus. Res. 64, 9–18 (2005)Google Scholar
  26. V.K. Joshi, S. John, Alimentaria 2, 67–72 (2002)Google Scholar
  27. V.K. Joshi, M. Parmar, Indian Food Ind 24, 48–52 (2004)Google Scholar
  28. V.K. Joshi, D. Attri, T.K. Singh, G. S. Abrol, Fruit Wine: Production Technology, in Handbook of Enology: Principles, Practices and Recent Innovations, ed. by V.K. Joshi. vol. III (Asiatechl Publishers, INC, New Delhi, 2011), pp. 1177–1221CrossRefGoogle Scholar
  29. V.K. Joshi, P.K. Shah, Acta Alimenteria 27, 307–318 (1998)Google Scholar
  30. V.K. Joshi, S.K. Sharma, Res. Ind. 39(4), 25 (1994)Google Scholar
  31. V.K. Joshi, V.P. Bhutani, R.C. Sharma, Am. J. Enol. Vitic. 41, 229–231 (1990)Google Scholar
  32. V.K. Joshi, N.K. Thakur, B.B.L. Kaushal, Indian Food Packer 5(4), 5–10 (1997)Google Scholar
  33. V.K. Joshi, D.K. Sandhu, N.S. Thakur, Fruit based alcoholic beverages, in Biotechnology, Food Fermentation (Microbiology, Biochemistry and Technology), ed. by V.K. Joshi, A. Pandey. vol. II (Educational Publishers and Distributors, New Delhi, 1999), pp. 647–744Google Scholar
  34. V.K. Joshi, S. Somesh, S. Bhushan, D. Attri, Fruit based alcoholic beverages, in Concise Encyclopedia of Bioresource Technology, ed. by A. Pandey (Haworth Inc., New York, 2004). pp. 335Google Scholar
  35. J.R. Juroszek, M.E. Feuillat, C. Charpentier, Am. J. Enol. Vitic. 38, 194–198 (1987)Google Scholar
  36. D.S. Khurdiya, S.K. Roy, J. Food Sci. Technol. 22, 27 (1985)Google Scholar
  37. P.M. Kotecha, R.N. Adsule, S.S. Kadam, Beverage Food World 21(5), 28–29 (1994)Google Scholar
  38. P.M. Kotecha, R.N. Adsule, S.S. Kadam, Indian Food Pack 49, 5–7 (1995)Google Scholar
  39. J.H. Kulkarni, H. Singh, K.L. Chada, J. Food Sci. Technol. 17, 218–221 (1980)Google Scholar
  40. Y.S. Kumar, R.S. Prakasam, O.V.S. Reddy, Int. J. Food Sci. Technol. 44, 2320–2327 (2009)CrossRefGoogle Scholar
  41. Y.S. Kumar, S. Varakumar, O.V.S. Reddy, CyTA J. Food (In Press) (2011)Google Scholar
  42. S. Kun, J.M. Rezessy-Szabo, Q.D. Nguyen, A. Hoschke, Process Biochem. 43, 816–821 (2008)CrossRefGoogle Scholar
  43. S. Li, F.A.K. Tayie, M.F. Young, T. Rocheford, W.S. White, J. Agric. Food Chem. 55, 10744–10750 (2007)PubMedCrossRefGoogle Scholar
  44. R.C. Mandal, Cashew Production and Technology (Agro Botanical Publisher, Udaipur, 1997)Google Scholar
  45. E. Martinez de la Ossa, L. Caro, M. Bonat, L. Pérez, B. Domeq, Am. J. Enol. Vitic. 38, 321–325 (1987)Google Scholar
  46. W.R.N. Nathanael, Ceylon Coconut Quart 6, 8–16 (1955)Google Scholar
  47. H. Onkarayya, Indian Food Pack 39, 85–88 (1985)Google Scholar
  48. H. Onkarayya, J. Food Sci. Technol. 23, 175–176 (1986)Google Scholar
  49. H. Onkarayya, H. Singh, Am. J. Enol. Vitic. 35, 63–65 (1984)Google Scholar
  50. S. Perez-Magarino, M.L. Gonzalez-Sanjose, J. Agric. Food Chem. 50, 4076–4079 (2004)Google Scholar
  51. L. Pilando, R.E. Wrolstad, D.A. Hetherbell, J. Food Sci. 50, 112–119 (1985)CrossRefGoogle Scholar
  52. W. Pilnik, Enzymes in beverage industry (Fruit juices, Nectar, Wine, Spirits and Beer), in Utilisation des Enzymes en Technologie Alimentaire, ed. by P. Dupuy (Tec. & Doc Lavoisier, Paris, 1983), pp. 425–436Google Scholar
  53. J.A. Pino, O. Queris, Food Chem (2010) (doi: 10.1016/j.foodchem.2010.09.056)Google Scholar
  54. I.S. Pretorius, Yeast 16, 675–729 (2000)PubMedCrossRefGoogle Scholar
  55. D. Ramey, A. Bertrand, C.S. Ough, V.L. Singleton, E. Sanders, Am. J. Enol. Vitic. 37, 99–106 (1986)Google Scholar
  56. L.V.A. Reddy, O.V.S. Reddy, World J. Microbiol. Biotechnol. 21, 1345–1350 (2005)CrossRefGoogle Scholar
