Aroma of Roasted Green Tea (Hoji-cha)

Aroma components were isolated from roasted green tea (Hoji-cha) and identified by IR and GC–MS.

A total of 66 compounds including 21 pyrazines were identified.

On comparison of aroma pattern of Hoji-cha with that of original green tea, it was clear that pyrazines were produced significantly while alcohols were reduced remarkably by roasting.     

Methyl Jasmonate and Lactones Including Jasmine Lactone in Ceylon Tea

The ester and lactone fraction possessing the most attractive aroma was separated from the aroma concentrate of Ceylon flavory tea by silica-gel column chromatography and analyzed by GC-MS.

Methyl 2-(cis-2′-pentenyl)-cyclopentanone-3-acetate(methyl jasmonate), 5-(cis-2′-pentenyl)-5-pentanolide (jasmine lactone), 2,3-dimethyl-2-nonen-4-olide, 4-octanolide, 4-nonanolide and 5-decanolide were newly identified as the constituents of tes aroma. Former two compounds seemed to carry a major share of aroma character of Ceylon flavory tea.     

武夷岩茶炭焙工艺对肉桂乌龙茶挥发性组分的影响

以武夷岩茶当家茶树品种肉桂(Camellia sinensis ‘Rougui’)鲜叶制成的乌龙茶为试材,基于顶空固相微萃取法(HS-SPME)结合气相色谱-质谱联用技术(GC-MS),探讨武夷岩茶炭焙工艺对肉桂乌龙茶挥发性组分的影响。实验中共检测到样本挥发性成分443个,其中包括96个杂环化合物、81个酯类化合物、31个萜类化合物、42个芳香烃类化合物、55个酮类化合物、24个其他烃类化合物、35个醇类化合物、24个醛类化合物、15个酚类化合物、14个胺类化合物、10个酸类化合物、5个含氮化合物、3个含硫化合物等。经主成分分析及聚类分析显示,焙火工艺是影响乌龙茶挥发性成分含量的重要影响因子。随炭焙程度增加,不同类别物质中的多数挥发性成分含量随之显著升高,且以美拉德反应产物等具有茶叶烘炒香的吡嗪类、糠醛类衍生物、吡咯类等化合物最具代表性;同时,部分含量丰富且具有乌龙茶特殊花果香气的醇类、萜烯类物质如香叶醇、反式-橙花叔醇、植物醇、α-法尼烯等,及具清新花香的吲哚含量显著降低。然而,大多数挥发性差异代谢物随炭焙程度增加相对含量显著升高,并不代表茶叶中芳香物质总量增加。研究表明,乌龙茶精制烘焙过程中,香气物质的积累主要来自热作用下的美拉德反应及非酶促的降解和氧化,如黄酮苷类物质水解。     

不同地域黄枝香乌龙茶的香气化学组成

用气相色谱／质谱联用法分析了高香型乌龙茶凤凰单枞—黄枝香在不同地域的香气化学组成．结果表明,不同地域样品香气化合物在检测的种数上差异不大,但类别及含量则有明显差异．黄枝香从山地引种于平地种植后,在其香气化合物中未能检测到乌龙茶的主要赋香成分——吲哚和茉莉酮,此外,橙花叔醇亦只有痕量检出,初步认为凤凰名枞—黄枝香存在着明显的地域香．     

Flavor of Black Tea

Intermediate and high boiling neutral compounds in the aroma concentrate from black tea were isolated by fractional distillation, silica-gel column chromatography and gas chromatography.

Identification of the compounds was verified by the agreement of IR and mass spectra as well as gas chromatographic data with those of authentic compounds.

Eleven compounds; α-muurolene, δ-cadinene, furfuryl alcohol, methyl phenyl carbinol, cadinenol, geranial, pyrrole-2-aldehyde, benzyl formate, phenylethyl formate, cis-3-hexenyl benzoate and indole, were newly identified as constituents of black tea aroma and ten known components; α-terpineol, 3, 7-dimethyl-l, 5, 7-octatrien-3-ol, trans, trans-2, 4-decadienal, 2-phenyl-2-butenal, α- and β-ionone, cis-jasmone, theaspirone, lactone of 2-hydroxy-2, 6, 6-trimethylcyclohexylidene-l-acetic acid and phenylacetonitrile were confirmed. The geometric structure of theaspirone in tea aroma was determined as the cis-form.     

