Welcome to Journal of Tea Science,Today is
Basic Information about the Journal
Journal title: Journal of Tea science
Inscription of journal title: ZHU De
Responsible Institution: China Association for Science and Technology
Sponsored by: China Tea Science Society
Tea Research Institute, Chinese Academy of Agricultural Science
Editing and Publishing: Editorial Office, Journal of Tea Science
Start time: 1964
No. of issues: Bi-monthly
Two-Dimensional Code of Tea Science Website
Cooperation

Top Read Articles

    Published in last 1 year |  In last 2 years |  In last 3 years |  All
    Please wait a minute...
    For Selected: Toggle Thumbnails
    Construction of Polyphenol Self-assembly Antibacterial Biomaterials and Progress in Their Applications
    XU Wei, YU Rongxin, ZHANG Xiangchun, ZHANG Yiwen, CHEN Hongping, TIAN Baoming, ZHENG Qinqin, WU Yuanyuan, XIA Chen, WEI Bing
    Journal of Tea Science    2024, 44 (1): 1-15.   DOI: 10.13305/j.cnki.jts.2024.01.004
    Abstract393)      PDF(pc) (4782KB)(384)       Save
    Bacterial infection, a leading cause of global mortality, can result in various diseases. While antibiotics are the primary treatment for infections, their excessive and irrational use has led to the emergence of a variety of bacterial drug resistance, posing a serious threat to human health. Plant polyphenols have natural antibacterial properties, but the instability of the phenolic hydroxyl structure limits their bioavailability. To solve this problem, researchers have explored the self-assembly of polyphenols with other substances to construct new nano-biomaterials. These biomaterials not only enhance the stability and bioavailability of polyphenols but also exhibit synergistic antibacterial activity, showing a great promise in the field of antibacterial applications. This review examined the construction strategies and antibacterial properties of different types of polyphenol self-assembled biomaterials developed in recent years, including polyphenol-metal, polyphenol-hydrogel, polyphenol-chitosan, polyphenol-protein and polyphenol-liposome. Furthermore, the challenges and future prospects of the novel polyphenol self-assembling biomaterials in the field of antibacterial application were discussed.
    Reference | Related Articles | Metrics
    Research Progress of Quantitative Evaluation Methods for Tea Grade
    ZOU Dan, YIN Xiaoli, GU Huiwen, LONG Wanjun, FU Haiyan, SHE Yuanbin
    Journal of Tea Science    2023, 43 (6): 733-746.   DOI: 10.13305/j.cnki.jts.2023.06.011
    Abstract375)      PDF(pc) (2029KB)(398)       Save
    Grade is an important indicator for discerning the quality of green tea and other types of tea, and it is directly related to their selling prices. However, there is often a phenomenon of falsely labeling tea grades in the market, which seriously undermines consumer rights. At present, tea grade is mainly assessed by sensory evaluation. Sensory evaluation, after long-term development, has formed relatively unified standard, but it still has a certain subjectivity. To evaluate the tea grade more accurately and objectively, researchers have developed a series of quantitative evaluation methods for tea grade. Given the significant practical importance of evaluating tea grade, this article provided a comprehensive review of the recent research status in the qualitative and quantitative evaluation of tea grades, including bionic sensing intelligent sensory detection technology, specific chemical components detection and metabolomics techniques. Major problems and challenges on tea grade evaluation were discussed, and future development trend was also prospected in this study. It has positive guiding significance for objective, scientific and standardized evaluation and quality control of tea quality.
    Reference | Related Articles | Metrics
    Study on the Influence of Tea Green Leafhopper Infestation on the Tenderness of Fresh Tea Leaves and the Extraction Rate of Metabolites Related to Oolong Tea Quality
    WU Shuhua, MAO Kaiquan, CHEN Jiaming, LI Jianlong, XUE Jinghua, ZENG Lanting, YANG Yuhua, GU Dachuan
    Journal of Tea Science    2023, 43 (6): 806-822.   DOI: 10.13305/j.cnki.jts.2023.06.005
    Abstract307)      PDF(pc) (4187KB)(292)       Save
    Tea green leafhopper is a major insect widely distributed in tea gardens, which has a significant impact on the yield and quality of tea. However, the effects of tea green leafhopper infestation on the tenderness of fresh tea leaves and the extraction rate of metabolites related to oolong tea quality remain unclear. By means of shear force measurement, broken tea rate analysis, oolong tea brewing, metabolite analysis and correlation analysis, it was found that the infestation of tea green leafhoppers significantly increased the contents of cell wall materials lignin, cellulose and pectin, and decreased the tenderness of fresh tea leaves and broken tea rate. The extraction rates of tea polyphenols, free amino acids, soluble sugars, catechin monomers, amino acid monomers and theanine were affected. Moreover, except for epicatechin gallate (ECG), the extraction of these taste substances and the tenderness of fresh tea leaves were significantly correlated with the contents of cell wall materials. In this study, the extraction rule of taste quality metabolites after tea green leafhoppers infestation was explored, and the influence of tea green leafhopper infestation on quality traits was explored from three aspects: tea picking, processing and brewing.
