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Articles

Processing technologies affect the aroma but not the taste of teas: A study of Yunnan Biluochun, Jiangsu Biluochun, and other regular green teas

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Pages 1404-1421 | Received 07 Apr 2016, Accepted 05 Jul 2016, Published online: 14 Nov 2016

References

  • Gortner, R.A. The Origin of the Custom of Tea Drinking in China. Science 1918, 47, 269–270.
  • Yuan, G.; Zhang, X.; Tang, W.; Sun, Y. Effect of Chitosan Coating Combined with Green Tea Extract on the Melanosis and Quality of Pacific White Shrimp During Storage in Ice. CyTA–Journal of Food 2015, 14, 35–40.
  • Cabrera, C.; Artacho, R.; Giménez, R. Beneficial Effects of Green Tea—A Review. Journal of American College of Nutrition 2006, 25, 79–99.
  • Hill, S. Preliminary Study Using Trace Element Concentrations and a Chemometrics Approach to Determine the Geographical Origin of Tea. Journal of Analytical Atomic Spectrometry 1998, 13, 521–525.
  • Tian, S.Y.; Deng, S.P.; Chen, Z.X. Multifrequency Large Amplitude Pulse Voltammetry: A Novel Electrochemical Method for Electronic Tongue. Sensors and Actuators B-Chemical 2007, 123, 1049–1056.
  • Fernández-Cáceres, P.L.; Martin, M.J.; Pablos, F.; González, A.G. Differentiation of Tea (Camellia Sinensis) Varieties and Their Geographical Origin According to Their Metal Content. Journal of Agriculture and Food Chemistry 2001, 49, 4775–4779.
  • Narukawa, M.; Noga, C.; Ueno, Y.; Sato, T.; Misaka, T.; Watanabe, T. Evaluation of the Bitterness of Green Tea Catechins by a Cell-Based Assay with the Human Bitter Taste Receptor hTAS2R39. Biochemical and Biophysical Research Communications 2001, 405, 620–625.
  • Lv, S.D.; Wu, Y.S.; Song, Y.Z.; Zhou, J.S.; Lian, M.; Wang, C.; Meng, Q.X. Multivariate Analysis Based on GC-MS Fingerprint and Volatile Composition for the Quality Evaluation of Pu-erh Green Tea. Food Analytical Methods 2015, 8(2), 321–333.
  • Pang, X.; Qin, Z.; Zhao, L.; Cheng, H.; Hu, X.; Song, H.; Wu, J. Development of Regression Model to Differentiate Quality of Black Tea (Dianhong): Correlate Aroma Properties with Instrumental Data Using Multiple Linear Regression Analysis. International Journal of Food Science and Technology 2012, 47, 2372–2379.
  • Lv, H.P.; Dai, W.D.; Tan, J.F.; Guo, L.; Zhu, Y.; Lin, Z. Identification of the Anthocyanins from the Purple Leaf Coloured Tea Cultivar Zijuan (Camellia Sinensis Var. Assamica) and Characterization of Their Antioxidant Activities. Journal of Functional Foods 2015, 17, 449–458.
  • Huo, D.; Wu, Y.; Yang, M.; Fa, H.; Luo, X.; Hou, C. Discrimination of Chinese Green Tea According to Varieties and Grade Levels Using Artificial Nose and Tongue Based on Colorimetric Sensor Arrays. Food Chemistry 2014, 145, 639–645.
  • Willson, K.C.; Clifford, M.N. Tea: Cultivation to Consumption. Ecology of Freshwater Fish 1992, 5(4), 175–182.
  • Zhu, Y.F.; Chen, J.J.; Ji, X.M. Changes of Major Tea Polyphenols and Production of Four New B-Ring Fission Metabolites of Catechins from Post-Fermented Jing-Wei Fu Brick Tea. Food Chemistry 2015, 170, 110–117.
  • Nie, S.P.; Xie, M.Y.; Nie, S.P. A Review on the Isolation and Structure of Tea Polysaccharides and Their Bioactivities. Food Hydrocolloid 2011, 25, 144–149.
  • Rawat, R.; Gulati, A.; Babu, G.K.; Acharya, R.; Kaul, V.K.; Singh, B. Characterization of Volatile Components of Kangra Orthodox Black Tea by Gas Chromatography-Mass Spectrometry. Food Chemisry 2007, 105, 229–235.
