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NTIS 바로가기韓國土壤肥料學會誌 = Korean journal of soil science & fertilizer, v.42 no.1, 2009년, pp.29 - 36
나정행 (전남대학교 응용생물공학부) , 최진호 (농촌진흥청 국립원예특작과학원) , 김영덕 (전남대학교 응용생물공학부) , 고현선 (전남대학교 응용생물공학부) , 박노동 (전남대학교 응용생물공학부) , 김길용 (전남대학교 응용생물공학부)
Fourteen bacterial strains were isolated from crop rhizosphere and identified as phosphate solubilizing bacteria (PSB) by 16S rRNA analysis. Only 3 strains exhibited a strong ability to solubilize insoluble phosphate in agar medium containing a hydroxyapatite. The rates of P solubilization by isolat...
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Azcon, R., G. Azcon, D. Aghilar, and J.H. Barea. 1978. Effect of plant hormones present in bacterial cultures on the formation and response to vamendomycorrhiza. New Phytol. 80:359-364
Banik, S., and B.K. Dey. 1982. Available phosphate content of and alluvial soil as influenced by inoculation of some isolated phosphate solubilizing bacteria. Plant Soil. 69:353-364
Barea, J.M., E. Navarro and E. Montoya. 1976. Production of plant growth regulators by rhizosphere phosphate-solubilizing bacteria. J. Appl. Bact. 40:129-134
Benizri, E., A. Courtade, C. Picard and A. Guckert. 1998. Role of maize exudates in the production of auxins by Pseudomonas Fluorescens M.3.1. Soil Biol. Biochem. 30:1481-1484
Brown, M.E. 1972. Plant growth substances produced by microorganisms of soil and rhizosphere. J. Appl. Bact. 35:443-451
Cheryl, L.P., and R.G. Bernard. 2002. Role of Pseudomonas putida indoleacetic acid in development of the host plant root system. Appl. Environ. Microbiol. 68:3795-3801
Datta, M., S. Banik and R.K. Gupta. 1982. Studies on the efficacy of a phytohormone producing phosphate solubilizing Bacillus firmus in augmenting paddy yield in acid soils of Nagaland. Plant and Soil 69:365-373
Freitas, J.R., M.R. Banerjee and J.J. Germida. 1997. Phosphatesolubilizing rhizobacteria enhance the growth and yield but not phosphorus uptake of canola (Brassica nupus L.). Biol. Fertil. Soils. 24:358-364
Gaur, A.C., and K.P. Ostwal. 1972. Influence of phosphate dissolving Bacilli on yield and phosphate uptake of wheat crop. Indian J. Exp. Biol. 10:393-394
Goldstein, A.H. 1986. Bacterial mineral phosphate solubilization:Historical perspective and future prospects. Am. J. Altern. Agric. 1:57-65
Goldstein, A.H., K. Braverman and N. Osorio. 1999. Evidence for mutualism between a plant growing in a phosphate-limited desert environment and a mineral phosphate solubilizing (MPS) rhizobacterium. FEMS Microbiol. Ecol. 30:295-300
Halder, A.K., A.K. Misra and P.K. Chakrabarty. 1991. Solubilization of inorganic phosphates by Bradyrhizobium. Indian J. Exp. Biol. 29:28-31
Halder, A.K., and P.K. Chakrabartty. 1993. Solubilization of inorganic phosphate by Rhizobium. Folia Microbiol. 38:325-330
Hilda, R., and F. Reynaldo. 1999. Phosphate solubilizing bacteria and their role in plant growth promotion. Biotechnol. Adv.17:319-339
Hu, H.Q., J.Z. He, X.Y. Li, and F. Liu. 2001. Effect of several organic acids on phosphate adsorption by variable charge soils of central China. Environ. Int. 26:353-358
Hussain, A., and V. Vancura. 1970. Formation of biologically active substances by rhizosphere bactieria and their effect on plant growth. Folia Microbiol. 15:468-478
Hwangbo, H., D.R. Park, W.Y. Kim, Y.S. Rim, H.K. Park, H.T. Kim, J. SunSuh and Y.K. Kim. 2003. 2-Ketogluconic acid production and phosphate solubilization by Enterobacter intermedium. Curr. Microbiol. 47:87-92.
Illmer, P., and F. Schimmer. 1992. Solubilization of inorganic phosphates by microorganisms isolated from forest soil. Soil Biol. Biochem. 24:389-395
Illmer, P., A. Barbato, and F. Schinner. 1995. Solubilization of hardly-soluble AlPO4 with P-solubilizing microorganisms. Soil Biol. Biochem. 27:265-270
Jones, D.L., and P.R. Darrah. 1994. Role of root derived organic acids in the mobilization of nutrients from the rhizosphere. Plant and Soil 166:247-257
Kim, K.Y., D. Jordan and H.B. Krishnan. 1997a. Rahnella aquatilis, a bacterium isolated from soybean rhizosphere can solubilize hydroxyapatite. FEMS Microbiol. Lett. 153:273-277
Kim, K.Y., G.A. McDonald and D. Jordan. 1997b. Solubilization of hydroxyapatite by Enterobacter agglomerans and cloned Escherichia coil in culture medium. Biol. Fertil. Soils. 24:347-352
Kloepper, J.W., K. Lifshitz and M.N. Schroth. 1988. Pseudomonas inoculants to benefit plant production. ISI Atlas Sci. Anim. Plant. 60-64
Lindow, S.E., C. Desurmont, R. Elkins, G. McGourty, E. Clark and M.T. Brandl. 1998. Occurrence of indole-3-acetic acid producing bacteria on pear trees and their association with fruit russet. Phytopathology 88:1149-1157
Liu, S.T., L.Y. Lee, C.Y. Tai, C.H. Horng, Y.S. Chang, J.H. Wolfram, R. Rogers and A.H. Goldstein. 1992. Cloning of and Erwinia herbicola gene necessary for gluconic acid production and enhanced mineral phosphate solubilization in Escherichia coli HB101. J. Bacterial. 174:5814-5819
Moghimi, A., and M.E. Tate. 1978. Does 2-ketogluconate chelate calcium in the pH range 2.4 to 6.4. Soil Biol. Biochem. 10:289-292
Satter, M.A., and A.C. Gaur. 1987. Production of auxins and gibberellins by phosphate dissolving microorganisms. Zentralbl. Microbiol. 142:393-395
Shekhar, N.C., S. Bhadauria, P. Kumar, H. Lal, R. Mondal and D. Verma. 2000. Stress induced phosphate solubilization in bacteria isolated from alkaline soils. FEMS Microbil. Lett. 182:291-296
Umali-Garcia, M., D.H. Hubbell., M.H. Gaskins., F.B. Dazzo. 1980. Association of Azospirillum with grass roots. Appl. Environ. Microbiol. 39:219-226
Vandana, K., and G. Reeta. 2003. Solubilization of inorganic phosphate and plant growth promotion by cold tolerant mutants of Pseudomonas fluorescens. Microbiol. Res. 158:163-168
Olsen, S.R., and L.E. Sommers. 1982. Phosphorus. p. 403-430. In A.L. Page et al. (ed.), Method of soil analysis, Chemical and microbial properties. American Society of Agronomy, Madison, WI, U.S.A.
Yadav, K.S., and K.R. Dadarwal. 1997. Phosphate solubilization and mobilization through soil microorganisms. p. 293-308. In K.R. Dadarwal, (ed.), Biotechnological approaches in soil microorganisms for sustainable crop production. Scientific Publishers, Jodhpur, India
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