Seed Physiology Research

种子生理研究

Price: $53.00


Qty. 
+-

Author: Zheng Guanghua
Language: some paper in Chinese and some paper in English
ISBN/ISSN: 7030121694
Published on: 2004-01
Hardcover

Seed Physiology Research



1. Preface
2. Foreword
3. General Review
(1) Seed Physiology Reseach-Look back the pat and look forward to the future
(2) An introduction to Seed Physiology
(3) Seed Physiology Research at the BEIJING BOTANICAL GARDEN (In English)
(4) A Survey of Seed Physiological Researches in Conservation Biology of Endangered Plant (In Chinese with English Abstract)
(5) Seeds: Its Special Important Status and Specific Action in Plant Germplasm Conservation (In Chinese with English Abstract)
(6) The Seed Specimen Laboratory: An Imformation Resources Bank of Seed Diversity (In Chinese)
(7) The conception of Terms about Plant Germplasm Resources (In Chinese)
(8) A Proposal Concerning the Collection, Conservation and Research Work on Germplasm Resources of Wild Plant in China (In Chinese)
4. Control of Seed Vitality
(1) An Introduction to Seed Longevity (In Chinese)
(2) The Loss in Dehydrogenase Activity of Poplar Seeds During Storage and Its Reactivation with Pyridine Nucleotides(In English)
(3) Studies on Mechanism of Aging and Deterioration of Poplar Seeds (In Chinese)
(4) Studies on the Control of Seed Viability: Physiological Characteristics of Some Short-Lived Seeds in Storage (In Chinese)
(5) Studies on the Control of Viability of Citrus Seeds (In Chinese with English Abstract)
(6) Studies on the Storage of Acorns by MH and 2, 4, 5-T (In Chinese with English Abstract)
(7) An Investigation on Technique of Cold Storage of Eucommia Seeds (In Chinese)
5. Ultradry Seed Storage
(1) An Introduction to Ultradry Seed Storage (In Chinese)
(2) Ultradry Seed Storage Cuts Cost of Gene Bank (In English)
(3) Ultradried Oil Seed Moisture Content Independent of Storage Temperature (In English)
(4) Ultradry Seed Storage: Improved Strategy and Technology for Germplasm Conservation (In English)
(5) Loss of the Viability and Accumulation of the Chromosome Aberration in Ultradried Elm Seeds During Accelerated Aging (In Chinese with English Abstract)
(6) Storage of Peanut Seeds with Low Moisture Content for 11 Years in Ambient Temperature (In English)
(7) Effects of Ultradry Storage on Fluidity of Plasma Membrane of Seed (In English)
(8) Studies on Membrane Function and Sugar Components of Ultradried Seeds (In English)
(9) The Content Change of ATP and Soluble Sugar of Ultradry Ulmus pumila Seed During Germination (In Chinese with English Abstract)
(10) Effects of Ultradrying on Ageing, Cell Ultrastructure and Vigour of Chinese Cabbage Seed (In English)
(11) A Physiological and Biochemical Study on Ultradried Seeds of Some Brassica Species (In English)
(12) Increased Storability of Halaxylon ammodendron Seeds in ultradry Storage (In English)
(13) Studies on Ultradry Storage of Eucommia Seeds (In Chinese)
(14) Ultradrying Improves the Storability of Seeds of Ulmus Pumila (In Chinese)
(15) A study on Ultradrying Sorghum Seeds (In Chinese)
(16) Study on the Status of Free Radical and Water During Ultradrying in Safflower Seed (In English)
(17) The Physiological and Biochemical Basis of Increased Storability in Ultradried Seeds (In Chinese)
(18) Effect of Ultradrying on Vigor of Oil Seed and Its Relation to Lips Peroxidation (In Chinese with English Abstract)
(19) The Relationship Between Seed Oil Content and Effect of Ultradrying (In Chinese with English Abstract)
(20) Some Physiological and Biochemical Characteristics of Ultradried Zea mays Seeds during Germination (In Chinese with English Abstract)
(21) Water Thermodynamic Analysis on Seed Desiccation Tolerance and Its Ultradry Storage Effects (In Chinese with English abstract)
(22) Effect of Seed Moisture Content on Seed Storage Longevity (In Chinese with English Abstract)
(23) A Study on Optimum Moisture Content for Seed Storage (In Chinese with English Abstract)
(24) The Differences in the Seeds Sensitivity to Ultradry Betweeen Two Soybean Cultivars, Heihe V and Fiskeby V (In Chinese with English Abstract)
(25) Effective Methods of Ultradrying Seeds and Their Relation to Vigor and Storability of Some Vegetable and Oil Seeds (In English)
(26) Effect of Equilibrium Pre-Moisten on the Prevention to the Imbibitional Damage of Ultradried Peanut Seeds (In Chinese with English Abstract)
(27) Effect of Osmotic-pretreatment on the Dry Resistance of Soybean Seeds during Ultradrying (In Chinese)
6. Seed Dormancy and Germination
(1) An Introduction to Seed Dormancy and Germination (In Chinese)
(2) Methods and mechanisms of Breaking Dormancy in seeds (In Chinese)
(3) Methods to improve the percentage of seed germination of Zoysia japonica (In Chinese)
(4) Studies on the Seed Dormancy Germination of Some Horticultural Plants (In Chinese with English summary)
(5) A Physiological Study on the Germination of GUAR [Cyamopsis tetragonoloba (L.) Taub] Seeds (In Chinese with English Summary)
(6) Relationship Between Seed Coat of Korean Pine and Its Dormancy (In Chinese with English Abstract)
(7) Studies on Seed Dormancy of Pinus koraiensis (In Chinese with English Abstract)
