1) ultramicro-morphology
超微形态学
1.
s~tematicallv and roundly on the ultramicro-morphology and membrane molecular biolog~?of Cvsticercus cellulosae and effects of drugs during development in vitro and in vivo.
本论文应用扫描电镜(SEM)、透射电镜(TEM)和膜分子生物学技术首次较系统、全面地研究了猪囊尾蚴体内外发育过程中的超微形态学和膜分子生物学及其药物影响。
2) Morphology Ultrastructure
形态学超微结构
3) soil submicromorphology
土壤超微形态学
4) ultrastructure
[英]['ʌltrə,strʌktʃə] [美]['ʌltrə,strʌktʃɚ]
超微形态
1.
Effects of Intraoperative Autotransfusion and Blood Preservation on Erythrocyte Ultrastructure and Immunity;
回收式自体输血和血液保存对红细胞超微形态和免疫功能的影响
2.
objective:To observe the ultrastructure of GoreTex suture for artificial chordae replacement.
目的:观察Gore Tex线的超微形态和结构。
5) ultra-morphology
超微形态
1.
The ultra-morphology, infrared spectra characteristics and chemical composition of the waxes secreted by the scale insect Eupulvinaria citricola (Kuwana) (Hemiptera: Coccidae) was studied using scanning electron microscope (SEM), infrared absorption spectra (IS) and gas chromatography/mass spectrometry (GC/MS).
采用扫描电镜、红外光谱、气相色谱/质谱联用技术研究了柑橘真棉蚧Eupulvinariacitricola(Kuwana)(半翅目:蚧科)蜡泌物的超微形态、红外光谱和卵囊蜡质的化学成分特征。
2.
The ultra-morphology and chemical composition of the waxes secreted by the scale insect, Didesmococcus koreanus Borchs, was studied with scanning electron microscope and infrared spectra techniques.
采用扫描电镜和红外光谱技术研究了朝鲜毛球蚧Didesmococcuskoreanus在不同发育阶段蜡泌物的超微形态和化学成分。
3.
The ultra-morphology and chemical composition of the waxes secreted by the scale insect, Eulecanium gigantea, in different development stages were studied with scanning electron microscope and infrared spectra techniques.
采用扫描电镜和红外光谱技术研究了瘤坚大球蚧Eulecaniumgigantea在不同发育阶段蜡泌物的超微形态和化学成分。
6) Micromorphology
[,maikrəumɔ:'fɔlədʒi]
微形态学
1.
Study on micromorphology of pollen and seed coat in Tatracentron sinense Oliv;
水青树的花粉和种皮的微形态学研究
2.
Studies on the Anatomy and Seed Micromorphology of 15 Species in Impatiens L.;
十五种凤仙花属(Impatiens L.)植物的解剖学及种子的微形态学研究
3.
Studies on Fungistasi, ITS Sequences and Micromorphology of Euphorbia in Anhui Province;
安徽产大戟属植物抑菌活性、ITS序列及微形态学的研究
补充资料:神经元形态轴突郎氏结的超微结构
李瑞端绘
[图]
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条