Miang茶（一种泰国发酵型茶）及其饮食

Abstract

Abstract: Miang is an edible pickled tea or traditional tea leaf fermented product in household by local people in northern Thailand, which is made from the fresh tea leaves. This article went through the history of Miang, discussed its standard and method of plucking, stated the similar teas made in other Asian countries, such as China, Japan, Laos and Myanmar. Miang has long history and is very important for the northern Thai local economy. It also discussed its chemical constituents and the microorganisms responsible for the natural fermentation process as well as its benefits derived by humans. Challenges faced in the conducting its manufacturing industry and promoting it for better development in the future were also introduced.

Key words: Miang tea, fermented tea, processing, microorganism, health benefits

CLC Number:

TS272.5⁺9

BOUPHUN Tunyaluk, XU Wei, JIANG Yihe, ZHU Qi. Miang (Thai Fermented Tea) and Its Cuisine[J]. Journal of Tea Science, 2017, 37(6): 645-652.

References 28

[1]	Anon. Thai traditional fermented food [R]. Thailand: National Research Council of Thailand, 1981.
[2]	Kanpiengjai A, Naradorn C, Siriporn C, et al.Distribution of tannin-tolerant yeasts isolated from Miang, a traditional fermented tea leaf (Camellia sinensis var. assamica) in northern Thailand[J]. International Journal of Food Microbiology, 2016, 238: 121-131.
[3]	Preechapanya P.Indigenous ecological knowledge about the sustainability of tea gardens in the hill evergreen forest of northern Thailand [D]. Wales: School of Agricultural and Forest Sciences, University of Wales, Bangor, UK, 1996.
[4]	LeBar F M. Miang: Fermented tea in north Thailand[J]. Behavior Science Notes, 1967, 2: 105-121.
[5]	Mair V H, Hoh E.The true history of tea[M]. 3rd ed. Thames Hudson, 2009: 264-267.
[6]	Moerman M.Ethnic identification in a complex civilization: who are the lue[J]. American Anthropologist, 1965, 67(5): 1215-1230.
[7]	Weatherstone J.Historical introduction[M]//Willson KC, Clifford MN. Tea cultivation to consumption. London: Chapman and Hall, 1992: 1-23.
[8]	Sawin S W.Agro-forestry, energy and sustainability in the tea industry of upper north Thailand [D]. Victoria City: Department of Geography, University of Victoria, Canada. 1989.
[9]	Phromrukachat S, Tiengburanatum N, Meechui J.Assessment of active ingredients in pickled tea[J]. Asian Journal of Food and Agro-Industry, 2010, 3(3): 312-318.
[10]	Sampanvejsobha S, Sumonpun P, Laohakunitand N.Development of safe processing of Miang [R]. Thailand: Thailand Research Fund, 2012. (in Thai).
[11]	Luo S J.Processing of tea: food reviews international[J]. Food Reviews International, 1995, 11(3): 409-434.
[12]	Nanba A, Miyagawa K, Omori M, et al.Non-salted pickled tea (sour tea) in south-east Yunnan in China[J]. Japan Society of Home Economics, 1998, 49(8): 907-915.
[13]	Nanba A, Nyein MM, Win SY, et al.Post-heated and fermented edible teas and their dried forms used for drinking in Myanmar[J]. Japan Society of Home Economics, 1999, 50(6): 639-646.
[14]	Okada S, Daengsubha W, Uchimura T, et al.Flora of lactic acid bacteria in miang produced in northern Thailand[J]. Journal of General and Applied Microbiology, 1986, 32(1): 57-65.
[15]	Kawakami M, Chairote G, Kobayashi A.Flavor constituents of pickled tea, Miang, in Thailand[J]. Agricultural and Biological Chemistry, 1987, 51(6): 1683-1687.
[16]	Han T, Aya KN.The legend of laphet: A Myanmar fermented tea leaf [J]. Journal of Ethnic Foods, 2015, 2: 173-178. The legend of laphet: A Myanmar fermented tea leaf [J]. Journal of Ethnic Foods, 2015, 2: 173-178. http://dx.doi.org/10.1016/j.jef.2015.11.003.
[17]	Kato M, Tamura A, Omori M, et al.Changes of flavor during manufacturing process of Japanese fermented tea (Goishi-cha) and its characteristic[J]. Japan Society of Home Economics, 1994, 45(6): 527-532.
[18]	Klayraung S, Okonogi S.Antibacterial and antioxidant activities of acid and bile resistant strains of Lactobacillus fermentum isolated from Miang[J]. Brazilian Journal of Microbiology, 2009, 40: 757-766.
[19]	Tanasupawat S, Komagata K.Lactic acid bacteria in fermented foods in Thailand[J]. World Journal of Microbiology and Biotechnology, 1995, 11(3): 253-256.
[20]	Tanasupawat S, Pakdeeto A, Thawai C, et al.Identification of lactic acid bacteria from fermented tea leaves (miang) in Thailand and proposals of Lactobacillus thailandensis sp. nov, Lactobacillus camelliae sp. nov, and Pediococcus siamensis sp. Nov[J]. Journal of General and Applied Microbiology, 2007, 53(1): 7-15.
[21]	Bouphun T, Wei X, Wu D, et al. Dynamic changes in chemical constituents during processing of Miang (Thai fermented tea leaf) in various degree of tea leaf maturity [J]. International Journal of Food Engineering, 2017 [to be published]
[22]	Sampanvejsobha S, Sumonpun P, Laohakunitand N.Contents of caffeine and catechins in Miang produced from major sources in Thailand[J]. Agricultural Science Journal, 2013, 44(2): 597-600. (in Thai).
[23]	Dulloo AG, Seydoux J, Girardier L, et al.Green tea and thermogenesis: interactions between catechin-polyphenols, caffeine and sympathetic activity[J]. International Journal of Obesity, 2000, 56: 252-258.
[24]	Van Roy E.Economic system of Northern Thailand: structure and change[J]. American Anthropologist, 1972, 74: 881-882.
[25]	Miao M, Jiang B, Jiang H, et al.Interaction mechanism between green tea extract and human α-amylase for reducing starch digestion[J]. Food Chemistry, 2015, 186: 20-25.
[26]	Chwan L S, Jia H, Shu W, et al.Green tea supplementation benefits body composition and improves bone properties in obese female rats fed with high-fat diet and caloric restricted diet[J]. Nutrition Research, 2015, 35: 1095-1105.
[27]	Yead M N, Ahmed F S, Anwarul A A, et al.Comparative assessment of total polyphenols, antioxidant and antimicrobial activity of different tea varieties of Bangladesh[J]. Asian Pacific Journal of Tropical Biomedicine, 2017, 7(4): 352-357.
[28]	Anna G M, Joanna K C, Dominik K, et al.Antioxidative potential, nutritional value and sensory profiles of confectionery fortified with green and yellow tea leaves (Camellia sinensis)[J]. Food Chemistry, 2016, 211: 448-454.

Miang (Thai Fermented Tea) and Its Cuisine

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