    Reference | Related Articles | Metrics
    A Grading Identification Method for Tea Buds Based on Improved YOLOv7-tiny
    HONG Konglin, WU Minghui, GAO Bo, FENG Yening
    Journal of Tea Science    2024, 44 (1): 62-74.   DOI: 10.13305/j.cnki.jts.2024.01.006
    Abstract275)      PDF(pc) (2946KB)(286)       Save
    The intelligent grading and recognition of tea buds in a natural environment are fundamental for the automation of premium tea harvesting. To address the problems of low recognition accuracy and limited robustness caused by complex environmental factors like lighting, obstruction, and dense foliage, we propose an enhanced model based on YOLOv7-tiny. Firstly, a CBAM module was added into the small object detection layer of the YOLOv7-tiny model to enhance the model's ability to focus on small object features and reduce the interference of complex environments on tea bud recognition. We adjusted the spatial pyramid pooling structure to lower computational costs and improve detection speed. Additionally, we utilized a loss function combining IoU and NWD to further enhance the model's robustness in small object detection by addressing the sensitivity of the IoU mechanism to position deviations. Experimental results demonstrate that the proposed model achieves a detection accuracy of 91.15%, a recall rate of 88.54%, and a mean average precision of 92.66%. The model's size is 12.4 MB. Compared to the original model, this represents an improvement of 2.83%, 2.00%, and 1.47% in accuracy, recall rate, and mean average precision, respectively, with a significant increase of 0.1 MB in model size. Comparative experiments with different models show that our model exhibits fewer false negatives and false positives in multiple scenarios, along with higher confidence scores. The improved model can be applied to the bud grading and recognition process of premium tea harvesting robots.
    Reference | Related Articles | Metrics
    Risk Assessment and Source Analysis of Heavy Metal Pollution in Chinese Tea Gardens in 2000-2022 Based on Meta-analysis
    YANG Yanhu, CHEN Xiaohan, ZHANG Xiaoqing, REN Dajun, ZHANG Shuqin, CHEN Wangsheng
    Journal of Tea Science    2024, 44 (1): 37-52.   DOI: 10.13305/j.cnki.jts.2024.01.002
    Abstract271)      PDF(pc) (1446KB)(283)       Save
    Heavy metal pollution is one of the important factors affecting the ecological environment of tea gardens and the safety of tea products. This study collected literature on heavy metal (Cu, Pb, As, Hg, Cd, Cr, Zn, Ni) pollutions in tea garden soils in major tea producing areas in China, including Hubei, Hunan, Fujian, Yunnan, Guizhou and Sichuan. The weight of a single study was obtained using meta-analysis method to obtain the weighted average of heavy metal concentrations in tea garden soils in each province and across the country. The potential ecological risk index method and geological accumulation index method were used for ecological risk assessment, and source analysis using the APCS-MLR model was applied. The results show that compared with the background values, all 8 heavy metals were enriched to a certain extent, with Hg and Cd pollutions being more severe. The moderate and above risks of Hg were mainly distributed in inland provinces such as Guizhou, Shaanxi, Sichuan and Anhui. The moderate and above risks of Cd were mainly distributed in coastal provinces such as Guangdong, Fujian, Zhejiang, Jiangsu, Shandong, Hainan, etc. The two heavy metals show mild to moderate risks. Compared with other countries in the world, tea gardens or agricultural land in developing countries generally have higher levels of heavy metals, with Cd and Hg being the elements with more severe pollution levels. The source analysis results show that the first, second, third, and fourth principal components are natural sources, industrial activity pollution sources, traffic exhaust pollution sources, and agricultural activity pollution sources, respectively. Industrial and agricultural activities are the main pollution factors, with Hg mainly coming from industrial activities and Cd mainly coming from agricultural activities.
