All Stories

  1. Detection of metabolites in rhizosphere of soybean under different status of soil potassium
  2. Potassium applications reduced cesium uptake and altered strontium translocation in soybean plants
  3. Visualising spatio-temporal distributions of assimilated carbon translocation and release in root systems of leguminous plants
  4. Reduction in the Radiocesium in Meats of the Sika Deer and Wild Boar by Cooking
  5. Comparisons of effective half-lives of radiocesium in Japanese tea plants after two nuclear accidents, Chernobyl and Fukushima
  6. Variations in radioactive cesium accumulation in wheat germplasm from fields affected by the 2011 Fukushima nuclear power plant accident
  7. Factors controlling dissolved 137Cs concentrations in east Japanese Rivers
  8. Research on ways to improve crop productivity through the regulation of rhizosphere environments
  9. Rapid Quantification of Radioactive Strontium-90 in Fresh Foods via Online Solid-Phase Extraction–Inductively Coupled Plasma–Dynamic Reaction Cell-Mass Spectrometry and Its Comparative Evaluation with Conventional Radiometry
  10. Phytoavailability of 137Cs and stable Cs in soils from different parent materials in Fukushima, Japan
  11. A Reduced Phosphorus Application Rate Using a Mycorrhizal Plant as the Preceding Crop Maintains Soybean Seeds’ Nutritional Quality
  12. A statistical model for estimating the radiocesium transfer factor from soil to brown rice using the soil exchangeable potassium content
  13. P and N deficiency change the relative abundance and function of rhizosphere microorganisms during cluster root development of white lupin (Lupinus albus L.)
  14. Towards the partial resumption of agriculture with buckwheat cultivation in fields physically decontaminated of radioactive cesium after the nuclear power plant accident in 2011: a case study in Yamakiya District, Fukushima
  15. Potassium behavior and clay mineral composition in the soil with low effectiveness of potassium application
  16. Cesium Uptake by Rice Roots Largely Depends Upon a Single Gene, HAK1, Which Encodes a Potassium Transporter
  17. Cs uptake by rice is regulated by one K transporter
  18. Plants prioritize phytochelatin synthesis during cadmium exposure even under reduced sulfate uptake caused by the disruption of SULTR1;2
  19. LjMOT1, a high-affinity molybdate transporter fromLotus japonicus, is essential for molybdate uptake, but not for the delivery to nodules
  20. Effects of Cadmium Treatment on the Uptake and Translocation of Sulfate inArabidopsis thaliana
  21. The Ionomic Study of Vegetable Crops
  22. The dynamic state of the ionome in roots, nodules, and shoots of soybean under different nitrogen status and at different growth stages
  23. Evaluation of the cause of unexplained radiocaesium contamination of brown rice in Fukushima in 2013 using autoradiography and gamma-ray spectrometry
  24. Application of ionomics to plant and soil in fields under long-term fertilizer trials
  25. Influence of the nonexchangeable potassium of mica on radiocesium uptake by paddy rice
  26. Interactions between Cs, Sr, and Other Nutrients and Trace Element Accumulation in Amaranthus Shoot in Response to Variety Effect
  27. Bacterial community shifts associated with high abundance of Rhizobium spp. in potato roots under macronutrient-deficient conditions
  28. Analyses and countermeasures for decreasing radioactive cesium in buckwheat in areas affected by the nuclear accident in 2011
  29. Metabolite profiling of soybean root exudates under phosphorus deficiency
  30. Compare radioactive Cs transfer factor among Amaranthus species
  31. Verification of radiocesium decontamination from farmlands by plants in Fukushima
  32. Aroma Characteristic and Volatile Profiling of Carrot Varieties and Quantitative Role of Terpenoid Compounds for Carrot Sensory Attributes
  33. Effect of Phosphorus Levels on the Protein Profiles of Secreted Protein and Root Surface Protein of Rice
  34. Mitigation of peroxidative stress for barley exposed to cadmium in the presence of water-extractable organic matter from compost-like materials
  35. Arsenic alters uptake and distribution of sulphur inPteris vittata
  36. Metagenomic Analysis of the Rhizosphere Soil Microbial Community
  37. Metabolite Profiling of Mizuna (Brassica rapa L. var. Nipponsinica) To Evaluate the Effects of Organic Matter Amendments