  • Togari, N.; Kobayashi, A.; Aishima, T. Pattern Recognition Applied to Gas Chromatographic Profiles of Volatile Components in Three Tea Categories. Food Research International 1995, 28, 495–502.
  • Hara, Y.; Luo, S.; Wickremasinghe, R.L.; Yamanishi, T. Flavor of Tea. Food Research International 1995, 11, 477–525.
  • Cheng, H.; Chen, J.; Chen, S.; Wu, D.; Liu, D.; Ye, X. Characterization of Aroma-Active Volatiles in Three Chinese Bayberry (Myrica Rubra) Cultivars Using GC-MS-Olfactometry and an Electronic Nose Combined with Principal Component Analysis. Food Research International 2015, 72, 8–15.
  • Cheng, H.; Chen, J.; Li, X.; Pan, J.; Xue, S.J.; Liu, D.; Ye, X. Differentiation of the Volatile Profiles of Chinese Bayberry Cultivars During Storage by HS-SPME–GC/MS Combined with Principal Component Analysis. Postharvest Biology and Technology 2015, 100, 59–72.
  • Moreda-Pineiro, A.; Fisher, A.; Hill, S.J. The Classification of Tea According to Region of Origin Using Pattern Recognition Techniques and Trace Metal Data. Journal of Food Compositon and Analysis 2003, 16, 195–211.
  • Huang, Q.; Chen, S.; Chen, H.; Wang, Y.; Wang, Y.; Hochstetter, D.; Xu, P. Studies on the Bioactivity of Aqueous Extract of Pu-Erh Tea and Its Fractions: In Vitro Antioxidant Activity and α-Glycosidase Inhibitory Property, and Their Effect on Postprandial Hyperglycemia in Diabetic Mice. Food and Chemical Toxicology 2013, 53, 75–83.
  • Ye, N.; Zhang, L.; Gu, X. Discrimination Of Green Teas from Different Geographical Origins by Using HS-SPME/GC–MS and Pattern Recognition Methods. Food Analytical Methods 2012, 5, 856–860.
  • Wu, Q.J.; Dong, Q.H.; Sun, W.J.; Huang, Y.; Wang, Q.Q.; Zhou, W.L. Discrimination of Chinese Teas with Different Fermentation Degrees by Stepwise Linear Discriminant Analysis (S-LDA) of the Chemical Compounds. Journal of Agricultural and Food Chemistry 2014, 62(38), 9936–9944.
  • Turkmen, N.; Sari, F.; Velioglu, Y.S. Effects of Extraction Solvents on Concentration and Antioxidant Activity of Black and Black Mate Tea Polyphenols Determined by Ferrous Tartrate and Folin-Ciocalteu Methods. Food Chemistry 2006, 99, 835–841.
  • Xi, X.G.; Wei, X.L.;Wang, Y.F. Determination of Tea Polysaccharides in Camellia Sinensis by a Modified Phenol-Sulfuric Acid Method. Archives of Biological Sciences 2010, 62, 671–678.
  • Lv, S.D.; Wu, Y.S.; Li, C.; Xu, Y.; Liu, L.; Meng, Q.X. Comparative Analysis of Pu-Erh and Fuzhuan Teas by Fully Automatic Headspace Solid-Phase Microextraction Coupled with Gas Chromatography–Mass Spectrometry and Chemometric Methods. Journal of Agriculture and Food Chemistry 2014, 62, 1810–1818.
  • Qiao, Y.; Xie, B.J.; Zhang, Y.; Zhang, Y.; Fan, G.; Yao, X.L.; Pan, S.Y. Characterization of Aroma Active Compounds in Fruit Juice and Peel Oil of Jinchen Sweet Orange Fruit (Citrus Sinensis (L.) Osbeck) by GC-MS and GC-O. Molecules 2008, 13, 1333–1344.
  • Vickers, Z.; Holton, E. A comparison of Taste Test Ratings, Repeated Consumption, and Postconsumption Ratings of Different Strengths of Iced Tea1. Journal of Sensors Study 2007, 13, 199–212.
  • Alasalvar, C.; Topal, B.; Serpen, A.; Bahar, B.; Pelvan, E.; Gökmen, V. Flavor Characteristics of Seven Grades of Black Tea Produced in Turkey. Journal of Agricultural and Food Chemistry 2012, 60(25), 6323–6332.
  • Toldrá, F.; Flores, M.; Sanz, Y. Dry-Cured Ham Flavour: Enzymatic Generation and Process Influence. Food Chemistry 1997, 59, 523–530.
  • Sun, M.F.; Guo, G.Y.; Zhang, J. Analysis of Aroma Quality of Steamed Green Tea and Roasted Xinyang Maojian Tea by GC-MS. Journal of Food Science 2014, 35, 151–155.
