RISS 검색 - 국내학술지논문 상세보기

다국어 초록 (Multilingual Abstract)

Burkholderia anthina R-4183, Burkholderia diffusa R-15930 and Burkholderia stabilis LMG 14294 isolated from green house soils (Gongju-Gun area, South Korea) were characterized and their phosphate solubilizing ability was assessed. Under in vitro culture conditions, all three species were proved to be effective in solubilizing phosphates in varying degrees. Strain Burkholderia anthina exhibited the highest phosphate solubilization in NBRIP medium (665 ㎍㎖?¹) followed by Burkholderia diffusa (630 ㎍㎖?¹) and Burkholderia stabilis (578 ㎍㎖?¹). However, solubilization of FePO4 and AlPO4 was found to be poor in all the strains. Acidification by means of gluconic and oxalic acids accumulation in the culture medium could be the possible mechanism responsible for phosphate solubilization. Glucose at the rate of 3% was found be the best carbon source for Burkholderia anthina while other two Burkholderia species showed maximum phosphate solubilization at 2% of glucose. In the case of nitrogen sources, ammonium and nitrate were equally effective in solubilizing phosphates by Burkholderia species. Despite a slight decrease in phosphate solubilization observed at increasing temperature, all three Burkholderia species could withstand a temperature of 30-35℃, pH at the range of 7-9 and the presence of NaCl (up to 2.5%) without much compromising the phosphate solubilization. As shown with potted mung bean seedlings, all the three isolates could enhance soil fertility and plant growth indicating their great potential to be used as bio-inoculants.

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목차 (Table of Contents)

Introduction
Materials and Methods
Results and Discussion
References

Introduction
Materials and Methods
Results and Discussion
References

참고문헌 (Reference)

1 Lin, T.F., "The protons of gluconic acid are the major factor responsible for the dissolution of Tricalcium phosphate by Burkholderia cepacia CC-A174" 97 : 957-960, 2006

2 Nautiyal, C.S., "Stress induced phosphate solubilization in bacteria isolated from alkaline soils" 182 : 291-296, 2000

3 Fasim, F., "Solubilization of zinc salts by a bacterium isolated from air environment of a tannery" 213 : 1-6, 2002

4 Malboobi M.A., "Solubilization of organic and inorganic phosphates by three highly efficient soil bacterial isolates" 25 : 1471-1477, 2009

5 Kang, S.C., "Solubilization of insoluble inorganic phosphates by a soil-inhabiting fungus Fomitopsis sp. PS 102" 82 : 439-442, 2002

6 Mundra, S., "Solubilization of insoluble inorganic phosphates by a novel temperature, pH and salt tolerant yeast, Rhodotorula sp. PS4, isolated from seabuckthorn rhizosphere, growing in cold desert of Ladakh, India" 27 : 2387-2396, 2011

7 Song, O.R., "Solubilization of insoluble inorganic phosphate by Burkholderia cepacia DA 23 isolated from cultivated soil" 39 : 151-156, 2008

8 Halder, A.K., "Solubilization of inorganic phosphates by Bradirhizobium" 29 : 28-31, 1991

9 Barroso, C.B., "Solubilization CaHPO4 and AlPO4 by Aspergillus niger in culture media with different carbon and nitrogen sources" 37 : 434-443, 2006

10 Vassilev, N., "Simultaneous P-solublilizing and bio-control activity of the microorganisms: Potential and future trends" 71 : n137-n144, 2006