Relative Importance of Protons and Solution Calcium Concentration in Phosphate Rock Dissolution by Organic Acids
スポンサーリンク
概要
- 論文の詳細を見る
A series of experiments was conducted to quantify the relative contribution of protons and other mechanisms to the dissolution of phosphate rocks (PRs) from six countries in solutions of low-molecular-weight-aliphatie organic acids. The amounts of P and Ca released after 8 d of incubation at 28℃ were determined in all the experiments. In the first experiment the solubility of the PRs (<500 μm particle size) in 100 M (25 mL g^<-1> PR) oxalic, tartaric, and citric acids was compared with that in three mineral acids and four chelating compounds. There were no differences in the amount of P released by the mineral acids, but the organic acids released more P than could be accounted for by protonation. The chelating compounds were the least effective. In the second experiment, 1 g each of Sri Lanka and Togo PRs was incubated with 2.5 mmol of the organic acids using three acid concentration (mM): acid volume ratios (250:10, 100:25, and 25:100). The amount of P dissolved from the PRs and the amount of acid remaining in the flitrate were about the same for all three treatments. A mixture of the organic acids and the respective Na-salts was prepared at six different acid:salt ratios in the third experiment. Total acid concentration in all the solutions was 100 mM. Higher proportion of the Na-salt in the mixture decreased PR dissolution, while the amount of the acid remaining in the flitrate increased. The Ca concentration in the flitrate showed an opposite trend. The results indicated that PR dissolution by the organic acids was initially dependent on protonation, which accounted for only 13-38% of the amount of P dissolved. Most of the amount of P dissolved could therefore be attributed to other mechanisms. Removal of dissolved Ca from the solution appears to be the major factor controlling the subsequent dissolution of the PRs. The ability of tartaric and oxalic acids to dissolve effectively the PRs was attributed to the formation of an insoluble calcium compound which was precipitated from the solution. For the use of organic acids as a potential amendment for improving the P availability of PRs, the Ca, binding power of the organic acids should also be considered.
- 社団法人日本土壌肥料学会の論文
著者
-
Kouno K
Hiroshima Univ. Higashi‐hiroshima Jpn
-
Kouno K
Faculty Of Applied Biological Science Hiroshima University Research Institute Kagome Co. Ltd.
-
Kouno Kenji
Faculty Of Applied Biological Science Hiroshima University
-
Ando Tadao
Faculty Of Applied Biological Science Hiroshima University
-
Ando Tadao
Faculty Of Agriculture Hokkaido University
-
Kouno Kenji
Faculty Of Applied Biological Science Hiroshima Unirersity
-
Nagaoka Toshinori
Faculty of Applied Biological Science, Hiroshima University Research Institute, Kagome Co., Ltd.
-
Sagoe Charles
Faculty of Applied Biological Science, Hiroshima University
-
Sagoe C
Faculty Of Applied Biological Science Hiroshima University
-
Nagaoka T
Faculty Of Applied Biological Science Hiroshima University Research Institute Kagome Co. Ltd.
-
Nagaoka Toshinori
Faculty Of Applied Biological Science Hiroshima University
関連論文
- Alpha-Amylase and Protease Activities and Water Relations in Germinating Sorghum (Sorghum bicolor Moench) Seeds as Affected by Animal-Waste Composts
- SULFUR-SUPPLYING CAPACITY OF SOILS AND CRITICA SULFUR VALUES OF FORAGE CROPS
- Effect of Inorganic Cations in Animal-Waste Composts on Water and Cation Absorption of Germinating Sorghum (Sorghum bicolor L. Moench) Seeds
- 5 A PRELIMINARY STUDY ON THE POTENTIAL INHIBITORY EFFECTS OF ANIMAL-WASTE COMPOSTS ON SEED GERMINATION AND INITIAL GROWTH OF FORAGE CROPS.
- Generation of Chlorinated Aromatic Acids during Sludge-Composting and Their Fate in Soils
- Residual Effects of Organic Acid-Treated Phosphate Rocks on Some Soil Properties and Phosphate Availability
- Relative Importance of Protons and Solution Calcium Concentration in Phosphate Rock Dissolution by Organic Acids
- Correlation among Microbial Biomass S, Soil Properties, and Other Biomass Nutrients
- Structural Confirmation of 15-Norlubiminol and 15-Norepilubiminol, Isolated from Solanum aethiopicum, by Chemical Conversion from Lubimin and Epilubimin, and their Antifungal Activity(Organic Chemistry)
- Effect of CO_2 Enrichment on Biomass Production, Photosynthesis, and Sink Activity in Soybean cv. Bragg and Its Supernodulating Mutant nts 1007
- Phenolic Acids as Potential Seed Germination-Inhibitors in Animal-Waste Composts
- Identification and Biological Activity of Germination-Inhibiting Long-Chain Fatty Acids in Animal-Waste Composts
- INTERSPECIFIC DIFFERENCES IN SODIUM ACCUMULATION AND REQUIREMENT AMONG FORAGE CROPS
- Effects of organic-acid treatment of phosphate rocks on the phosphorus availability to, Italian ryegrass
- INTERACTION BETWEEN MANGANESE AND ZINC IN GROWTH OF RICE PLANTS