Novel phosphate-solubilising bacteria isolated from sewage sludge and the mechanism of phosphate solubilisation

A great amount of insoluble phosphate in agricultural soils is not available for crops. Three strains of bacteria (Bacillus megaterium YLYP1, Pseudomonas prosekii YLYP6 and Pseudomonas sp. YLYP29) isolated from activated sludge and soil could efficiently solubilise tricalcium phosphate. In particula...

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Bibliographic Details
Published in:The Science of the total environment 2019-03, Vol.658, p.474-484
Main Authors: Yu, Le-Yi, Huang, He-Biao, Wang, Xiao-Hong, Li, Sha, Feng, Nai-Xian, Zhao, Hai-Ming, Huang, Xian-Pei, Li, Yan-Wen, Li, Hui, Cai, Quan-Ying, Mo, Ce-Hui
Format: Article
Language:English
Subjects:
Bio-fertiliser
Metabolites
Organic acids
Phosphate solubilisation mechanism
Phosphate-solubilising bacteria (PSB)
Pseudomonas prosekii
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Summary:A great amount of insoluble phosphate in agricultural soils is not available for crops. Three strains of bacteria (Bacillus megaterium YLYP1, Pseudomonas prosekii YLYP6 and Pseudomonas sp. YLYP29) isolated from activated sludge and soil could efficiently solubilise tricalcium phosphate. In particular, the novel strain P. prosekii YLYP6 produced 716 mg L−1 of available phosphate within 6 days under the optimal culture conditions [20 °C, pH 7.9, inoculum size of 0.5% (v:v)] determined by response surface methodology. P. prosekii YLYP6 demonstrated efficient phosphate solubilisation in response to broad variations in pH (5–9) and temperature (15–35 °C). The phosphate solubilisation curves of the strains fit well with a first-order kinetic model (R2 > 0.939), with a half-life of 1.51–5.94 d for 5.0 g L−1 calcium phosphate. Continuous culture experiments combined with scanning electron microscopic observations and gas chromatography–mass spectrometry analysis revealed that 2,3-dimethylfumaric acid, gluconic and N-butyl-tert-butylamine that were produced by P. prosekii YLYP6 were responsible for phosphate solubilisation by supplying H+ ions and organic anions. Efficient phosphate solubilisation in actual soil by P. prosekii YLYP6 demonstrated the strong application potential to reduce the use of chemical P fertilisers and the resulting agricultural nonpoint pollution. [Display omitted] •Three efficient phosphate-solubilising bacteria (PSB) were isolated and identified.•A novel PSB solubilised phosphate under low-temperature and alkaline conditions.•Metabolites responsible for phosphate solubilisation were revealed.•The novel PSB efficiently solubilised phosphate in actual soil.
ISSN:0048-9697
1879-1026
DOI:10.1016/j.scitotenv.2018.12.166