  • Joshi, R.; Gulati, A. Fractionation and Identification of Minor and Aroma-Active Constituents in Kangra Orthodox Black Tea. Food Chemistry 2015, 167, 290–298.
  • Schuh, C.; Schieberle, P. Characterization of the Key Aroma Compounds in the Beverage Prepared from Darjeeling Black Tea: Quantitative Differences Between Tea Leaves and Infusion. Journal of Agriculture and Food Chemistry 2006, 54, 916–924.
  • Wang, L.F.; Lee, J.Y.; Chung, J.O.; Baik, J.H.; So, S.; Park, S.K. Discrimination of Teas with Different Degrees of Fermentation by SPME-GC Analysis of the Characteristic Volatile Flavour Compounds. Food Chemistry 2008, 109, 196–206.
  • Zheng, H.; Li, J.L.; Li, H.H. Analysis of Trace Metals and Perfluorinated Compounds in 43 Representative Tea Products from South China. Journal of Food Science 2014, 79, C1123–C1129.
  • Selena, A.; John, R.S.; Colin, O.; Timothy, G.; Corene, M.; Albert, R.; Sean, C.; Dayuan, X.; Chunlin, L.;Uchenna, U.; Sarabeth, B.; David, S.; Edward, K. Effects of Extreme Climate Events on Tea (Camellia Sinensis) Functional Quality Validate Indigenous Farmer Knowledge and Sensory Preferences in Tropical China. Plos One 2014, 9(10), e109126–e109126.
  • Ravichandran, R.; Parthiban, R. Lipid Occurrence, Distribution and Degradation to Flavour Volatiles During Tea Processing. Food Chemistry 2000, 68, 7–13.
  • Takeo, T. Production of Linalol and Geraniol by Hydrolytic Breakdown of Bound Forms in Disrupted Tea Shoots. Phytochemistry 1981, 20, 2145–2147.
  • Zielinski, A.A.F.; Haminiuk, C.W.I.; Alberti, A. A Comparative Study of the Phenolic Compounds and the in Vitro Antioxidant Activity of Different Brazilian Teas Using Multivariate Statistical Techniques. Food Research International 2014, 60, 246–254.
  • Chen, Y.; Zhu, S.B.; Xie, M.Y.; Nie, S.P.; Liu, W.; Li, C.; Gong, X.F.; Wang, Y.X. Quality Control and Original Discrimination of Ganoderma Lucidum Based on High-Performance Liquid Chromatographic Fingerprints and Combined Chemometrics Methods. Analytic Chimica Acta 2008, 623, 146–156.
  • Wu, S.B.; Dastmalchi, K.; Long, C.; Kennelly, E.J. Metabolite Profiling of Jaboticaba (Myrciaria Cauliflora) and Other Dark-Colored Fruit Juices. Journal of Agriculture and Food Chemistry 2012, 60, 7513–7525.
  • Ivosev, G.; Burton, L.; Bonner, R. Dimensionality Reduction and Visualization in Principal Component Analysis. Analytical Chemistry 2008, 80, 4933–4944.
  • Ma, C.; Dastmalchi, K.; Flores, G.; Wu, S.B.; Pedraza-Peñalosa, P.; Long, C.; Kennelly, E.J. Antioxidant and Metabolite Profiling of North American and Neotropical Blueberries Using LC-TOF-MS and Multivariate Analyses. Journal of Agriculture and Food Chemistry 2013, 61, 3548–3559.
  • Wu, S.B.; Meyer, R.S.; Whitaker, B.D.; Litt, A.; Kennelly, E.J. A New Liquid Chromatography–Mass Spectrometry-Based Strategy to Integrate Chemistry, Morphology, and Evolution of Eggplant (Solanum) Species. Journal of Chromatography A 2013, 1314, 154–172.
  • Yang, Z.; Baldermann, S.; Watanabe, N. Recent Studies of the Volatile Compounds in Tea. Food Research International 2013b, 53, 585–599.
  • Takeo, T. Withering Effect on the Aroma Formation Found During Oolong Tea Manufacturing. Agricultural & Biological Chemistry 1984, 48(4), 1083–1085.
  • Mahanta, P.K.; Baruah, S. Relationship Between Process of Withering and Aroma Characteristics of Black Tea. Journal of the Science of Food & Agriculture 2006, 46(4), 461–468.

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