    Reference | Related Articles | Metrics
    QTL Mapping and Candidate Gene Analysis for Timing of Spring Bud Flush in Tea Plants (Camellia sinensis)
    WANG Liubin, WU Liyun, WEI Kang, WANG Liyuan
    Journal of Tea Science    2023, 43 (6): 747-756.   DOI: 10.13305/j.cnki.jts.2023.06.012
    Abstract269)      PDF(pc) (1696KB)(416)       Save
    The timing of spring bud flush (TBF) is an important agronomic trait of tea plants, which has great effects on the flavor quality and economic benefits of tea. In this study, to discover key candidate genes regulating TBF, a F1 population of ‘Longjing 43’× ‘Baihaozao’ comprising 327 offspring was used and a two years’ investigation of TBF were performed in the tea garden. Based on the high-density genetic map constructed from the F1 population, QTL mapping for the sprouting index (SPI) of tea plants was performed using MapQTL 6.0 and GACD 1.2 software. The phenotypes of SPI in 2022 and 2023 show significant trait segregation and exhibit obvious quantitative trait characteristics in the progeny population. MapQTL 6.0 was identified as a primary QTL (qSPI-5-1), which explained 18.30% (2022) and 7.60% (2023) of phenotypic variations, respectively. GACD1.2 software identified two stable QTLs (qSPI-1, qSPI-5-2), which explained 2.75%-18.40% of phenotypic variations. While qSPI-5-2 and qSPI-5-1 were largely overlapped. The confidence intervals of the above QTLs were compared to the reference genome of tea plants, and 23 candidate genes related to the TBF were found by function annotation analysis. These results provided theoretical references for further investigation on the regulatory genes and molecular mechanisms of spring bud flushing in tea plants.
    Reference | Related Articles | Metrics
    Population Structure and Genetic Differences of Tea Germplasm Resources in Fujian
    YANG Jun, ZHANG Lilan, ZHANG Wenjing, CHEN Linhai, ZHENG Guohua, LI Yijing, WANG Rangjian
    Journal of Tea Science    2023, 43 (6): 769-783.   DOI: 10.13305/j.cnki.jts.2023.06.006
    Abstract267)      PDF(pc) (749KB)(231)       Save
    The population genetic structure, genetic diversity, genetic differentiation, gene flow, molecular variance of 208 tea germplasm resources in Fujian were studied by using 38 pairs of SSR fluorescent primers, and the leaf traits were also investigated. The results show that the Nei’s genetic diversity index and Shannon’s information index of 208 tea resources in Fujian were 0.674 and 1.444, respectively. The average values of leaf area and length-width ratio were 27.442 cm2 and 2.516, respectively. The genetic variation of tea germplasm in Fujian were mainly originated from individual genetic variation. The test materials were divided into 8 groups by the structure software analysis. The material sources in groups a, b, f, and h were single, while the material sources in groups c, d, e, and g were complex. The genetic background of tea population in different regions was similar. There were a total of 40 tea cultivars from Fujian in groups a, b, and e. Group a was mainly cultivars suitable for processing green tea. Group b was mainly cultivars suitable for processing oolong tea. The representative cultivars within group e were suitable for processing green tea. There is a certain correlation between the group attributes of group a, group b, group e and the suitable tea cultivars. Group c included the resources from Nanjing county, Yunxiao county and Pinghe county, with relatively close geographical locations. The group attributes are related to geographical sources. The gene flow value between group g and group e was 6.321, indicating frequent gene exchange between groups. The clustering of group similarity coefficients shows that group d and group b were closely related. The genetic differentiation between group h and other groups was obvious, and the characters of leaf area and leaf serration number were significantly different (P<0.05). The genetic relationship between group f and other groups was relatively distant, and there were significant differences in the characteristics of leaf serration number and leaf vein logarithm (P<0.05), showing that both group h and group f had certain uniqueness and need further identification. These research results provided a certain reference for the identification, screening, and utilization of tea germplasm resources in Fujian.
    Reference | Related Articles | Metrics
    Experimental Study on High-quality Tea Plucking by Robot
    LI Yatao, ZHOU Yujie, WANG Shaoqing, CHEN Jianneng, HE Leiying, JIA Jiangming, WU Chuanyu
    Journal of Tea Science    2024, 44 (1): 75-83.   DOI: 10.13305/j.cnki.jts.2024.01.003
    Abstract265)      PDF(pc) (1757KB)(302)       Save
    This study evaluated the performance of a newly developed track-type tea plucking robot on Longjing tea picking, including its detection accuracy, localization accuracy, end effector plucking accuracy, time consumption across each stage. The results show that the detection success rate of the developed robot was 88.54%, the localization success rate was 84.07%, the end effector plucking success rate was 87.22%, and the overall plucking success rate was 61.30%. The plucked tea leaves met the requirements of middle-grade Longjing tea. The single tea shoot plucking time was approximately 1.51 s, and the machine could pluck over 2 000 tea shoots per hour, basically achieving the picking efficiency of one machine replacing one worker.
