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  1. Screening of culture conditions for pathogens of potato dry rot
  2. Applications of xerophytophysiology in plant production—LED blue light as a stimulus improved the tomato crop
  3. Applications of xerophytophysiology in plant production – The potato crop improved by partial root zone drying of early season but not whole season
  4. wake up the sleeping genes and produce delicious fruits without chemicalls
  5. Effect of 1-methylcyclopropene on expression of genes for ethylene biosynthesis enzymes and ethylene receptors in post-harvest broccoli
  6. BIOLOGICAL PEST AND DISEASE CONTROL IN GREENHOUSE VEGETABLE PRODUCTION
  7. Productivity and soil response to plastic film mulching durations for spring wheat on entisols in the semiarid Loess Plateau of China
  8. Influence of EM Bokashi on Nodulation, Physiological Characters and Yield of Peanut in Nature Farming Fields
  9. Nature Farming
  10. Nature Farming with Vesicular-Arbuscular Mycorrhizae in Bangladesh
  11. Preface
  12. Phytophthora Resistance of Organically-Fertilized Tomato Plants
  13. Evaluating Soil Organic Matter Changes Induced by Reclamation
  14. Soil-Root Interface Water Potential in Sweet Corn as Affected by Organic Fertilizer and a Microbial Inoculant
  15. Effects of a Microbial Inoculant and Organic Fertilizers on the Growth, Photosynthesis and Yield of Sweet Corn
  16. Effects of a Microbial Inoculant, Organic Fertilizer and Chemical Fertilizer on Water Stress Resistance of Sweet Corn
  17. Effect of a Microbial Inoculant on Stomatal Response of Maize Leaves
  18. Modeling Photosynthesis Decline of Excised Leaves of Sweet Corn Plants Grown with Organic and Chemical Fertilization
  19. Properties and Applications of an Organic Fertilizer Inoculated with Effective Microorganisms
  20. Effect of Microbial Inoculation on Soil Microorganisms and Earthworm Communities
  21. Mycorrhizal Associations and Their Manipulation for Long-Term Agricultural Stability and Productivity
  22. Nodulation Status and Nitrogenase Activity of Some Legume Tree Species in Bangladesh
  23. Effects of Organic Farming Practices on Photosynthesis, Transpiration and Water Relations, and Their Contributions to Fruit Yield and the Incidence of Leaf-Scorch in Pear Trees
  24. Effects of Organic Fertilizers and a Microbial Inoculant on Leaf Photosynthesis and Fruit Yield and Quality of Tomato Plants
  25. Effects of Organic and Chemical Fertilizers and Arbuscular Mycorrhizal Inoculation on Growth and Quality of Cucumber and Lettuce
  26. Nature Farming Practices for Apple Production in Japan
  27. Maintenance and Hysteresis of Soil-Root Interface Water Potential of Cherry-Plum in Response to Soil Dehydration and Rehydration.
  28. Greenhouse Tomato Photosynthetic Acclimation to Water Deficit and Response to Salt Accumulation in the Substrate
  29. Effects of Fertigation Scheduling on Water Relations of Tomato Plants Grown in Peat Bags and Rockwool Slabs.
  30. Wheat Cultivar Differences in Photosynthetic Response to Low Soil Water Potentials. I. Maintenance of photosynthesis and leaf water potential.
  31. Wheat Cultivar Differences in Photosynthetic Response to Low Soil Water Potentials. II. Maintenance of leaf turgor and relative water content.
  32. Effects of Supplemental Lighting and Fruit Thinning on Fruit Yield and Source-Sink Relations of Greenhouse Tomato Plants
  33. Effects of fertigation management on growth and photosynthesis of tomato plants grown in peat, rockwool and NFT
  34. Effects of Epibrassinolide and Abscisic Acid on Sorghum Plants Growing under Soil Water Deficit. I. Effects on growth and survival.
  35. Effects of Epibrassinolide and Abscisic Acid on Sorghum Plants Growing under Soil Water Deficit. II. Physiological basis for drought resistance induced by exogenous epibrassinoide and abscisic acid.
  36. Effects of water deficit on photosynthesis in wheat plants. VI. Capacitance and resistance of transpiratory water flux in different plant parts.
  37. Interactive Effects of Soil Water Regime with Above-Ground Conditions on Photosynthesis in Wheat Plants. II. Combined effects of soil water deficit with low air humidity.
  38. Effects of water deficit on photosynthesis in wheat plants. V. Difference among plant parts in water relations.
  39. Effects of water deficit on photosynthesis in wheat plants. III. Effect on non-stomatal mediated photosynthesis and RuBP carboxylase content in different plant parts.
  40. Effects of water deficit on photosynthesis in wheat plants. IV. Response of photosynthesis to exogenous abscisic acid in different plant parts.
  41. Interactive effects of soil water regime with above-ground conditions on photosynthesis in wheat plants. I. Photosynthesis as affected by soil water regime and the above-ground conditions changing with time of day.
  42. 水欠乏がコムギの光合成に及ぼす影響 I 稔実期における土壌水分欠乏処理が植物体各部分の光合成と蒸散に及ぼす影響
  43. Effects of water deficit on photosynthesis in wheat plants. II. The physiological basis for the difference in photosynthetic sensitivity to water stress among plant parts.