一种紫斑牡丹花茶的研制及其主要香气成分分析

以紫斑牡丹(Paeonia suffruticosa var. papaveracea)花瓣为原料,采用隔离窨制,对牡丹花茶窨制过程中花坯、配花量等主要影响因子进行研究。结果表明,密闭箱桶温度21 ℃、相对湿度90%、窨制时间48 h条件下经一窨一提获得的花茶,感官评审花与茶叶的协调度高、香气高锐持久、茶汤滋味醇正鲜爽。采用气相色谱-质谱联用仪分析花茶香气成分,新鲜花瓣与茶叶配比5:1窨制48 h的花茶苯乙醇、香叶醇、橙花醇含量较高,其香气高扬、茶汤醇正鲜爽,配比2.5:1的花茶上述成分含量和感官其次,而拌和型茶品透素欠鲜爽。发酵或发酵揉捻花瓣窨制的花茶乙醇、环氧芳樟醇及高级烷烃含量较高,其主要赋香物质低于新鲜花瓣含量,渥味明显,茶汤有浊气欠鲜爽。     

Studies on the Aroma Constituents of Fuiien Ti Kuan Yin Tea,Se Chung Tea,Wu-I Shui Hsien Tea and Wu-I Chi Chung Tea in China

This paper reports, for the first time, the aroma constituents of the famous Fujian Oolong tea—Ti kuan Yin Tea, Se Chung Tea, Wu-I Shut Hsien Tea and Wu-I Chi Chung Tea. 70 aroma concentrates of tea samples were identified by the use of (IC-MS, SCOT capillary coumn GC standard sample addition method and IR. Among which benzyl alcohol, translinalooloxide (furanoid), cis-linalooloxide (fuconoid), 3,7-dimeihy-l,5, 7-octatrien-3-ol, β-phenylethanol, translinalooloxide (pyranoid), geraniol, indole, eisjasmone, pasmine laetone, nerolidol and mthyl jasmonate are the typical character the aroma constituents. Consequently the aroma is varied by different varieties of the tea, different regions of their growth and different processing.     

Autonomic Nervous Responses According to Preference for the Odor of Jasmine Tea

The effect of jasmine tea odor on the autonomic nervous system was investigated by a power spectral analysis of the heart rate variability. We assigned eight volunteers to two groups with either a predilection for or antipathy toward the jasmine tea odor. We tested both high- and low-intensity jasmine tea odors. The low-intensity odor was produced by diluting 20-fold the jasmine tea used for the high-intensity odor test. The low-intensity odor produced an increase in parasympathetic nervous activity in both the predilection and antipathy groups. The high-intensity odor produced an increase in parasympathetic nervous activity in the predilection group, but an increase in sympathetic nervous activity in the antipathy group. The odor of Chinese green tea, a basic ingredient of jasmine tea, produced no effects similar to those of the jasmine tea odor. These results suggest that the jasmine tea odor activated the parasympathetic nerve, whereas the higher-intensity odor activated the sympathetic nerve in those subjects who disliked the odor.     

Aroma Components Characteristic of Spring Green Tea

To investigate the aroma components characteristic of spring green tea, analysis of the aroma concentrates of green tea and fresh tea-leaves was accomplished. The research on the changes in aroma constituents of spring green tea and the aroma concentrate from fresh tea-leaves during storage, showed that cis-3-hexenylhexanoate and cis-3-hexenyl-trans-2-hexenoate contributed to the typical fresh aroma of spring green tea. Twelve isomers of hexenol esters were synthesized for comparison of the fresh green note.     

Flavor of Black Tea

In comparing the aroma concentrates from various types of black tea by the use of gas chromatography (GLC), differences of aroma pattern were recognized among these black tea of Ceylon, India, Peru, Formosa and Japan.

One of the typical differences, by which the variety would be characterized, appeared in the proportion of linalool (include its oxides) to geraniol and phenylethanol. Furthermore the ratio of the total area of peaks before and after linalool seemed to have some relation with the variety of black tea.

Also, top note of black tea aroma was compared by head space vapor analyses.     

Influence of Fungal Fermentation on the Development of Volatile Compounds in the Puer Tea Manufacturing Process

Puer tea is a unique Chinese fermented tea with natural flora manufactured in Yunnan Province of China. Very complex changes take place to form special quality and flavor characteristics in Puer tea due to the coordination of microbial metabolic action and natural oxidation. This paper investigates the isolation and identification of fungi responsible for the fermentation and the development of main volatile compounds of Puer tea during the fermentation process by means of GC/MS. Aldehydes and ketones in parched green tea (raw material) with low boiling‐points decreased significantly, while the amount of terpene alcohols – such as linalool and linalool oxides, methoxybenzene and derivatives, and indole – increased remarkably from the parched green tea to the Puer tea product after the manufacturing process. Degradation caused by heat and microbial growth at the piling stage likely played a key role in the generation of these compounds that contributed to the aromatic characteristics of Puer tea. It is hypothesized that the fungus Aspergillus niger plays a decisive role in the development of the volatile compounds.     