    Reference | Related Articles | Metrics
    The Investigation of the Ameliorate Effect and Mechanism of EGCG on Non-obese GK Rat with Diabetic Kidney Damage
    PENG Liyuan, ZENG Hongzhe, WAN Liwei, WEN Shuai, LIU Changwei, AN Qin, BAO Sudu, HUANG Jian'an, LIU Zhonghua
    Journal of Tea Science    2023, 43 (6): 784-794.   DOI: 10.13305/j.cnki.jts.2023.06.003
    Abstract261)      PDF(pc) (2099KB)(166)       Save
    Epigallocatechin gallate (EGCG) is an antioxidant and anti-inflammatory natural active ingredient, and fewer studies have been conducted on the antioxidant and anti-inflammatory effects of EGCG in DKD and the regulatory mechanisms. This study investigated the effect and mechanism of EGCG on diabetic kidney damage in non-obese GK rats with idiopathic T2DM. Two different doses of EGCG (10 mg·kg-1 and 120 mg·kg-1) were administered to GK rats for 4 weeks. The body weight and daily food intake of rats were monitored during the experiment. At the end of the experiment, the serum and kidney tissues were collected to detect some kidney biochemical and pathological indicators and Nrf2-Keap1/MAPK signaling pathway related gene expression levels. The results show that EGCG could improve the kidney morphology and significantly increase the activities of antioxidant enzymes (such as SOD, CAT and GSH-Px), and inhibit the release of proinflammatory cytokines (MCP-1, IL-1β). In addition, EGCG could restrain oxidant stress by up-regulate the expression level of Nrf2 and inhibit inflammation by down-regulating the expression levels of JNK, NF-κB and P38 genes in kidney. The improvement effect of high dose was better than that of low dose in the experimental range. In conclusion, these results indicate that EGCG could ameliorate kidney injury caused by diabetes, and its mechanism might be related to anti-oxidative stress mediated by Nrf2-Keap1/MAPK signaling pathways.
    Reference | Related Articles | Metrics
    Analysis of the Major Characteristic Aroma Compounds in Different Grades of Jingshan Tea
    ZHANG Huiyuan, MA Kuan, GAO Jing, JIN Yugu, WANG Yujie, SU Zhucheng, NING Jingming, CHEN Hongping, HOU Zhiwei
    Journal of Tea Science    2024, 44 (1): 101-118.   DOI: 10.13305/j.cnki.jts.2024.01.009
    Abstract257)      PDF(pc) (1818KB)(280)       Save
    To characterize the difference of odorants among different grades of Jingshan tea, we investigated the super grade, the first grade, the second grade and the third grade of Jingshan tea by stir bar sorptive extraction gas chromatography-mass spectrometry (SBSE-GC-MS), headspace solid-phase microextraction gas chromatography-mass spectrometry (HS-SPME-GC-MS) and gas chromatography-olfactometry (GC-O) analysis. Herein, we detected and identified 161 volatile organic compounds. The differences between the four grades of Jingshan tea were revealed by principal component analysis (PCA) and hierarchical cluster analysis (HCA). The variable importance in projection (VIP) of the orthogonal partial least squares discriminant analysis (OPLS-DA) was used to determine candidate differential volatile compounds among tea samples of different grades and further screening of differential compounds was carried out through analysis of relative odor activity value (ROAV) and GC-O analysis. A total of 18 volatile compounds were identified as key odorants for the discrimination of different grades of Jingshan tea, including linalool, geraniol, indole, (Z)-jasmone, dimethyl sulfide, etc. Among them, the contents of hoterienol, methyl jasmonate, and indole in the super grade Jingshan tea were significantly higher than those in other grades, and together with (Z)-jasmone, δ-decalactone, and 1-octen-3-ol and other aroma-active compounds constitute the characteristic floral aroma of super grade Jingshan tea samples. This study revealed significant differences in the characteristic volatile compounds among different grades of Jingshan tea, providing a reference for distinguishing the grades of green teas by chemometrics combined with multivariate statistical analysis.