(8) Methods to Promote the Seed Germination of Panax ginseng (In Chinese and English)
(9) Experiments on Course of Delaying Germination and Promoting Sprout of Grape Seeds (In Chinese)
(10) The Characteristics in Seed Germination and Dormancy of Four Wild Species of Tree Peonies and Their Bearing on Endangerment (In English with Chinese Abstract)
(11) Characteristics of Germination and Storage of Paeonia suffruticosa Seeds (In Chinese)
(12) Studies on Dormancy Causes and Germination Characteristics of Eucommia Seeds (In Chinese)
(13) A Preliminary Study on the Characteristics and Promotion of Grant Waterlily Seeds (In Chinese with English Abstract)
(14) Influence of Light, Temperature and Salinity on the Seed Germination of Haloxylon ammodendron (In Chinese with English Abstract)
7. Imbibitional Chilling Injury in Seeds and Osmoconditioning
(1) An Introduction to Imbibitional Chilling Injury in Seeds and Osmoconditioning (In Chinese)
(2) Studies on the Imbibitional Chilling Injury in Seeds and Osmoconditioning (In Chinese with English Abstract)
(3) Physiological, Biochemical and Ultrastructural Aspects of Imbibitional Chilling Injury in Seeds: A Review of Work Carried out at the BEIJING BOTANICAL GARDEN (In English)
(4) Effective Methods to Prevent Imbibitional Chilling Injury in Seeds (In English)
(5) Studies on the Imbibitional Chilling Injury and the Reparation of Damaged Membrane Systems in Soybean Seeds (In English)
(6) Imbibitional Chilling Injury in Guar Seeds and Its Preventive Methods (In Chinese)
(7) Three Types of Reaction to Chilling Injury in Germinating Seeds of Leguminous Plants (In English)
(8) Ultrastructure Localization of ATPase Activity in Radicle Cell and Its Change During Imbibitional Chilling (In English)
(9) Effect of Low Temperature Imbibition on Mitochondrium Respiration and Phosphorylation of PEG Primed Soybean Seed (In Chinese with English Abstract)
(10) A Physiological Study on the Chilling Injury in Germinating Soybean Seeds (In Chinese with English Abstract)
(11) Some Physiological Changes Associated with Chilling Injury in Germinating Legume Seeds and Preventive Effect of Chemical Treatments ( In English)
(12) Priming Effect of PEG on Seed Germination (In Chinese)
(13) Preliminary Studies on Osmotic Preconditioning with Some Vegetable Seeds (In Chinese with English abstract)
(14) Studies on the Effect of Osmoconditioning on Invigoration of Soybean Seed Vigor and Its Mechanism (In Chinese with English abstract)
(15) Metabolic Events on Physiological and Biochemical Reparation of Membrane Systems in Imbibitional Chilling Injury of Soybean Seeds (In English)
(16) Physiological Effects of Hydration-Dehydration Treatment on Soybean Seeds to Enhance Its Resistance to Imbibitional Chilling Injury (In Chinese with English abstract)
(17) Changes of the Activites of Sever5al Enzymes and Soluble Protein Content in PEG Osmoregulated Soybean Cotyledon (In Chinese with English abstract)
(18) Effect of PEG Priming on Protein Synthesis of Cold-Sensitive Soybean Seed (In English)
(19) Effect of Equilibrum of Vapour Pressure on Resistance of Soybean Seeds to Imbibitional Chilling Injury (In Chinese with English Abstract)
(20) Effect o fIodination on resistance of Soybean Seeds to Imbibitional Chilling Injury (In Chinese and English)
(21) Physiological Effects of Priming with SPP on Some Vegetable Seeds (In Chinese with English abstract)
(22) Effect of PEG Priming on Soybean Production by Field Test (In Chinese)
(23) Effect of Hydration-Dehydration on Seed Vigor and Stress Tolerance in Soybean (In Chinese with English abstract)
(24) Experiment on Invigoration of Some Vegetable Seeds with SPP Priming (In Chinese)
(25) Improvement in Vigor of Hybrid Rice Seeds and its Resistance to imbibitional Chilling Injury (In Chinese)
(26) Studies on Differences of Priming Effect and Cold Testing Mthods for Seeds between Some Soybean c.v. (In Chinese)
(27) Improving the Germination Uniformity of ASP Aragus Seeds by PEG Priming (In Chinese with English abstract)
8. Seed Vigor and Seed Viability
(1) An Introduction to Seed Vigor (In Chinese)
(2) Methods of Vigor Testing (In Chinese)
(3) Experimental Results of Rapid Method to Test Seed Viability (In Chinese)
(4) Studies on Viability Test of Citrus Seeds (In Chinese)
(5) Experiments with Fluorimetry as a Method for Seed Viability Test (In Chinese)
(6) The Ratio of K+ / Na+ as a Sensitive and Accurate Index of Seed Vigor (In English)
(7) Experiments on Seed Vigour of Some Vegetable Crops (In Chinese with English abstract)
(8) Studies on Vigor Testing for Chilling Damaged Legume Seeds (In Chinese)
(9) Studies on Seed Vigor of Some Cultivars of Chinese Cabbage (In Chinese)
(10) Investigation of the Methods for Measuring Seed Vigor. I: Quantitative Test of TTC
(11) Investigation of the Methods for Measuring Seed Vigor. II: Physiological analysis of Germination
(12) Investigation of the Methods for Measuring Seed Vigor. III: Accelerated aging
(13) Investigation of the Methods for Measuring Seed Vigor. V: Seeding Vigor Classification
9. Appendix: Bibliography of Seed Physiology



Sorry we ran out!

Fill out this form and we will let you know when it comes back in stock

Copyright © 2020 China Scientific Books