スポンサーリンク
Faculty Of Agriculture Kyoto University | 論文
- Increase of Scopolamine Production by High Density Culture of Duboisia myoporoides Roots
- Tropane Alkaloid Production in Root Cultures of Duboisia myoporoides Obtained by Repeated Selection
- Synthesis of Conductive LaNiO_3 Thin Films by Chemical Solution Deposition : Surfaces, Interfaces, and Films
- Synthesis and Properties of Highly Oriented (Sr, Ba)(Nb,Ta)_2O_6 Thin Films by Chemical Solution Deposition
- Dielectric and Pyroelectries Properties of Alkoxy-Derived KTa_Nb_O_3 Thin Film
- Chemical Solution Processing and Characterization of La Doped Tungsten Bronze K_(Pb_Ba_)_Nb_2O_6 Thin Films
- Synthesis of Highly Oriented Tungsten Bronze K(Pb_Ba_)_2Nb_5O_ Thin Films by the Chimical Solution Deposition Method
- Preparation and Properties of K(Sr_Ba_)_2Nb_5O_ Thin Films by Chemical Solution Deposition Method
- Complsites of wood and trans-1,4-isoprene rubber I : Mechanical physical, and flow behavior
- Influence of Age, Sex, Strain and Feeding on the Plasma Erythropoietin Level in Rats
- Different amounts of DNA in each mitochondrion in rice root
- Isolation of mutants with aberrant mitochondrial morphology from Arabidopsis thaliana
- ミトコンドリアに存在するプラスミド様DNAの栽培イネにおける分布と量的変異〔英文〕
- Preliminary Report on PIXE Analysis for Trace Elements of Octopus dofleini Statoliths
- Occurrence of an Unusual Accessory Growth Center on the Statolith of the Japanese Common Squid Todarodes pacificus (Cephalopoda:Ommastrephidae)
- Microchemistry of the Statoliths of the Japanese Common Squid Todarodes pacificus with Special Reference to its Relation to the Vertical Temperature Profiles of Squid Habitat
- Arsenic Deposition in the Statolith of Post-Spawning Japanese Common Squid, So-Called "Kawa-ika"
- MECHANICAL AND CHEMICAL CONSTITUTENTS OF WATER-STABLE AGGREGATES OF PADDY SOIL WITH RELATIONSHIP TO THE AGGREGATE SIZE
- STUDIES ON THE POTASSIUM-ADSORPTION CAUSED BY SOIL-REDUCTION PART I. : The Occurrence of the Differential Potassium-Adsorption Under Submergence.
- A METHOD OF CAPABILITY EVALUATION FOR UPLAND SOILS : V.Prediction of Potential Erodibility