Isolation and Characterization of Phosphate Solubilizing Bacteria from Paddy Field Soils in Japan

Isolation and Characterization of Phosphate Solubilizing Bacteria from Paddy Field Soils in Japan

Phosphorus (P) is abundant in soil and is essential for plant growth and development; however, it is easily rendered insoluble in complexes of different types of phosphates, which may lead to P deficiency. Therefore, increases in the amount of P released from phosphate minerals using microbial inocu...

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Veröffentlicht in:Microbes and Environments 2022, Vol.37(2), pp.ME21085
Hauptverfasser: Damo, Jean Louise Cocson, Ramirez, Maria Daniela Artigas, Agake, Shin-ichiro, Pedro, Mannix, Brown, Marilyn, Sekimoto, Hitoshi, Yokoyama, Tadashi, Sugihara, Soh, Okazaki, Shin, Ohkama-Ohtsu, Naoko
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Agricultural Inoculants - genetics
Burkholderia - genetics
Japan
Oryza
phosphate solubilizing bacteria
Phosphates
Regular Paper
rice
RNA, Ribosomal, 16S - genetics
Soil - chemistry
Soil Microbiology
soil phosphorus fractionation
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container_issue 2
container_start_page ME21085
container_title Microbes and Environments
container_volume 37
creator Damo, Jean Louise Cocson
Ramirez, Maria Daniela Artigas
Agake, Shin-ichiro
Pedro, Mannix
Brown, Marilyn
Sekimoto, Hitoshi
Yokoyama, Tadashi
Sugihara, Soh
Okazaki, Shin
Ohkama-Ohtsu, Naoko
description Phosphorus (P) is abundant in soil and is essential for plant growth and development; however, it is easily rendered insoluble in complexes of different types of phosphates, which may lead to P deficiency. Therefore, increases in the amount of P released from phosphate minerals using microbial inoculants is an important aspect of agriculture. The present study used inorganic phosphate solubilizing bacteria (iPSB) in paddy field soils to develop microbial inoculants. Soils planted with rice were collected from different regions of Japan. Soil P was sequentially fractionated using the Hedley method. iPSB were isolated using selective media supplemented with tricalcium phosphate (Ca-P), aluminum phosphate (Al-P), or iron phosphate (Fe-P). Representative isolates were selected based on the P solubilization index and soil sampling site. Identification was performed using 16S rRNA and rpoB gene sequencing. Effectiveness was screened based on rice cultivar Koshihikari growth supplemented with Ca-P, Al-P, or Fe-P as the sole P source. Despite the relatively homogenous soil pH of paddy field sources, three sets of iPSB were isolated, suggesting the influence of fertilizer management and soil types. Most isolates were categorized as β-Proteobacteria (43%). To the best of our knowledge, this is the first study to describe the genera Pleomorphomonas, Rhodanobacter, and Trinickia as iPSB. Acidovorax sp. JC5, Pseudomonas sp. JC11, Burkholderia sp. JA6 and JA10, Sphingomonas sp. JA11, Mycolicibacterium sp. JF5, and Variovorax sp. JF6 promoted plant growth in rice supplemented with an insoluble P source. The iPSBs obtained may be developed as microbial inoculants for various soil types with different P fixation capacities.
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however, it is easily rendered insoluble in complexes of different types of phosphates, which may lead to P deficiency. Therefore, increases in the amount of P released from phosphate minerals using microbial inoculants is an important aspect of agriculture. The present study used inorganic phosphate solubilizing bacteria (iPSB) in paddy field soils to develop microbial inoculants. Soils planted with rice were collected from different regions of Japan. Soil P was sequentially fractionated using the Hedley method. iPSB were isolated using selective media supplemented with tricalcium phosphate (Ca-P), aluminum phosphate (Al-P), or iron phosphate (Fe-P). Representative isolates were selected based on the P solubilization index and soil sampling site. Identification was performed using 16S rRNA and rpoB gene sequencing. Effectiveness was screened based on rice cultivar Koshihikari growth supplemented with Ca-P, Al-P, or Fe-P as the sole P source. Despite the relatively homogenous soil pH of paddy field sources, three sets of iPSB were isolated, suggesting the influence of fertilizer management and soil types. Most isolates were categorized as β-Proteobacteria (43%). To the best of our knowledge, this is the first study to describe the genera Pleomorphomonas, Rhodanobacter, and Trinickia as iPSB. Acidovorax sp. JC5, Pseudomonas sp. JC11, Burkholderia sp. JA6 and JA10, Sphingomonas sp. JA11, Mycolicibacterium sp. JF5, and Variovorax sp. JF6 promoted plant growth in rice supplemented with an insoluble P source. 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subjects Agricultural Inoculants - genetics
Burkholderia - genetics
Japan
Oryza
phosphate solubilizing bacteria
Phosphates
Regular Paper
rice
RNA, Ribosomal, 16S - genetics
Soil - chemistry
Soil Microbiology
soil phosphorus fractionation
title Isolation and Characterization of Phosphate Solubilizing Bacteria from Paddy Field Soils in Japan
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