Compost amendment enhances population and composition of phosphate solubilizing bacteria and improves phosphorus availability in granitic regosols(Soil biology)
スポンサーリンク
概要
- 論文の詳細を見る
This study was conducted to investigate the relationship between available phosphorus (P) in granitic regosols and the population and composition of phosphate solubilizing bacteria (PSB) enhanced by compost amendments. Enrichment of soil with rock phosphate (RP) or no enrichment was combined with poultry manure (PM), cattle manure (CM), sewage sludge (SS), or P-adjusted sawdust (PSD) compost amendments at a rate equivalent to 5mg P kg^<-1> soil, or without compost amendment. Soil was enriched with RP at 0.25 or 0.5g kg^<-1> soil in the pot experiment and 0.5g kg^<-1> soil in the incubation experiment. The amended soils were used to grow African millet (Eleusine coracana Gaertn, cv. Yukijirushi) for 30 days in Wagner's pots (200cm^2). Plant P uptake in RP-enriched soil at 0.25g R P kg^<-1> soil was 2- 3-fold greater with compost addition than without compost. The results of the incubation experiment showed that compost amendments significantly enhanced microbial biomass P and population density of PSB, which showed significant positive correlation with the available P in soil. The dominant isolates of PSB in all the compost treatments were closest to Burkholderia fungorum. The treatment-specific isolates of PSB with the type of compost amendment were closely related to Burkholderia phytofirmans in PM treatment, Burkholderia caledonica or Arthrobacter ramosus in SS treatment and Burkholderia phenazinium in PSD treatment. The enhanced available P in RP-enriched treatments could be related to specific isolates of PSB in each compost treatment.
著者
-
Kouno Kenji
Graduate School Of Biosphere Science Hiroshima University
-
Nagaoka Toshinori
広島大院生物圏科学研究科
-
NAGAOKA Toshinori
Graduate School of Biosphere Science, Hiroshima University
-
Wickramatilake Achala
Graduate School Of Biosphere Science Hiroshima University
-
Wasaki Jun
Hiroshima University Graduate School Of Biosphere Science
-
Wasaki Jun
Graduate School Of Biosphere Science Hiroshima University
-
Kouno Kenji
Hiroshima University Graduate School Of Biosphere Science
-
Nagaoka Toshinori
Graduate School Of Biosphere Science Hiroshima University
-
MUNEHIRO Ryosuke
Graduate School of Biosphere Science, Hiroshima University
-
Munehiro Ryosuke
Graduate School Of Biosphere Science Hiroshima University
関連論文
- Element interconnections in Lotus japonicus : A systematic study of the effects of element additions on different natural variants(Plant Nutrition)
- The Function of a Maize-Derived Phosphoenolpyruvate Carboxylase (PEPC) in Phosphorus-Deficient Transgenic Rice (Plant Nutrition)
- Low Phosphorus Tolerance Mechanisms: Phosphorus Recycling and Photosynthate Partitioning in the Tropical Forage Grass, Brachiaria Hybrid cultivar Mulato Compared with Rice
- Possibility of Rhizosphere Regulation Using Acid Phosphatase and Organic Acid for Recycling Phosphorus in Sewage Sludge(Plant Nutrition)
- Breeding Wheat for Zinc Efficiency Improvement in Semi-arid Climate-A Review
- Molecular Cloning and Root Specific Expression of Secretory Acid Phosphatase from Phosphate Deficient Lupin (Lupinus albus L.)
- Secreting Portion of Acid Phosphatase in Roots of Lupin (Lupinus albus L.) and a Key Signal for the Secretion from the Roots
- 5-1 Soil microbial diversity and utilization of rock phosphate by African millet (Eleusine coracana) following different manure amendment to andosol
- Compost amendment enhances the biological properties of Andosols and improves phosphorus utilization from added rock phosphate(Soil Fertility)
- Nitrogen uptake and transpiration by plant effects on nitrate leaching from granitic regosol
- Relationships between microbial biomass nitrogen, nitrate leaching and nitrogen uptake by corn in a compost and chemical fertilizer-amended regosol(Soil Biology)
- Evaluation of Cellulolytic and Hemicellulolytic Abilities of Fungi Isolated from Coffee Residue and Sawdust Composts
- 6-7 Screening and characterization of cellulolytic and hemicellulolytic fungi from coffee residues compost and sawdust compost
- Recent Progress in Plant Nutrition Research : Cross-Talk Between Nutrients, Plant Physiology and Soil Microorganisms
- Evaluation of Cellulolytic and Hemicellulolytic Abilities of Fungi Isolated from Coffee Residue and Sawdust Composts
- Compost amendment enhances population and composition of phosphate solubilizing bacteria and improves phosphorus availability in granitic regosols(Soil biology)
- 6-2 Evaluation of cellulolytic and hemicellulolytic abilities of bacteria isolated from coffee residue and sawdust composts
- Effect of soil biological properties enhanced by compost amendments on phosphorus utilization of applied rock phosphate in Andosols(The annal Meeting of the Society in 2009)
- Phytate Degradation by Fungi and Bacteria that Inhabit Sawdust and Coffee Residue Composts
- Isolation and Characterization of Cellulose-decomposing Bacteria Inhabiting Sawdust and Coffee Residue Composts
- Effect of exogenous phosphatase and phytase activities on organic phosphate mobilization in soils with different phosphate adsorption capacities(Plant Nutrition)
- 10-11 Comparative Physiological Analysis of Salt Tolerance in the Local Rice Cultivars of Dominican Republic
- Comparative physiological analysis of salinity tolerance in rice(Plant nutrition)
- P6-2-10 Effect of intercropped white lupin on growth and P uptake of maize under different levels and types of phosphorus application.
- Effect of exogenous phosphatase and phytase activities on organic phosphate mobilization in soils with different phosphate adsorption capacities