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- Polystichum sinensen. 中华耳蕨
- Polystichum acanthophyllum (Fries) Bedd. 刺叶耳蕨
- Polystichum acanthophyllum Bedd. 刺叶耳蕨
- Appreciate the Chinese Orchid - Cym. sinense). 墨兰的欣赏与鉴别。
- Cymbidium sinense (Andr.) Willd. 墨兰
- Fig. 1 Polystichum subfibriatum W.M.Chu et Z.R.He 1. 图1拟流苏耳蕨1.;根状茎及叶柄下部;
- Objective: To investigate the fatty acids in Polystichum tripteron. 摘要目的:研究三叉耳蕨叶的脂肪酸成分。
- Wan F, Huang D. / Both AFGS and natural Ganoderma sinense (NGS) have... 中译:一种免疫调节蛋白,灵芝-8,透过调整黏附分子促进细胞组成间的互动
- The spore ornamentations support that Cyrtomium be included in Polystichum. 5.;本研究支持将贯众蕨属并入耳蕨属。
- A taxonomical study of Sect.Scleropolystichum Daigobo (Polystichum) from China. 中国刺叶耳蕨组(耳蕨属)的研究.
- Studies on Polystichum moupinense (Franch.) Bedd. and its relatives. 穆坪耳蕨及其近缘种的研究.
- Objective: To investigate the fatty acids in Polystichum neolobatum Nakal. 摘要目的:用索氏提取法提取革叶耳蕨叶的脂肪酸成分。
- Isolation and structural identification of insecticidal activities from Ligusticum sinense Oliv. 藁本中杀虫活性成分的分离与鉴定。
- Result There is no significantly difference in the contents of Ferulic Acid and Polysaccharide between Angelica sinensis and lotiform Angelica sinens. 结果当归与莲花归多糖和阿魏酸含量差异无统计学意义。
- This indicates that stress reaction of Ligustrum sinense is a kind of dynamic process with different degree damaged. 说明卵叶小蜡应激反应的过程是一种随着受害程度的不同而不断变化的动态过程。
- The growth and development of Cymbidium sinense in vitro were observed under scanning electron microscopy. 摘要用石蜡切片和扫描电镜对墨兰试管苗植株的生长发育进行了研究。
- Difficult to define whether they are M1 or M2 , or they really belong to H. sinense. 很难确定哪个是m1,哪个是m2,它们也不一定是中华黄昏兽这个种。
- TIAN Hua-mei,ZHAO Yun-long,LI Jing-jing,et al.Biochemical changes during embryonic development in the crab Eriocheir sinens[J].Chinese J of Zoology,2002,37(5):18-21. [2]田华梅;赵云龙;李晶晶;等.;中华绒螯蟹胚胎发育过程中主要生化成分的变化[J]
- Cytological observations on some species of Dryopteris and Polystichum from China. 一些中国产鳞毛蕨属和耳蕨属植物的细胞学观察.
- Title: ULTRASTRUCTURE OF CHLOROPLASTS AND PHOTOSYN-THESIS IN DIFFERENT SECTIONS OF YOUNG AND MATURE LEAVES OF CYMBIDIUM SINENSE (ANDR.) WILLD. 关键词:墨兰;叶绿体超微结构;叶绿素含量;光合放氧速率
