1) province with developed tea industry
茶叶强省
1.
Construction of a new countryside in Fujian and a province with developed tea industry;
福建新农村建设与茶叶强省的构建
2) tea leaf
茶叶
1.
Research of monolithic processor control system in electric tea leaf frying pan;
茶叶电炒锅单片机控制系统的研制
2.
Automatic detection of overlapped tea leaf sprouts
重叠条件下茶叶嫩芽的自动检测方法
3.
After 18 tea leaf producing factories were investigated,the results showed that the tea leaf of goodgrade in the factories would alleviate the lead contamination in the tea leaf,while the commer tea leaf producing process can significantly increased the lead contamination in tea lead.
通过对18个茶叶生产厂家的分析调查发现,精制茶的生产工艺对茶叶的铅含量在总体上有降低作用,而粗制茶的加工工艺却有增加的趋势,因此茶叶生产工艺对茶叶的铅含量影响很大。
3) Tea
[英][ti:] [美][ti]
茶叶
1.
Functional properties of protein from tea and its application in meat products;
茶叶蛋白质功能性质及其在肉制品中的应用研究
2.
Isolation of Methylated Catechins from Tea and Their Aanalysis by High Performance Liquid Chromatography;
茶叶中甲基化儿茶素的分离、纯化和高效液相色谱法分析
3.
Determination of 33 pesticides in tea by accelerated solvent extraction-gel permeation and solid-phase extraction purification-gas chromatography-mass spectrometry;
加速溶剂萃取/凝胶渗透色谱-固相萃取净化/气相色谱-质谱法测定茶叶中残留的33种农药
4) tea leaves
茶叶
1.
Comparison of different techniques for extraction tea-polyphenols from tea leaves;
不同提取方法测定新鲜茶叶中茶多酚含量的比较研究
2.
Determination of manganese in tea leaves by Flame Atomic Absorption Spectrometry;
茶叶及浸泡液中锰含量的测定
3.
Determination of Calcium in Tea Leaves by Atomic Absorption Spectrometry;
原子吸收光谱法测定茶叶中钙
5) Camellia sinensis
茶叶
1.
Effects of Different Culture Conditions on Cell Growth and Theanine Biosynthesis in Suspension Cells of Camellia sinensis (Theaceae);
不同培养条件对悬浮培养茶叶细胞生长及茶氨酸合成的影响
2.
Isolation and identification of chemical constituents of n-butanol extracts from leaves of Camellia sinensis(L.) O.Ktze;
茶叶正丁醇萃取物化学成分的分离与鉴定
6) Tea-leaf
['ti:li:f]
茶叶
1.
Rapid determination of trace lead in tea-leaf by visual colorimetry;
目视比色法快速测定茶叶中的微量铅
2.
Determination of Cu,Zn,Fe,Mn and Pb in tea-leaf and its soaks by ICP-AES;
ICP-AES法测定茶叶及其浸泡液中的Cu、Zn、Fe、Mn、Pb等微量元素
3.
People discovered that tea-leaf have a certain effect on purifying the formaldehyde pollution.
近年人们发现茶叶对净化甲醛有一定的效果,且茶叶为纯天然物质对人体无害不产生二次污染。
补充资料:广东省农业科学院茶叶研究所
广东省农业科学院茶叶研究所
Tea Research Institute, the Academy of Agricultural Sciences of Guangdong
广东省农业科学院茶叶研究所、iea oc;eareh Institute,the Aeademy of Agrieultural Seienees of Guangdong)中国省级茶叶研究单位之一,1959年在原英德茶叶试验站基础上建立。1965年曾一度改为中南茶叶科学研究所,直到1973年才正式成为广东省农业科学院茶叶研究所,所址在英德县坑口嘴。由于建在英红华侨茶场内,因此在体制上属双重领导,科研管理属广东省农业科学院,行政管理属英红华侨茶场。 全所有职工142人.其中科研人员30人。所内科研工作由茶树品种、茶树栽培、茶园土壤肥料、茶树病虫害、茶叶加工、茶叶生理生化等6个研究室分头进行,另设科技情报资料室,收集管理有关茶叶文献资料。该所有茶园180亩,其中试验茶园40亩。所内附设茶叶加工厂,红茶、乌龙茶加工机械设备基本齐全。各研究室配有常规分析设备,能进行正常的科研工作。新设立的技术开发经理部,负责所内外的技术开发联络。 该所以发展广东省茶叶生产和茶叶科学技术为其基本任务。建所以来已有幼龄茶树定型修剪技术、茶树种植密度的研究、乌龙茶、红茶的研究、茶小绿叶蜂发生动态及防治技术、茶树高产优质栽培技术等5项成果,获得广东省科学技术成果奖。于1981年创办的《广东茶叶科技》,每年出刊4期。 (俞永明年陶瑞)‘
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