Influence of Soil Chemical Properties on Adsorption and Oxidation of Phenolic Acids in Soil Suspension
スポンサーリンク
概要
- 論文の詳細を見る
Relationships between abiotic oxidation and adsorption of phenolic acids added to soils and soil chemical properties were investigated by using 32 soil samples and ferulic, vanillic, and p-hydroxybenzoic acids. Soil properties studied were as follows : (as adsorption factors) contents of acid oxalate extractable Al (Alo), Fe (Feo), dithionite-citrate-bicarbonate (DCB) extractable Fe (Fed), total carbon and clay, and (as oxidation factors) level of soil oxidative activity (Cr oxidation) determined by the amount of Cr(VI) converted from Cr(III) added to soils. Soil samples were divided into 3 types based on chemical properties : Andosols A (A horizon of Andosols), Andosols B (B horizon of Andosols and light-colored Andosols), and non-Andosols. The recovery of all phenolic acids (RPA) was negatively correlated with the total carbon and Feo contents in Andosols A and B, respectively, which suggested adsorption onto soil organic matter in Andosols A and onto Feo in Andosols B. It was considered that almost no oxidation of phenolic acids occurred in Andosols A, because a very small amount of Cr(VI) was obtained. The recovery of ferulic acid (RFA) and vanillic acid (RVA), however, was negatively correlated with Cr oxidation in non-Andosols, suggesting that these phenolic acids were oxidized, while almost all of the p-hydroxybenzoic acid was recovered. These results were also supported by the comparison between RFA and recovery of dissolved organic carbon (RTOC). RFA was very similar to RTOC in Andosols A and B, which indicated that adsorption occurred, whereas RFA was lower than RTOC in the non-Andosols that showed a high level of Cr oxidation, indicating that oxidation took place. Manganese dissolution which occurred when phenolic acids were added to soils was also examined.
- 社団法人日本土壌肥料学会の論文
著者
-
MAKINO Tomoyuki
National Institute for Agro-Environmental Sciences
-
SAKURAI Yasuhiro
National Institute for Agro-Environmental Sciences
-
TAKAHASHI Yoshiaki
National Institute of Materials and Chemical Research (NIMC)
-
Sakurai Y
National Institute For Agro-environmental Sciences
-
Takahashi Y
Faculty Of Agriculture Saga University
-
Nanzyo Masami
Faculty Of Agriculture Tohoku University
-
Takahashi Yoshiaki
National Institute Of Agricultural Sciences
-
Makino Tomoyuki
National Inst. Agro‐environmental Sci. Tsukuba Jpn
関連論文
- Heavy metal pollution of soil and risk alleviation methods based on soil chemistry (International symposium: Challenges to soil degradation towards sustaining life and environment)
- Heavy Metal Pollution of Soil and Risk Alleviation Methods Based on Soil Chemistry
- Dual Electron Injection from Charge-Transfer Excited States of TiO_2-Anchored Ru(II)-4,4'-Dicaqrboxy-2,2'-biquinoline Complex
- Chemical Characterization of Conducive and Suppressive Soils for Potato Scab in Hokkaido, Japan
- Dilute Acid-Soluble Phosphorus in Fresh Air-Borne Tephras and Fixation with an Increase in Active Aluminum and Iron
- Effect of Deep Placement of Controlled Release Nitrogen Fertilizer (Coated Urea) on Growth, Yield, and Nitrogen Fixation of Soybean Plants
- Reduction of Phosphatic and Potash Fertilizer in Sweet Corn Production by Pre-transplanting Application of Potassium Phosphate to Plug Seedlings(Agronomy)
- Uptake of Carbon and Nitrogen through Roots of Rice and Corn Plants, Grown in Soils Treated with ^13C and ^15N Dual-Labeled Cattle Manure Compost
- Effects of sterilization on the chemical forms of heavy metals in soils(Soil Chemistry and Soil Mineralogy)
- Effect of Placement of Coated Urea Fertilizer on Root Growth and Rubidium Uptake Activity in Soybean Plant
- Cadmium Contents of Soil and Rice Grains after Bench-scale Washing with Biodegradable Chelating Agents
- Influence of Soil-Drying under Field Conditions on Exchangeable Manganese, Cobalt, and Copper Contents
- ADSORPTION OF HEAVY METAL CATIONS IN MONTMORILLONITE
- SIZE FRACTIONATION OF CLAY AND SOIL MICROPARTICLES BY CONTINUOUS-FLOW ULTRACENTRIFUGATION
- Evaluation of N_2 Fixation and N Absorption Activity by Relative Ureide Method in Field-Grown Soybean Plants with Deep Placement of Coated Urea
- Influence of Air-Drying on Adsorption and Oxidation of Phenolic Acids in Andosols and Non-Andosols
- Influence of Soil Chemical Properties on Adsorption and Oxidation of Phenolic Acids in Soil Suspension
- Stoichiometry for the Decrease in the Amount of Phosphate-Induced Negative Charges of Clay Fractions of Andisols
- Effects of Organic Reducing Agents on the P Sorption Products Formed on Noncrystalline Hydrous Fe Oxide
- Increase in Cation Adsorption Induced by Surface Complexation of Sulfate on Andisols and Prediction by "Four-Plane Model"
- Heavy metal contamination of agricultural soil and countermeasures in Japan
- Cadmium Contents of Soil and Rice Grains after Bench-scale Washing with Biodegradable Chelating Agents(Symposium 3.5.1 Heavy Metal Contaminated Soils,International Symposium: Soil Degradation Control, Remediation, and Reclamation, Tokyo Met
- Effects of Nitrogen Fertilizer, pH, and Electrical Conductivity on the Solubility of Cadmium in Soil Solution(International Symposium: Challenges to Soil Degradation Towards Sustaining Life and Environment, Tokyo Metropolitan University Sym
- Heavy Metal Pollution of Soil and Risk Alleviation Methods Based on Soil Chemistry(International Symposium: Challenges to Soil Degradation Towards Sustaining Life and Environment, Tokyo Metropolitan University Symposium Series No.2, 2009)
- Characteristics of P supply from polyolefin-coated P fertilizers in soil
- Alleviation of Subsoil Acidity in Nonallophanic Andosols by Phosphogypsum Application in Topsoil
- Extractability of manganese and iron oxides in typical Japanese soils by 0.5molL^ hydroxylamine hydrochloride (pH 1.5)(Soil chemistry and soil mineralogy)
- Improvement of the NH_2OH-HCl-HOAc method for extracting manganese and iron oxides in Japanese Andisols and other soil types in Japan(Soil chemistry and soil mineralogy)