    Reference | Related Articles | Metrics
    Study on the Spatiotemporal Evolution and Spatial Differentiation Pattern of Carbon Sink in China’s Tea Industry
    YUAN Liwen, ZHANG Junbiao, QIN Jiangnan
    Journal of Tea Science    2024, 44 (1): 149-160.   DOI: 10.13305/j.cnki.jts.2024.01.011
    Abstract256)      PDF(pc) (655KB)(224)       Save
    The tea garden ecosystem has an important carbon storage function. Analyzing and evaluating the carbon sink level during the production and planting process of tea gardens is of great significance for scientifically evaluating the potential ecological value of tea gardens and promoting the green and low-carbon development of the tea industry. This paper selected data from 16 major tea producing provinces in China from 1978 to 2020, used biomass models of tea plant growth cycles and soil carbon content models to calculate and evaluate the basic situation of carbon sinks in China’s tea industry. The center of gravity fitting model was used to analyze the spatiotemporal evolution of carbon sinks in the tea industry, and the driving factors of spatial differentiation were explored in conjunction with geographic detector models. The results show that: (1) The total carbon sink of China’s tea industry had shown a phased growth trend, reaching 735.311 million tons in 2020, and the accumulation of soil carbon sink was higher than that of plant carbon sink. The carbon sink intensity showed a “rise-decrease-rise” characteristic. (2) There were significant differences in carbon sink intensity among different provinces in the tea industry. High-intensity provinces were concentrated in the eastern coastal and western regions of China, and the carbon sink gravity center had long been located within Hunan province, but there was a slight trend of westward displacement. (3) The agricultural subsidies and the development level of agricultural economy were important driving forces that affect the spatial distribution pattern of carbon sinks in China’s tea industry, but there were differences in the dominant factors for the spatial differentiation of carbon sinks in different regions. Based on this, this paper proposed relevant suggestions from the management and operation of carbon sinks in the tea industry, as well as the formulation of industrial policies.
    Reference | Related Articles | Metrics
    Analysis of Photosynthetic and Fluorescence Characteristics of Albino Tea Plants
    LIU Dongna, GONG Xuejiao, LI Lanying, HUANG Fan, YAO Yu, XU Yaqiong, GAO Yuan, LUO Fan
    Journal of Tea Science    2023, 43 (6): 757-768.   DOI: 10.13305/j.cnki.jts.2023.06.002
    Abstract251)      PDF(pc) (557KB)(352)       Save
    To facilitate the scientific assessment of germplasm evaluation and cultivation management of albino tea plants (Camellia sinensis L.), this study investigated the photosynthetic pigment contents, as well as the photosynthetic and chlorophyll fluorescence characteristics of three albino cultivars, with the normal tea cultivar ‘Fuding dabaicha’ (FD) as the control. The results show that (1) the total chlorophyll content of yellow tea leaves was 71.7%-86.8% lower than that of the control cultivar, and the total carotenoid content remained between 0.16 mg·g-1 and 0.31 mg·g-1. (2) The net photosynthetic rate (Pn), stomatal conductance (Gs), water use efficiency (WUE), the maximum net photosynthetic rate (Pn max), and light saturation point (LSP) of three albino tea cultivars were significantly decreased, and the optical compensation point (LCP) was significantly was than those of the control. (3) The photosynthetic processes of albino tea cultivars, such as absorption, transformation and consumption of light energy were significantly different from those of the control. Among them, the relative variable fluorescence at L and J points in the OJIP curve of albino tea cultivars ‘Jinfeng 2’ (JF2) and ‘Zhonghuang 1’ (ZH1) were significantly higher. Among the chlorophyll fluorescence kinetic parameters, MO, DIO/RC, φDO and φRO increased significantly, while FV/FO, ETO/RC, φPO, φEO, ΨEO and PIabs decreased significantly. Our study found that the photosynthetic efficiency, potential and ecological adaptability of albino tea leaves were significantly decreased. The significant reduction of photosynthetic pigment, the significant decrease of PSⅡ light capture and photosynthetic electron transfer efficiency, and the significant increase of heat dissipation energy were the considerable reasons for inhibition of photosynthetic performance in albino tea plants.