  38. Estimating Phosphorus Availability in Andosols Using Soil Biomass Phosphorus as an Indicator
  39. First study to investigate the microbial genome shift related to phytate utilization by plant.
  40. Identification of Important Volatiles in Fresh and Processing Carrot Varieties: Using Kuroda and Flakee Types
  41. METABOLITE PROFILING OF SHOOT EXTRACTS, ROOT EXTRACTS, AND ROOT EXUDATES OF RICE PLANT UNDER PHOSPHORUS DEFICIENCY
  42. Metabolite profiling of Komatsuna (Brassica rapaL.) field-grown under different soil organic amendment and fertilization regimes
  43. Mitigation of Peroxidative Stress for a Barley Exposed to Cadmium in the Presence of Water-Extractable Organic Matter from Compost-Like Materials
  44. Ionome of Soybean Seed Affected by Previous Cropping with Mycorrhizal Plant and Manure Application
  45. DIFFERENCES IN ACQUISITION OF ORGANIC NITROGEN IN SOILS BETWEEN BOK CHOY AND TOMATO
  46. Effect of exogenous phosphatase and phytase activities on organic phosphate mobilization in soils with different phosphate adsorption capacities
  47. A rapid and simple PCR method for identifying isolates of the genus Azospirillum within populations of rhizosphere bacteria
  48. The Genotype of the Calcium/Calmodulin-Dependent Protein Kinase Gene (CCaMK) Determines Bacterial Community Diversity in Rice Roots under Paddy and Upland Field Conditions
  49. Ionomic response ofLotus japonicusto different root-zone temperatures
  50. Root secreting proteins
  51. Autoregulation of Nodulation Interferes with Impacts of Nitrogen Fertilization Levels on the Leaf-Associated Bacterial Community in Soybeans
  52. Pesticide and chemicals playing important roles in clean agriculture
  53. Influence of arsenic stress on synthesis and localization of low-molecular-weight thiols in Pteris vittata
  54. Changes in saccharide, amino acid and S-methylmethionine content during malting of barley grown with different nitrogen and sulfur status
  55. Impact of plant genotype and nitrogen level on rice growth response to inoculation withAzospirillumsp. strain B510 under paddy field conditions
  56. Metabolite profiling ofRaphanus sativusL. to evaluate the effects of manure amendment
  57. Metabolomics Approach in Soybean
  58. Soil microbial biomass phosphorus as an indicator of phosphorus availability in a Gleyic Andosol
  59. Promotion of root growth by the application of inosine
  60. Why not Echinochloa crus-galli but E. oryzicola can survive in paddy field?
  61. Gas chromatography–mass spectrometry associated global analysis of rice root exudates under aseptical conditions
  62. Metabolite profiling of spinach (Spinacia oleraceaL.) leaves by altering the ratio of NH+4/NO−3in the culture solution
  63. Element interconnections inLotus japonicus: A systematic study of the effects of element additions on different natural variants
  64. Overexpression of theLASAP2gene for secretory acid phosphatase in white lupin improves the phosphorus uptake and growth of tobacco plants
  65. Mechanisms of Aluminum Tolerance in Phosphoenolpyruvate Carboxylase Transgenic Rice
  66. Analysis of Diversity of Diazotrophic Bacteria Associated with the Rhizosphere of a Tropical Arbor, Melastoma malabathricum L.
