1.
Response Mechanisms of Cyclocarya Paliurus Seedlings for Different Provenances under Osmotic Stress;
不同种源青钱柳幼苗对渗透胁迫适应机理的研究
2.
Primary Studies on Seedling Growth and Contents of Chemical Compositions in Cyclocarya Paliurus Leaves of Different Provenances
不同种源青钱柳苗年生长及叶内含物含量研究
3.
Studies on Seed Morphologic Characteristics, Seedling Characters and Chemical Compositions of Leaf in Cyclocarya Paliurus;
青钱柳种子形态特征、苗期性状及叶片化学成分的研究
4.
Effect of Salt on Growth of Willow Clones Seedling;
盐胁迫对柳树无性系幼苗生长影响的研究
5.
Influence of Soil Potential on the Water Status, Photosynthesis and Growth of Mandshuran Ash Seedings;
土壤水势对水曲柳幼苗水分、光合和生长的影响
6.
Effects of Leaf Nitrogen Content on Leaf Photosynthesis of Manchurian Ash Seedlings;
叶片氮素含量对水曲柳幼苗光合作用的影响
7.
Content of C. Paliurus polysaccharide is 2.19% at May and August.
青钱柳叶在5~8月的多糖含量为2.19%。
8.
Phenotypic diversity of natural Cyclocarya paliurus populations seed traits
青钱柳天然群体种子性状表型多样性
9.
Geographic variation of flavonoid compounds in Cyclocarya paliurus leaves
青钱柳叶中黄酮类化合物的地理变异
10.
Research Progress on Hypoglycemic Effective Substances in Cyclocarya paliurus (Batal) IIjinsk
青钱柳降血糖药效物质基础研究进展
11.
Review of "Cyclocarya scutellata Guo"
“圆盘青钱柳Cyclocarya scutellata Guo”论评(英文)
12.
Study on the Suitable Conditions in Calli of Cyclocarya paliurus Iljinsk
青钱柳愈伤组织培养条件研究的优化
13.
Studies on Seed Dormancy Mechanism and Methods to Break Dormancy in Cyclocarya Paliurus;
青钱柳种子休眠机理及其解除休眠方法的研究
14.
Studies on Methods of Breaking Dormancy and Germination Physiology of Cyclocarya Paliurus (Batal.)Iljinskaja;
青钱柳种子解除休眠及萌发生理的研究
15.
Study on the Community Structure and Silviculture Technique of the Endangered Cyclocarya Paliurua;
濒危树种青钱柳群落结构与栽培技术研究
16.
A Preliminary Study on Seed Dormancy Characteristics and Germination Physiology of Cyclocarya Paliurus (Batal.) Iljinskaja;
青钱柳种子休眠原因及萌发生理的初步研究
17.
Preliminary Studies on Tissue Culture and Secondary Metabolites of Cyclocarya Paliuru
青钱柳组织培养及次生代谢物调控的初步研究
18.
Effects of Polysaccharides from Cyclocarya paliurus (Batal.) Iljinskjk on Growth of MGC_803 Cells
青钱柳多糖对人胃癌MGC_803细胞生长的影响