    Reference | Related Articles | Metrics
    Does Digital Capital Influence Consumers to Increase Online Tea Purchases? An Empirical Analysis Based on 4 090 Consumer Samples
    GAO Feng, XU Jianghong, CHEN Fuqiao
    Journal of Tea Science    2023, 43 (6): 870-880.   DOI: 10.13305/j.cnki.jts.2023.06.001
    Abstract251)      PDF(pc) (593KB)(271)       Save
    With the rapid development and widespread application of digital technology, consumer digital capital continues to accumulate, profoundly influencing their choice of shopping channels. Based on survey data from 4 090 tea consumers within the National Tea Industry Technical System, this study measured the consumer digital capital index and employed the ordinary least squares (OLS), instrumental variable (IV), and propensity score matching (PSM) methods to examine the impact of digital capital on consumers' online tea purchases. The research further explored the heterogeneity of this influence across consumers with different characteristics and delved into the moderating effect of digital technology security within this context. It was found that: (1) An increase in consumer digital capital led to higher expenditures on online tea purchases. (2) The impact of digital capital was more pronounced in young people, higher-income groups, and consumers who buy tea for personal consumption. (3) The decision security of digital technology played a positive moderating role in the relationship between digital capital and online tea purchases, particularly transaction security. However, the moderating effect of information security was not significant. In summary, the increase in consumer digital capital is the trend. Tea enterprises should seize the opportunities presented by digital transformation and actively establish online sales channels. The government should provide comprehensive support in terms of policies, funding, and technology for the digital transformation of tea enterprises. Simultaneously, there should be increased supervision of online sales markets to maintain quality and safety, creating a salubrious and well-ordered online tea trading market environment.
    Reference | Related Articles | Metrics
    The Impact of Organic Certification on the Business Profit of Tea Enterprises: Counterfactual Estimation Based on Propensity Score Matching
    YANG Xulin, PAN Changjian, JIANG Renhua
    Journal of Tea Science    2023, 43 (6): 881-890.   DOI: 10.13305/j.cnki.jts.2023.06.009
    Abstract247)      PDF(pc) (354KB)(112)       Save
    This paper empirically examined the impact of organic certification on tea enterprises’ business profit using the propensity score matching method based on the data of 288 tea enterprises nationwide. The empirical evidence shows that organic certification has a positive effect on the business profit of tea enterprises, and this effect is heterogeneous in different regions and different tea plantation sizes. Compared with the central and western tea enterprises, the participation of eastern enterprises in organic certification has a significant effect on improving business profits. Compared with tea enterprises with a median or higher area of their own tea gardens, enterprises with smaller area of their own tea gardens have a greater benefit from participating in organic certification. Accordingly, governments can support tea enterprises to carry out organic certification in the framework of green development. Enterprises in the central and western regions can learn from the practical experience of the development of organic tea in eastern enterprises. Tea enterprises need to combine their own development positioning and market demand, consider whether to promote the quality and efficiency of enterprises through organic certification.
    Reference | Related Articles | Metrics
    Research Progress on the Mechanism of Natural Tea Components in Alleviating Acne
    WU Zhiyuan, WANG Kaibo, CHEN Silin, ZHAO Bi, SHEN Shiquan
    Journal of Tea Science    2024, 44 (1): 16-26.   DOI: 10.13305/j.cnki.jts.2024.01.010
    Abstract246)      PDF(pc) (1220KB)(311)       Save
    Tea, as a natural beverage, is highly favored due to its clear health benefits. With in-depth research on the active ingredients of tea in recent years, it has been confirmed that natural components can have positive effects on various disease models. Acne is an inflammatory skin disease with a high prevalence and recurrence rate. In addition to traditional clinical diagnosis and treatment, complementary and alternative therapies represented by patches, skin care, and dietary improvement are also popular. In the market, more and more acne control products claim to add tea active ingredients to the raw materials. Natural components such as tea polyphenols, caffeine, theanine and tea saponins have shown great potential in alleviating acne. In this paper, the effects and molecular mechanisms of different functional components of tea on inhibiting sebum secretion, alleviating acne, improving skin microbial imbalance, and alleviating skin focal inflammation were reviewed, in order to provide reference for the research and development of tea natural products.