  67. Rapid characterization of plant mutants with an altered ion‐profile: a case study using Lotus japonicus
  68. Sequencing and Analysis of Approximately 40 000 Soybean cDNA Clones from a Full-Length-Enriched cDNA Library
  69. Analysis of bacterial communities on alkaline phosphatase genes in soil supplied with organic matter
  70. Differences in the Metabolite Profiles of Spinach (Spinacia oleracea L.) Leaf in Different Concentrations of Nitrate in the Culture Solution
  71. Interacting effects of high temperature and drought stresses in wheat genotypes under semiarid tropics- an appraisal
  72. Effects of nitrogen application on malt modification and dimethyl sulfide precursor production in two Japanese barley cultivars
  73. Analysis of bacterial communities in soil by PCR–DGGE targeting protease genes
  74. Metabolite profiling and assessment of metabolome compartmentation of soybean leaves using non-aqueous fractionation and GC-MS analysis
  75. Metabolic alterations proposed by proteome in rice roots grown under low P and high Al concentration under low pH
  76. Wheat improvement under water deficit conditions in semi arid tropics and subtropics
  77. Growth promotion of rice by inoculation of acid-tolerant, N2-fixing bacteria isolated from acid sulfate paddy soil in South Kalimantan, Indonesia
  78. Screening of phosphate-solubilizing microorganisms in rhizosphere and rhizoplane of adverse soil-adapting plants in Southern Thailand
  79. Effects of elevated atmospheric CO2 concentration on the nutrient uptake characteristics of Japanese larch (Larix kaempferi)
  80. Developmental changes of plant affecting primary photosynthate distribution in rice leaves
  81. Effect of panicle removal on cytokinin level in the xylem and nitrogen uptake activity of rice
  82. Developmental regulation of photosynthate distribution in leaves of rice
  83. Transcriptomic analysis indicates putative metabolic changes caused by manipulation of phosphorus availability in rice leaves
  84. Harnessing wheat genotype × Azotobacter strain interactions for sustainable wheat production in semi arid tropics
  85. Role of Phosphoenolpyruvate Carboxylase in the Adaptation of a Tropical Forage Grass to Low-Phosphorus Acid Soils
  86. Difference in Carbon Distribution of Initial Photoassimilates between Soybean and Rice as Revealed by 20 s Pulse-300 s Chase Experiments
  87. The Function of a Maize-Derived Phosphoenolpyruvate Carboxylase (PEPC) in Phosphorus-Deficient Transgenic Rice
  88. Characterization of Root Systems with Respect to Morphological Traits and Nitrogen-Absorbing Ability in the New Plant Type of Tropical Rice Lines
  89. Plant growth promotion abilities and microscale bacterial dynamics in the rhizosphere of Lupin analysed by phytate utilization ability
  90. Endogenous hormones and expression of senescence-related genes in different senescent types of maize
  91. Evaluation of phosphorus starvation inducible genes relating to efficient phosphorus utilization in rice
  92. Root Exudation, Phosphorus Acquisition, and Microbial Diversity in the Rhizosphere of White Lupine as Affected by Phosphorus Supply and Atmospheric Carbon Dioxide Concentration
  93. Allocation of14C-carbon in two species of larch seedlings infected with ectomycorrhizal fungi
  94. Low Phosphorus Tolerance Mechanisms: Phosphorus Recycling and Photosynthate Partitioning in the Tropical Forage Grass, Brachiaria Hybrid Cultivar Mulato Compared with Rice
  95. Possibility of rhizosphere regulation using acid phosphatase and organic acid for recycling phosphorus in sewage sludge
  96. Response of determinate- and semi-determinate-types of common bean to elevated CO2concentration in the atmosphere
  97. Root-shoot interaction as a limiting factor of biomass productivity in new tropical rice lines
  98. Micro-spatial Distribution of Bacteria in the Rhizosphere
  99. Production of Lupin Acid Phosphatase in Transgenic Rice for Use as a Phytate-hydrolyzing Enzyme in Animal Feed
  100. Function of Node Unit in Photosynthate Distribution to Root in Higher Plants
  101. Starch Properties of the Sago Palm (Metroxylon sagu Rottb.) in Different Soils
  102. Expression of the OsPI1 gene, cloned from rice roots using cDNA microarray, rapidly responds to phosphorus status
  103. Breeding Wheat for Zinc Efficiency Improvement in Semi-arid Climate-A Review
  104. Secreted acid phosphatase is expressed in cluster roots of lupin in response to phosphorus deficiency
  105. Comparison of Whole System of Carbon and Nitrogen Accumulation Between Two Maize Hybrids Differing in Leaf Senescence
  106. Secreted acid phosphatase is expressed in cluster roots of lupin in response to phosphorus deficiency