Chemical Compositions and Antioxidant Activity of Essential Oil from Green Tea Produced from Camellia taliensis (Theaceae) in Yuanjiang,Southwestern China

Camellia taliensis belonging to Camellia sect. Thea (Theaceae) is distributed from the western and southwestern areas of Yunnan Province, China to the north of Myanmar. Known as the “wild” tea plant, it has been commonly used for making tea by the local people of its growing area. It is the first investigation of the volatile constituents of the fresh tender leaves of C.taliensis and green teas produced from its tender and older leaves. The volatile constituents were obtained by hydrodistillation and analyzed by GC and GC MS. Ninety one compounds were identified. The results showed that the main compositions of volatile oil of the fresh tender leaves were hexadecanoic acid (30.52%), linoleic acid (19.82%), phytol (8.75%), and geraniol (2.54%), while monoterpenoids (58.51%) composing of linalool (28.43%), hotrienol (1.13%), α terpineol (11.68%), nerol (4.92%) and geraniol (12.34%) were the major volatile components of its green tea product. From the fresh leaves to the green tea products, 28 aroma components were formed. Among then, the content of (Z, Z, Z) 9, 12, 15 octadecatrien 1 ol (peak 77) was up to 1.21% (from tender leaves) and 11.2% (from older leaves), respectively. The DPPH and ABTS+ radical scavenging assays demonstrated a moderate activity of essential oil from the three essential oils of C.taliensis.     

茶树苯丙素类/苯环型挥发性物质的生物合成和胁迫响应的研究进展

茶(Camellia sinensis)的挥发性物质不仅会影响茶香的品质,也会在茶树中发挥重要的生态学功能。除了萜类和脂肪酸衍生类挥发性物质外,苯丙素类/苯环型挥发性物质(volatile phenylpropanoids/benzenoids, VPBs)也同样具有这些方面的功能。正因为具有这些功能,茶树中的VPBs也受到了人们越来越多的重视和研究。对近年来茶中一些具代表性VPBs的研究进展进行了综述,包括2-苯乙醇、苯乙醛等VPBs的生物合成及其对光胁迫的响应;1-苯乙醇和苯乙酮的生物合成途径及其对昆虫胁迫的响应;吲哚的生物合成及其在温度和机械损伤胁迫下的响应机制。此外,也探讨了VPBs中一些非传统的生物合成途径,以及这些途径在某些胁迫条件下的响应机制。     

Constituents and Composition of Steam Volatile Aroma from Ceylon Tea

The constituents of steam volatile aroma, which were responsible for topnote of Ceylon tea aroma, were identified. A total of 57 compounds were identified, of which 10 (ter-pinolene, n-nonanal, trans-2-pentenal, trans-3-octen-2-one, 6-methyl-3,5-heptadien-2-one, n-nonanol, cis-3-hexenylbutyrate, cis-3-hexenylcaproate, α-terpinylacetate and nerylacetate) had not previously been reported as associated with aroma of black tea. Approximate composition of topnote aroma from Ceylon flavory tea was also determined.     

Optical Isomers of Linalool and Linalool Oxides in Tea Aroma

The main aroma components of oolong and black tea, linalool and four diastereomers of linalool oxides (LOs), were enantioselectively isolated by capillary gas chromatography, using a column coated with an optically active liquid phase, permethylated β-cyclodextrin.

The R/S ratio varied among linalool and LOs, and among the different types of tea, the ratio for a particular compound also being different. However, the complete patterns of R/S ratio were similar in the semi-fermented and fermented teas, respectively.

Using a specific cultivar of black tea, the R/S ratio for each of the five compounds was compared in the free state in black tea with that of an aglycone of the glycoside in fresh tea leaves or in black tea. While the e.e. values of the compounds varied, those for a specific compound were similar, except for linalool, regardless of their free or combined state.

These results show that LOs are not directly transformed from linalool, but are formed enzymatically from glycoside precursors.     

我国西南元江大理茶的挥发性成分及其抗氧化活性(英文)