  57. L.V.A. Reddy, O.V.S. Reddy, Res. J. Microbiol. 21, 441–445 (2007)Google Scholar
  58. L.V.A. Reddy, O.V.S. Reddy, J. Food Quality 32, 34–47 (2009)CrossRefGoogle Scholar
  59. L.V.A. Reddy, Production and characterization of wine like product from mango fruits (Mangifera indica L.). Thesis submitted to Sri Venkateswara University, Tirupati, 2005Google Scholar
  60. L.V.A. Reddy, Y.H.K. Reddy, L.P.A. Reddy, O.V.S. Reddy, Process Biochem. 43, 748–752 (2008)CrossRefGoogle Scholar
  61. L.V.A. Reddy, Y.S. Kumar, O.V.S. Reddy, Indian J. Microbiol. 50(2), 183–191 (2009)CrossRefGoogle Scholar
  62. L.V.A. Reddy, Y. Sudheer Reddy, O.V.S. Reddy, Evaluation of volatile flavour compounds from wine produced from mangofruits (Mangifera indica L.) by gas chromatography and mass spectrometry (GC-MS). Indian J. Microbiol. 50(2), 183–191 (2010)Google Scholar
  63. L.V.A. Reddy, O.V.S. Reddy, Food Bioprod Process (In Press) (2011)Google Scholar
  64. F. Remize, J.L. Roustan, J.M. Sablayrolles, P. Barre, S. Dequin, Appl. Environ. Microbiol. 65, 143–149 (1999)PubMedGoogle Scholar
  65. K. Robinson, The Oxford Companion to Wine (Oxford University press, Oxford, 1994)Google Scholar
  66. F.M. Rombouts, W. Pilnik, Process Biochem. 13, 9–13 (1978)Google Scholar
  67. M. Sakho, D. Chassagne, A. Jaus, E. Chiarazzo, J. Crouzet, J. Food Sci. 63, 975–978 (1998)CrossRefGoogle Scholar
  68. D.K. Sandhu, V.K. Joshi, Indian Food Indus. 11, 24–28 (1995)Google Scholar
  69. K.T. Scanes, S. Hohmann, B.A. Prior, S. Afr. J. Enol. Vitic. 19, 15–21 (1998)Google Scholar
  70. S. Selli, A. Canbas, U. Unal, Nahrung 46, 64–67 (2002)PubMedCrossRefGoogle Scholar
  71. S. Selli, T. Cabaroglu, A. Canbas, Int. J. Food Sci. Technol. 38, 587–593 (2003)CrossRefGoogle Scholar
  72. S. Selli, M. Kurkcuoglu, E. Kafkas, T. Cabaroglu, B. Demirci, K.H.C. Baser, A. Canbas, Flavour Fragr J 19, 413–416 (2004)CrossRefGoogle Scholar
  73. S.B. Sevada, L. Rodrigeous, C. Joshi, J. Food Sci. Technol. (Accepted) (2011)Google Scholar
  74. K.G. Shukla, M.C. Joshi, S. Yadav, N.S. Bisht, J. Food Sci. Technol. 28(3), 142–144 (1991)Google Scholar
  75. E.H. Soufleros, I. Pissa, D. Petridis, M. Lygerakis, K. Mermelas, M. Boukouvalas, E. Tsimitakis, Food Chem 75, 487–500 (2001)CrossRefGoogle Scholar
  76. H.K. Sreenath, A.M. Nanjundaswamy, K.R. Sreekantiah, J. Food Sci. 52, 230–231 (1987)CrossRefGoogle Scholar
  77. H.K. Sreenath, K.R. Sudarshana Krishana, K. Santhanam, Lebensm-Wissu-Technol 28, 196–200 (1995)CrossRefGoogle Scholar
  78. P. Teissedre, A. Waterhouse, J. Agric. Food Chem. 48, 3801–3805 (2003)CrossRefGoogle Scholar
  79. M.S. Teotia, J.K. Manan, S.K. Berry, R.C. Sehgal, Indian Food Packer 4, 49–54 (1991)Google Scholar
  80. S. Varakumar, Y.S. Kumar, O.V.S. Reddy, J. Food Biochem. 35, 1538–1547 (2011)Google Scholar
  81. A.G.J. Voragen, W. Pilnik, Flüss Obst. 48, 261–264 (1981)Google Scholar
  82. S.R. Vyas, S.C. Chakravarthy, Wines from Indian Grapes (Haryana Agricultural University, Hisar, 1971), pp. 1–69Google Scholar
  83. K.K. Vyas, R.C. Sharma, V.K. Joshi, J. Food Sci. Technol. 26, 126–133 (1989)Google Scholar

Copyright information

© Springer Science+Business Media B.V. 2012

Authors and Affiliations

  • L. V. A. Reddy
    • 1
  • V. K. Joshi
    • 2
  • O. V. S. Reddy
    • 3
  1. 1.Department of MicrobiologyYogi Vemana UniversityKadapaIndia
  2. 2.Department of Post Harvest TechnologyDr. Y.S. Parmar University of Horticulture and ForestrySolanIndia
  3. 3.Department of BiochemistrySri Venkateswara UniversityTirupatiIndia

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