  107. Cloning and characterization of four phosphate transporter cDNAs in tobacco
  108. EFFECT OF POTASSIUM NUTRITION ON CURRENT PHOTOSYNTHESIZED CARBON DISTRIBUTION TO CARBON AND NITROGEN COMPOUNDS AMONG RICE, SOYBEAN, AND SUNFLOWER
  109. Characteristics of phosphoenolpyruvate phosphatase purified from Allium cepa
  110. Differences in nitrogen economy of temperate trees
  111. Characterization of secretory acid phosphatase gene of lupin roots and the transformation of the gene into tobacco plants
  112. Cloning and characterization of two secreted acid phosphatases from rice calli
  113. Utilization of acid phosphatase for recycling-use of phosphorus
  114. Secreting portion of acid phosphatase in roots of Lupin (Lupinus albusL.) and a key signal for the secretion from the roots
  115. Comparison of aluminum tolerance and phosphate absorption between rape (Brassica napusL.) and Tomato (Lycopersicum esculentumMill.) in relation to organic acid exudation
  116. Structure of a cDNA for an acid phosphatase from phosphate-deficient lupin (Lupinus albusL.) Roots
  117. Nutritional characteristics of sago palm and oil palm in tropical peat soil
  118. Difference in system of current photosynthesized carbon distribution to carbon and nitrogen compounds between rice and soybean
  119. Relationships between root activity and N, P, K, Ca, and Mg contents in roots of field crops
  120. Distribution of exudates of lupin roots in the rhizosphere under phosphorus deficient conditions
  121. No biochemical evidence for separating respiration into growth and maintenance
  122. A root-shoot interaction hypothesis for high productivity of field crops
  123. Photosynthesized carbon distribution in relation to nitrogen and phosphorus status of rice leaves
  124. Different mechanisms of carbon-nitrogen interaction in cereal and legume crops
  125. Problems in the methods of estimation of growth and maintenance respiration
  126. Quantity or quality of root, which is important for the plant growth.
  127. Effects of Ammonium and Nitrate Assimilation on the Growth and Tuber Swelling of Potato Plants
  128. 15N-Allocation of15NH4-N and15NO3-N to Nitrogenous Compounds at the Vegetative Growth Stage of Potato Plants
  129. Comparison of growth efficiency between rice and soybean at the vegetative growth stage
  130. Accumulation of carbon and nitrogen compounds in sweet potato plants grown under deficiency of N, P, or K nutrients
  131. Accumulation of carbon and nitrogen compounds in sweet potato plants grown under different nitrogen application rates
  132. Comparison of production efficiency of harvesting organs among field crops
  133. Effect of nitrogen source and light conditions on14C-behavior of14C-[U]-sucrose,14C-[U]-asparagine, and14C-[U]-serine introduced to leaf of rice and sorghum plants
  134. Function of root and production of crop. 1.
  135. Root function and crop production.
  136. l4C-behavior ofl4C-[U]-sucrose,14C-[U]-asparagine, and14C-[U]-serine introduced to the flag leaf of rice and sorghum plants during ripening
  137. Comparison of root growth and nitrogen absorbing ability between Gramineae and Leguminosae during the vegetative stage
  138. 14C-allocation of14C-compounds introduced to a leaf to carbon and nitrogen components in rice and soybean during ripening
  139. Parameters determining yield of field crops in relation to the amount of nitrogen absorbed
  140. Productivity of high-yielding crops
  141. Comparison of production efficiency among field crops related to nitrogen nutrition and application
  142. Effect of nitrogen, phosphorus, or potassium deficiency on the accumulation of ribulose-1,5-bisphosphate carboxylase/oxygenase and chlorophyll in several field crops
  143. Effect of nitrogen application on the accumulation of ribulose-1,5-bisphosphate carboxylase/oxygenase and chlorophyll in several field crops
  144. Productivity of high-yielding- crops
  145. Comparison of production efficiency of the harvesting organs among field crops
  146. Comparison of production efficiency among field crops related to nitrogen nutrition and application
  147. Carbon-nitrogen interaction in field crop production
  148. Comparison of reconstruction of photosynthesized14C compounds incorporated into shoot between rice and soybean
  149. Productivity of high-yielding crops
  150. Comparison of reconstruction of carbon and nitrogen compounds during germination between gramineae and leguminosae
  151. Effect of nitrogen application on reconstruction of nitrogen compounds during the maturation stage in several field crops
  152. Productivity of high-yielding crops
  153. Redistribution of carbon and nitrogen compounds from the shoot to the harvesting organs during maturation in field crops