doi:10.16178/j.issn.0528-9017.20211046

Abstract

CLC Number:

S571.1

Figures/Tables 6

References 21

[1]	念波, 段双梅, 石兴云, 等. 6个红紫芽茶14种化学成分含量测定比较[J]. 食品工业, 2020, 41(2):189-193.
[2]	KE J P, DAI W T, ZHENG W J, et al. Two pairs of isomerically new phenylpropanoidated epicatechin gallates with neuroprotective effects on H₂O₂-injured SH-SY5Y cells from zijuan green tea and their changes in fresh tea leaves collected from different months and final product[J]. Journal of Agricultural & Food Chemistry, 2019, 67(17):4831-4838.
[3]	ZENG C Z, LIN H Y, LIU Z X, et al. Analysis of young shoots of ‘Anji baicha’ (Camellia sinensis) at three developmental stages using nontargeted LC-MS-based metabolomics[J]. Journal of Food Science, 2019, 84(7):1746-1757. DOI URL
[4]	黄创盛, 龚淑英, 范方媛, 等. 白叶茶树品种“中白1号”加工不同茶类适制性研究[J]. 茶叶, 2019, 45(2):69-74.
[5]	SONG L B, MA Q P, ZOU Z W, et al. Molecular link between leaf coloration and gene expression of flavonoid and carotenoid biosynjournal in Camellia sinensis cultivar ‘Huangjinya’[J]. Frontiers in Plant Science, 2017, 8:803. DOI URL
[6]	LI C F, MA J Q, HUANG D J, et al. Comprehensive dissection of metabolic changes in albino and green tea cultivars[J]. Journal of Agricultural and Food Chemistry, 2018, 66(8):2040-2048. DOI URL
[7]	郑生宏, 柴红玲, 邵静娜, 等. 不同白黄化茶树品种的香茶适制性研究[J]. 江苏农业科学, 2020, 48(18):136-139.
[8]	郑生宏, 娄艳华, 疏再发, 等. 不同茶树品种香茶适制性研究[J]. 中国茶叶加工, 2019(3):30-34.
[9]	金孝芳, 马林龙, 刘艳丽, 等. 6个高氨基酸茶树品种(系)主要生化成分分析[J]. 茶叶学报, 2017, 58(2):58-62.
[10]	尹军峰, 许勇泉, 袁海波, 等. 名优绿茶鲜叶摊放过程中主要生化成分的动态变化[J]. 茶叶科学, 2009, 29(2):102-110.
[11]	金鑫, 陈俊, 许佳妮. ‘中黄1号’绿茶鲜叶摊放过程中主要生化成分变化与干茶品质形成分析[J]. 茶叶, 2020, 46(2):91-95.
[12]	朱德文, 岳鹏翔, 袁弟顺, 等. 微波远红外耦合杀青工艺对绿茶品质的影响[J]. 农业工程学报, 2011, 27(3):345-350.
[13]	叶飞, 高士伟, 龚自明, 等. 不同杀青方式对绿茶品质的影响[J]. 四川农业大学学报, 2014, 32(2):160-164.
[14]	郭丽, 余方林, 林智, 等. 颗粒形绿茶的关键加工工艺参数优化[J]. 食品科技, 2015, 40(5):90-93.
[15]	虞富莲. 中黄1号、中黄2号的特异性、一致性和稳定性[J]. 中国茶叶, 2016, 38(3):14-16.
[16]	LIU J W, ZHANG Q F, LIU M Y, et al. Metabolomic analyses reveal distinct change of metabolites and quality of green tea during the short duration of a single spring season[J]. Journal of Agricultural and Food Chemistry, 2016, 64(16):3302-3309. DOI URL
[17]	WANG L, YUE C, CAO H L, et al. Biochemical and transcriptome analyses of a novel chlorophyll-deficient chlorina tea plant cultivar[J]. BMC Plant Biology, 2014, 14:352. DOI URL
[18]	王润龙, 郭小春, 赵品金. 颗粒形绿茶加工工艺技术研究[J]. 茶叶通讯, 2006(3):26-28.
[19]	胡欣, 卫聿铭, 方仕茂, 等. 颗粒形绿茶连续化做形技术研究[J]. 中国茶叶加工, 2020(3):27-34.
[20]	刘盼盼, 郑鹏程, 龚自明, 等. 珠形绿茶做形工艺优化及品质分析[J]. 食品与发酵工业, 2020, 46(16):135-140.
[21]	郭丽, 余方林, 赵锋, 等. 颗粒形绿茶的物理特性与外形品质关联性[J]. 食品科学, 2020, 41(19):25-30.