    Reference | Related Articles | Metrics
    Effects of Foliar Application of Different Concentrations of Organic-based Biostimulant Formulas on Yield and Quality of Tea (Camellia sinensis L.) in Red Soil Regions
    WANG Limin, CHEN Shiping, HUANG Dongfeng
    Journal of Tea Science    2024, 44 (1): 53-61.   DOI: 10.13305/j.cnki.jts.2024.01.007
    Abstract244)      PDF(pc) (903KB)(270)       Save
    The purpose of this study was to evaluate the effect of different concentrations of organic-based biostimulant formulas (OBFs) on the yield and quality of tea (Camellia sinensis L.) in red soil regions. A field experiment was therefore conducted to investigate the nutrient uptake, yield, and quality of tea under different fertilization treatments. On the basis of conventional fertilization, foliar applications with the volume percentage concentration of OBFs including 0 (T0), 0.33% (T1), 0.66% (T2), 0.99% (T3), 1.32% (T4), and 1.65% (T5) were set up. The results show that foliar application of OBFs improved agronomic characteristics, enhanced nutrient uptake of tea plants and improved the tea yield and quality. Compared with the T0 treatment, tea yield in the T1, T2, T3, T4 and T5 treatments increased by 1.4, 1.4, 1.3, 2.1 and 2.4 times, respectively (P<0.05). In addition, as the concentrations of OBFs increased, the contents of total alkaloid, caffeine, and amino acids were first increased and then decreased. The contents of total alkaloid in the T1 and T2 treatments increased by 9.6% and 9.3%, caffeine increased by 9.3% and 11.4%, and amino acids increased by 5.0% and 12.4% in comparison with the T0 treatment, respectively (P<0.05). Meanwhile, under T1 and T2 treatments, nitrogen (N) uptake of tea leaves increased by 5.5% and 6.1%, phosphorus (P) increased by 19.9% and 13.3% and potassium (K) increased by 20.9% and 10.0%, respectively (P<0.05). Under T1 treatment, silicon (Si) increased by 14.8%. Furthermore, tea yield was positively correlated with bud density, 100-bud weight, leaf area and chlorophyll content. Meanwhile, the contents of total alkaloid and caffeine were positively related to N, P, K and Si contents in tea leaves, respectively. Similarly, there was a significant and positive relationship between N, P and K contents in tea leaves and the contents of amino acids and essential amino acids. Overall, foliar application with 1.65% OBFs could increase tea yield, while foliar application with 0.33% and 0.66% OBFs could promote N, P, K and Si uptake in tea leaves, improve agronomic characteristics, which is beneficial for tea yield and quality.
    Reference | Related Articles | Metrics
    Research on the Path to Realize the Value of Tea Agricultural Cultural Heritage: Empirical Analysis Based on 31 Typical Cases
    MA Jie, YE Chaoyang, MAO Liyu
    Journal of Tea Science    2024, 44 (1): 161-174.   DOI: 10.13305/j.cnki.jts.2024.01.013
    Abstract233)      PDF(pc) (584KB)(306)       Save
    The realization of the value of tea agricultural cultural heritage (TACH) is an important way for its protection and sustainable development. Based on the technology-organization-environment framework (TOE), this study explored the configuration effects of TOE condition variables on TACH value realization, as well as the linkage matching relationship among different elements. Based on 31 typical cases of TACH as research samples, the Fuzzy-sets qualitative comparative analysis (FsQCA) method was applied to explore the influencing factors and driving paths of TACH value realization. This study found that: (1) the realization of the value of TACH is the result of the combined action of necessary and sufficient conditions. (2) the realization of the value of high-level TACH is the result of the combination of core conditions and marginal conditions, with three typical models: "Collaborative Organizational Environment Type", "Social Resource Driven Type " and "Comprehensive Coupling Type". (3) The driving combination for the realization of non-high-level and high-level TACH value is asymmetric. Therefore, different paths could be chosen based on one's own resource endowment and external factors, in order to promote TACH value realization.
    Reference | Related Articles | Metrics
    Quantitative Analysis of Tea Leaf Serration Morphological Characteristics Based on Image Analysis
    TANG Min, ZHONG Qitian, XU Jin, XIAO Fuliang, LI Jie, ZHAI Xiuming, HOU Yujia, GU Yu
    Journal of Tea Science    2023, 43 (6): 835-843.   DOI: 10.13305/j.cnki.jts.2023.06.004
    Abstract225)      PDF(pc) (970KB)(172)       Save
    The size, shape, and arrangement of tea leaf serrations are important criteria for assessing and evaluating tea germplasm resources. However, for a long time, the determination of these criteria has mainly relied on the experience of technicians, resulting in subjective judgments and uncertainties. In this study, a custom convolutional operator based on the geometric morphological features of leaves was introduced, and the existing image recognition algorithms were optimized. A quantification method for tea leaf serrations based on leaf image analysis was proposed. Through experimental validation, the results show that this method can rapidly and accurately obtain basic parameters such as leaf area, perimeter, and number of serrations. It can also quantify descriptive indicators such as serration sharpness, serration depth, and serration density using custom operators. The coefficients of variation for the quantified results are all less than 1%, indicating strong repeatability and high stability. Compared to manual subjective identification, the measurement time of this method does not exceed 30 s, effectively enhancing the accuracy and efficiency of evaluating the morphological characteristics of tea leaf serrations. It provided a new approach and perspective for the quantitative evaluation of tea germplasm resources.