大理茶 ( Camellia taliensis) 为山茶科山茶属茶组植物,主要分布于云南横断山脉澜沧江至伊洛瓦底江流域,即从云南的西部及西南部至缅甸北部。在其分布区,大理茶亦被称为野生大茶树,常用于加工制作茶叶。采用水蒸气蒸馏法、GC 及 GC/MS 联用技术,首次对大理茶的鲜幼叶和鲜幼叶及老叶分别制成的绿茶中的挥发性成分进行提取和分析,共鉴定出 91 个化合物。研究结果表明,大理茶鲜幼叶的主要香气成分为棕榈酸 ( 30. 52%) ,亚油酸 ( 19. 82%) ,植醇 ( 8. 75%) 和亚麻酸乙酯 ( 2. 54%) 等有机酸及其酯和二萜类,而制成绿茶后,其主要香气成分则为芳樟醇 ( 28. 43%) ,脱氢芳樟醇 ( 1. 13%) ,α-松油醇( 11. 68%) ,橙花醇 ( 4. 92%) 和香叶醇 ( 12. 34%) 等单萜醇类成分。从大理茶鲜叶到由其制成的绿茶,香气成分发生了较大变化,形成了 28 种原鲜叶中未检测到的香气成分,其中,( Z,Z,Z) -9,12,15-十八烷三烯-1-醇的含量分别达到 1. 21% ( 幼叶绿茶) 和 11. 2% ( 老叶绿茶) ,是大理茶制作的绿茶的特征香气成分。DPPH 和 ABTS+自由基清除实验结果显示大理茶鲜叶及其制成的绿茶的挥发性成分均具有一定的抗氧化活性,但均弱于茶多酚的抗氧化活性。     

棒状乳杆菌FZU63发酵对红茶汤风味品质改善的作用

乳酸菌发酵可赋予茶饮料独特的香气与滋味,且可改变其物质组成,产生益生因子等。目前,针对乳酸菌在不同发酵阶段对茶汤中风味物质形成影响的研究较少。本研究以从中国传统泡菜中筛选获得的棒状乳杆菌FZU63为发酵菌株,对不同发酵阶段红茶汤中的挥发性香气成分、还原糖、游离氨基酸、有机酸等含量的变化过程进行分析,并对发酵红茶汤的感官品质进行评价。结果表明,棒状乳杆菌FZU63以红茶汤中的葡萄糖、果糖、甘露糖和木糖作为发酵过程中的主要碳源物质。红茶汤经棒状乳杆菌FZU63发酵作用后,香气成分丰度显著增加,且主要香气组分结构发生改变,发酵红茶汤在花香、坚果香的基础上增添了水果香;此外,部分苦味氨基酸含量下降,甜味和鲜味氨基酸含量增加;并且,乳酸、苹果酸、柠檬酸等有机酸含量在发酵过程中呈现积累。同时,感官评定结果表明棒状乳杆菌FZU63发酵可改善红茶汤的感官品质,且在发酵48h后达到较优。本文系统分析了经棒状乳杆菌发酵不同阶段对红茶汤风味的影响,可为乳酸菌发酵茶饮料的品质控制与产业化应用提供理论参考。     

茶叶香气的影响因素

香气是茶叶风味和品质的主要影响因子。影响茶叶香气的因素有很多,如茶树品种、自然环境、栽培条件、加工工艺、储藏方式等,文章综述了茶树品种、自然环境和栽培条件对茶叶香气的影响,旨在为茶树品种适制性和优质茶香的研究提供参考。     

外施GA3对茉莉花主要萜类物质及其相关基因表达的影响

对茉莉花喷施100 μmol·L–1赤霉素(GA3),分析赤霉素对茉莉花主要香气组分及其合成相关结构基因和转录因子表达水平的影响。结果显示,外施GA3可提高花朵开放过程中总香气成分以及芳樟醇、法呢烯含量,与此同时,花朵开放过程中总香气物成分、法呢烯含量高峰提前;外施GA3使花朵开放过程中JsTPS2、JsTPS3、JsTPS4基因表达峰值提高,JsTPS1基因的表达水平降低;外施GA3后,在花朵开放过程中花香相关转录因子JsMYB305、JsMYB86、JsMYB108的表达水平提高,JsMYC2的表达水平降低,而基因JsbHLH13的表达水平提高。研究结果可为施加植物生长调节物质提高茉莉花香气提供理论依据。     

Volatile and Non-volatile Forms of Aroma Compounds in Tea Leaves and Their Changes due to Injury

Fresh tea leaves were homogenized in a chloroform-methanol mixture (1:1, v/v), and separated into chloroform-soluble and methanol-water-soluble fractions after addition of water. From the chloroform-soluble fraction, the volatile forms of the aroma compounds were obtained. The non-volatile forms of the aroma compounds were associated with the methanol-water-soluble fraction, and were converted to volatile forms by hydrolysis with dilute acid.

The amount of the aroma compounds in the free form, such as cis-3-pentenol, hexanol, cis-3-hexenol, trans-2-hexenol, linalool, linalool oxide (cis, 5-membered), linalool oxide (trans, 5-membered), linalool oxide (trans, 6-rnembered), linalool oxide (cis, 6-membered), nerol, geraniol, phenylmethanol, and 2-phenylethanol, markedly increased during black tea manufacture. However, those in the bound form, showed a slight decrease during the manufacture. The increases in the former were also brought about by maceration, or treatment of the tea leaves with monoiodoacetate or malonate.