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茶样	水浸出物/%	茶多酚/%	游离氨基酸/%	咖啡碱/%	滋味评语	滋味评分
鲜叶	48.7±0.3	17.4±0.2	6.0±0.1	4.2±0.2	-	-
颗粒形绿茶	49.4±0.5	16.5±0.2	6.0±0.1	4.2±0.2	甘和、鲜爽	92.5
颗粒形红茶	42.2±0.8	10.4±0.4	5.5±0.3	4.0±0.3	尚甘和	87.0
颗粒形黄茶	50.0±0.4	16.8±0.3	5.3±0.2	4.2±0.1	较醇和	89.5
扁形绿茶	49.8±0.1	16.8±0.3	5.9±0.2	4.0±0.3	尚甘醇鲜爽、微有火工,微涩	90.5
针形绿茶	48.8±0.3	17.4±0.2	5.9±0.1	4.3±0.1	较甘醇、尚鲜爽	91.5

茶样	水浸出物/%	茶多酚/%	游离氨基酸/%	咖啡碱/%	滋味评语	滋味评分
鲜叶	48.7±0.3	17.4±0.2	6.0±0.1	4.2±0.2	-	-
颗粒形绿茶	49.4±0.5	16.5±0.2	6.0±0.1	4.2±0.2	甘和、鲜爽	92.5
颗粒形红茶	42.2±0.8	10.4±0.4	5.5±0.3	4.0±0.3	尚甘和	87.0
颗粒形黄茶	50.0±0.4	16.8±0.3	5.3±0.2	4.2±0.1	较醇和	89.5
扁形绿茶	49.8±0.1	16.8±0.3	5.9±0.2	4.0±0.3	尚甘醇鲜爽、微有火工,微涩	90.5
针形绿茶	48.8±0.3	17.4±0.2	5.9±0.1	4.3±0.1	较甘醇、尚鲜爽	91.5

茶样	外形评语	外形评分
S1	无刺手感、黄绿	89.0
S2	手捏成团,稍黏、黄绿	87.0
S3	手捏成团,稍黏、黄绿	85.0
S4	微刺、黄绿	93.0
S5	无刺、黄绿	94.0
S6	无刺、黄绿	90.0
S7	较刺、绿	92.3
S8	稍刺、黄绿	91.5
S9	微刺、黄绿	90.6

茶样	外形评语	外形评分
S1	无刺手感、黄绿	89.0
S2	手捏成团,稍黏、黄绿	87.0
S3	手捏成团,稍黏、黄绿	85.0
S4	微刺、黄绿	93.0
S5	无刺、黄绿	94.0
S6	无刺、黄绿	90.0
S7	较刺、绿	92.3
S8	稍刺、黄绿	91.5
S9	微刺、黄绿	90.6

茶样	外形描述	外形评分
F1	紧实	84.0
F2	尚紧实	80.5
F3	结块、欠紧实	80.0
F4	较紧实	85.0
F5	尚紧实	84.2
F6	有结块、欠紧实	81.0
F7	较紧实、有霜呈浅灰白色	84.0
F8	尚紧实	83.0
F9	有结块、欠紧实	81.3

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