    Reference | Related Articles | Metrics
    Changes of Rhizospheric Pathogen Alternaria sp. and Its Antagonistic Bacteria Pseudomonas sp. of Continuous Cropping Tea Plants Mediated by Phenolic Acids
    LI Yanchun, WANG Yixiang, YE Jing, LI Zhaowei
    Journal of Tea Science    2023, 43 (6): 823-834.   DOI: 10.13305/j.cnki.jts.2023.06.007
    Abstract219)      PDF(pc) (1798KB)(123)       Save
    Tea plant is an important economic crop in China. Long-term continuous cropping of tea plants has resulted in severe problems such as the imbalance of soil microbial community structure, soil disease exacerbation. Exploring the molecular mechanism underlying the formation of continuous cropping obstacles in Tieguanyin tea gardens is of great significance for seeking effective techniques for preventing and controlling the continuous cropping obstacle phenomenon. In this study, the pathogen and its antagonistic bacteria were isolated from the rhizosphere of Tieguanyin tea garden and identified by methods such as microbial isolation and purification, and plate confrontation. Quantitative analysis was conducted on the number of pathogen and its antagonistic bacteria in the rhizospheric soils of different continuous cropping years (0, 1, 10, and 20 years). Simultaneously, high-performance liquid chromatography (HPLC) technology was used to detect the changes of phenolic acid contents in the rhizospheric soils of different continuous cropping years, and the ratio of various phenolic acids in the soils was simulated to investigate the effects of phenolic acids on the rhizospheric pathogen and its antagonistic bacteria. The results show that one pathogenic fungus Alternaria sp. was isolated and identified from the infected roots of Tieguanyin under 20 years’ continuous cropping, and an antagonistic bacteria Pseudomonas sp. was identified from the rhizospheric soils. Fluorescence quantitative PCR analysis shows that the content of Alternaria sp. in 20 years’ continuous cropping soils was significantly higher than 1 year tea garden, while the content of Pseudomonas sp. was significantly lower. Five phenolic acids, including p-hydroxybenzoic acid, vanillic acid, syringic acid, vanillin, and ferulic acid, were detected in the rhizospheric soils, with an average ratio of 38∶229∶11∶11∶3. Phenolic acids did not accumulate in the soils, but showed a trend of first increasing and then decreasing with the increase of continuous cropping years. Simulation experiments found that mixed phenolic acids at low to medium concentrations (30-120 mmol·L-1) could significantly promote the mycelial growth of Alternaria sp. while single phenolic acid such as p-hydroxybenzoic acid, vanillic acid, and syringic acid at low concentrations (30 mmol·L-1 and 60 mmol·L-1) also significantly accelerated the mycelial growth of Alternaria sp.. However, p-hydroxybenzoic acid had an inhibitory effect on the growth of Pseudomonas sp., and the inhibitory effect increased with the increase of p-hydroxybenzoic acid concentration. Mixed phenolic acid and other single phenolic acids had no significant effect on the growth of Pseudomonas sp.. Therefore, phenolic acids, the root exudates of Tieguanyin tea plants, have different ecological effects on the key microbial communities in the rhizospheric soils, and are important factors causing the imbalance of microbial community structure and the increase of severe diseases and other continuous cropping obstacles. The research results provided a theoretical basis for further revealing the mechanism of continuous cropping obstacles in Tieguanyin tea plants.
    Reference | Related Articles | Metrics
    Establishment of Lu'an Guapian Green Tea Brewing Control Chart
    ZHAO Xiaoyi, CHEN Aini, JIANG Qing, ZHAO Lei, QIU Tong, FANG Wanxin, LIANG Chuyun, SHARIPOVA Alina, DAI Qianying
    Journal of Tea Science    2024, 44 (1): 133-148.   DOI: 10.13305/j.cnki.jts.2024.01.012
    Abstract219)      PDF(pc) (2403KB)(136)       Save
    The Coffee Brewing Control Chart is widely used in the coffee industry. According to the evaluation indices of coffee, this study applied extraction yield (EY) and total dissolved solids (TDS), which represent flavor balance and strength respectively, as quality indices to evaluate Lu'an Guapian green tea (LAGP) infusion. The optimum range of EY and TDS which yielded the maximum consumer acceptance were estimated by survival analysis. EY ranged from 2.53% to 4.57%, and TDS ranged from 0.14% to 0.28%. The LAGP Brewing Control Chart was established regarding the optimum range as the “ideal” zone. The chart was verified by both consumers and experts. This study indicates that when tea to water ratios (g∶mL) ranged from 1∶30 to 1∶15, brewing temperature ranged from 85 ℃ to 100 ℃, regulating brewing time of the first, second and third infusion less than 33 s, 15 s and 13 s, respectively, the ideal infusion can be gained. The study scientifically provided theory basis for guiding green tea brewing like LAGP.
    Reference | Related Articles | Metrics