Effects of the Residue Types, Harvest Seasons, and Factories on the Bioactive Compounds of Black Tea (Camellia sinensis) Residue

Document Type : Research Paper

Authors

Tea Research Center, Horticultural Sciences Research Institute, Agricultural Research, Education and Extension Organization, Lahijan, Guilan, Iran

Abstract

Annually, lots of useless black tea [Camellia sinensis (L.) Kuntze] residue is produced in Iranian factories; nonetheless, their bioactive compounds can be extracted and used in the pharmaceutical and food industries. The investigation, which looked at the extraction of all compounds from tea residue, was conducted from 2006 to 2008 to solve environmental problems related to the disposal of tea residues. Extracting one compound to build a lateral products factory is unprofitable, but extracting all bioactive compounds can increase productivity. Four bioactive substances (caffeine, polyphenol, protein, and fiber) were extraction from four tea residues types (dust, fluff, footstalk, and stalk) that nine tea companies generated in the spring, summer, and autumn, assessed in this study. Caffeine was measured by spectrophotometer, followed by cellulose and polyphenol by weight technique, and protein by micro-Kjeldal. Statistical analysis was done on a split plot in randomized complete blocks with three replications (sampling places were randomly selected, and treatments were fixed). The triple effect of residue types, harvest seasons, and factories were significant at a 0.01 level on the levels of caffeine, protein, and fiber, according to the variance analysis findings. The highest amount of caffeine in the dust × summer × Moein factory, followed by protein in the dust × spring × Poltan factory, and fiber in the stalk × autumn × Tohied and Setareh Shomal factories, was observed. Finally, the result demonstrated that consideration must be given to the types of residue, harvest seasons, and factories when using tea factory residues for industrial purposes.

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Main Subjects

References

  1. Parmer N., Rawat M., Kumar J.V. Camellia Sinensis (Green Tea): A Review. The Global J. Pharma. 2012; 6(2): 52-59.
  2. Tariq M., Naveed A., Barkat Ali K. The morphology, the characteristics and the medicinal properties of ‘Camellia sinensis’ tea. J. Med. Plants Res. 2010; 4(19): 2028-33.
  3. Sumpio B.E., Cordova A.C., Berke-Schlessel D.W., Levites Y., Weinreb O., Maor G., Youdim M.B., Qin F., Chen QH. Green tea, the Asian Paradox and cardiovascular disease. J. Am. Coll. Surg. 2006; 202: 813-20.
  4. Cabrera C., Gimenez R., Lopez M.C. determination of tea components with antioxidant activity. J. Agric. Food Chemistry. 2003; 51(15): 4427-4435.
  5. Cabrera C., Artacho R., Gimenez R. Beneficial effects of green tea-a review. J. Am. Coll. Nutrition. 2006; 25(2): 79-99.
  6. Granja A., Pinheiro M., Reis S. Epigallocatechin gallate nanodelivery systems for cancer therapy. Nutrients. 2016; 8, 307.
  7. Icen H., Guru M. Extraction of caffeine from tea stalk and fiber residues using super critical carbon dioxide. J. of Supercritical Fluids. 2009; 50: 225-228.
  8. Marcel W.L, Chi H. Pharmacological effects of green tea on the gastrointestinal system. European J. Pharma. 2004; 500: 177-185.
  9. Richard B., Denis G. Green tea: prevention and treatment of cancer by nutraceutical. Lancet. 2004; 364(9349): 1021-1022.
  10. Nie ShP., Xie M.Y. A review on the isolation and structure of tea polysaccharides and their bioactivities. Food Hydrocolloids. 2011; 25(2): 144-149.
  11. Wickremasinghe R.L. The Monographs on tea products in Sri Lanka. Tea Research Institute of Sri Lanka. 1978; 7: 45-51.
  12. Roofigari haghighat Sh., Shokrgozar S., Shirinfekr A., Azadi R., Serajie A., Cheraghi K., mohebbian S., Jalali M. Extraction of edible color from tea residue and its stability assessment. Tea Research Institute. Agric. Res. Education and Extension Organization, Lahijan, Iran. 2017.
  13. Institute of Standards and Industrial Research of Iran. The black tea-properties, standard number 624. 1992.
  14. Lakin A. Food Analysis, Practical Handout. Reading Uni. UK. 1989.
  15. Smiechowska M., Dmowski P. Crude fiber as a parameter in the quality evaluation of tea. Food Chem. 2006; 94: 366-368.
  16. Emami A. Protein Measurement Method. Journal of Plant Breeding Methods, Organization for Research, Education and Promotion of Agriculture, Water and Dust Res. Institute. 1996; 982(1): 28.
  17. Institute of Standards and Industrial Research of Iran. Fiber measurement method. Standard number: 3394. 1992.
  18. Modder W.W.D. Tea research in Srilanka, Talawakelle: The tea research institute of srilanka. 2003.
  19. Hilton P., Palmer R., Ellis R.T. Effects of seasons and nitrogen fertilizer upon the flavanol compositon and tea making quality of freash shoots of tea in central Africa. J. Sci. Food Agric. 1973; 24: 819-826.
  20. Roofigari Haghighat Sh., Cheraghi K., Adib A., Ali Naghipour B., Motavi Jalali S.M. Investigation of the effect of leaf picking on green leaf yield and quality of black tea during leaf picking periods. Final report of the research project. Final report of the research project. Agricultural Research, Education and Extension Organization, National Tea Research Center, Lahijan. 2007; 974/86.
  21. Keegel E.L. Tea manufacture in Ceylon. Tea Research Institute of Ceylon. Colombo. 1983.
  22. Parsa F., Azadi R., Shokrgzar S.M.T., Hosseini S.M., Cheraghi K., Motavi Jalali S.M. Investigation and measurement of important constituents of tea dust and three common types of tea plant wastes. Final report of the research project. Agricultural Research, Education and Extension Organization, National Tea Research Center, Lahijan. 2009; 87:207.
  23. Kunjikutt N., Ramachandran P., Devasia P.A., Thomas C.T., Nandakumaran M. Studies on goat nutrition. J. Vet. Sci. 1978; 9(2): 206-14.
  24. Mulky M.J., Sharma V.S. Tea Culture: processing and marketing. Bomby: Oxford and IBH. 1993.
  25. Liaquing S., Xiangyang W., Zhongyang W., Yuanfeng W. Studies on tea protein extraction using alkaline and enzyme methods. China. Gongshang University. College of food science, Bio technology and Environmental Engineering, Hang Zhou. 2007.
  26. Takayanaji H., Anan T., Ikegawa K., Nakagawa M. Chemical composition of Chinese and the preference testing of these teas. Tea Res. J. 1984; 60: 59-65.
Journal of Medicinal plants and By-Products
Volume 13, Issue 4
December 2024
Pages 940-949

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