Methods Microscopic identification and TLC were used.
方法接纳显微判定以及薄层色谱辨别。
Microscopic Identification of Mongolian Drug Achillea alpina l.
蒙药蓍草的显微鉴别研究。
Method: Properties identification and powders microscopic identification.
方法:性状鉴别、显微鉴别。
Method: The morphological identification and microscopic identification were adopted.
方法:采用性状鉴别与显微鉴别法对药材进行研究。
Methods: The roots were identified by morphological and microscopic identification and TLC.
方法:采用性状鉴定、组织和粉末的显微鉴定及薄层色谱鉴定。
MethodsThe original plant identification, morphological, microscopic identification were adopted.
方法采用原植物、性状、显微鉴定方法。
Methods Trait identification, microscopic identification and physicochemistry identification were used.
方法:采用性状、显微、理化鉴别的方法。
Lyodium Sw. plants could be identified by characteristic, physiochemical and microscopic identification methods.
由结果可知,可通过性状、理化、显微鉴别的方法对其进行鉴别;
Method: Characteristic identification, microscopic identification and the physics and chemistry distinguishing were used.
方法:应用药材性状鉴别、显微鉴别及理化鉴别法鉴定。
Methods The methods of character identification, microscopic identification, physical and chemical identification were applied.
方法应用性状、显微及理化预试验方法。
Methods The original plant identification, morphological, microscopic identification and thin layer chromatography(TLC) were adopted.
方法采用原植物、性状、显微和薄层鉴别的方法。
The Leaf of Hydnocarpus hainanensis; Shape and Properties of Medicinal Materials; Microscopic Identification; Morphology and Histology;
海南大风子叶; 药材性状;显微鉴定;形态组织学;
Methods Resource investigation was carried out, samples were collected to microscopic identification and physicochemical identification.
方法对雪里见开展资源调查,采集样本进行基源鉴定和理化实验鉴定。
Identification, morphological and histological identification, microscopic identification, thin layer chromatography (TLC) were adopted.
方法采用原植物、性状、显微、薄层鉴别方法。
Conclusion: Characteristic identification, microscopic identification and the physics and chemistry distinguishing could provide a basis f…
结论:药材的性状鉴别、显微鉴别及理化鉴别特点可为该药的生药学研究提供依据。
Results There were exclusive in original plant identification, morphological, microscopic identification and thin layer chromatography(TLC).
结果儿茶在原植物、性状、显微和薄层等方面具有专属性的特征。
The comparative study was conducted by trait identification, microscopic identification, thin-layer chromatography and ultraviolet spectroscopy.
采用性状鉴定、显微鉴定、薄层色谱和紫外光谱法进行比较研究。
Main characteristics and microscopic identification were studied on cultivated Echinacea pallida which was introduced recently in Jilin province.
采用性状观察和显微鉴定方法,对近年来吉林省引进栽培的淡紫松果菊进行了主要性状及显微鉴别研究。
Results: The microscopic identification method and thin-layer chromatography identification of Salvia Miltiorrhiza Bge. and Radix Paeoniae Rubra were established.
结果:建立了显微鉴别方法及丹参、赤芍的薄层色谱鉴别方法。
Microscopic identification of pharmacognosy method was used to observe the root and rhizome of Atractylodes characteristics in the organization of the difference.
针对关苍术根和根茎混用的现象,从性状、显微、理化性质方面,对关苍术根和根茎进行生药学鉴定,从而区分关苍术的根和根茎。
MethodsThe original plant identification, morphological and histological identification, microscopic identification, thin layer chromatography (TLC) were adopted.
方法采用原植物、性状、显微、薄层鉴别方法。
Results Radix Paeoniae Alba, Radix Notoginseng, Rhizoma Cyperi Folimu Artemisiae Argyi and Radix Angelicae Sinensis can be identified by microscopic identification;
结果利用显微鉴别可鉴别出妇康宁片中白芍、三七、香附、艾叶、当归;
Combined with the chemical analysis and the microscopic identification results, it is confirmed that amphibole minerals have a close relationship with magnetic iron.
结合矿石化学分析和镜下鉴定结果,证实闪石类矿物与磁性铁有着密切关系。
Medicinal plants of different kinds of Herba Rabdosiae Serrae have different microscopic identification structure in leaf epidermis, leaf transverse section and leaf powder.
不同基源的溪黄草药材在叶表皮结构、叶组织结构和叶粉末几方面均具有不同的显微鉴别特征。
Method: Identification of botanical origin, analysis of fruit shapes and properties, microscopic characteristics, TLC and UV.
方法:原植物鉴定、药材果实性状、显微特征、薄层色谱和紫外光谱鉴别。
Recently, a lot of data have shown that microscopic analysis is an effective approach to the identification of obscured faults and paleo-earthquake event in soft sediments.
大量资料表明,微观分析是探讨松散沉积物中断层和古地震事件的行之有效的方法。
METHODS Morphological identification method and microscopic method were employed.
方法采用性状鉴别与显微鉴别法。
Finally, microscopic models for the identification of key congested segments and intersections were developed.
最后,提出了面向特大城市的微观重点拥堵点段识别模型。
Results The appearance, microscopic characteristics, and physicochemical identification results of Flos hibisci syriacus and Flos hibisci rosacsinesus were apparently different from each other.
结果木槿花和朱槿花在外观形态、显微特征及理化鉴别等方面有明显不同。
Fluorescence microscopic image technology has strong advantages on the identification of oil and water formations and evaluation of water flooded zones.
荧光显微图像技术在油水层识别及水淹层评价方面有较强的技术优势。
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