First International Meeting on Microbial Phosphate Solubilization (eBook, PDF)
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First International Meeting on Microbial Phosphate Solubilization (eBook, PDF)
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Produktdetails
- Verlag: Springer Netherland
- Erscheinungstermin: 27. Mai 2007
- Englisch
- ISBN-13: 9781402057656
- Artikelnr.: 37353562
From the contents
Taxonomy of rhizobia: An Overview: A. Willems; Genetics of phosphate solubilization and its potential application for improving plant growth-promoting bacteria: H. Rodríguez, R. Fraga, T. Gonzalez and Y. Bashan; Biodiversity of populations of phosphate solubilizing rhizobia that nodulates chickpea in different Spanish soils: R. Rivas, A. Peix, P. F. Mateos, M.E. Trujillo, E. Martínez-Molina and E. Velásquez; Phosphate solubilization activity of rhizobia native to Iranian soils: H. A. Alikhani, N. Saleh-Rastin and H. Antoun; Differential effects of coinoculations with Pseudomonas jessenii PS06 (a phosphate-solubilizing bacterium) and Mesorhizobium ciceri C-2/2 strains on the growth and seed yield of chickpea under greenhouse and field conditions: A. Valverde, A. Burgos, T. Fiscella, R. Rivas, E. Velázquez, C. Rodríguez-Barrueco, E. Cervantes, M. Chamber and J. M. Igual; Effect of Tilemsi phosphate rock solubilizing microorganisms on phosphorus-uptake and yield of field grown wheat in Mali: B. A. Hamadoun and H. Antoun; Screening for PGPR to improve growth of Cistus ladanifer seedlings for reforestation of degraded mediterranean ecosystems: B. Ramos, T. Pereyra de la Iglesia, A. Probanza, J.A. Lucas García, M. Mejías and F.J.Gutierrez Mañero; Phosphate-solubilizing microorganisms isolated from rhizospheric and bulk soils of colonizer plants at an abandoned rock phosphate mine: I. Reyes, A. Valery and Z. Valduz; Microbial solubilization of rock phosphate on media containing agro-industrial wastes and effect of the resulting products on plant growth and P uptake; N. Vassilev, M. Vassileva, A. Medina and R. Azcón; Making microorganisms mobilize soil phosphorous: A. Richardson; Future trends in research on microbial phosphate solubilization: one hundred years of insolubility: A. H. Goldstein; Molecular methods for biodiversity analysis of phosphate solubilizing bacteria (PSB): A.Peix , E. Velázquez and E. Martínez-Molina; Taxonomyof phosphate solubilizing bacteria: P. Kämpfer; Taxonomy of filamentous fungi and yeasts that solubilizes phosphate: E. Velázquez and M. E. Trujillo; Phosphate solubilizing microorganisms: effect of Carbon, Nitrogen, and Phosphorus sources: E. Nahas; Efficacy of organic acid secreting bacteria in solubilization of rock phosphate in acidic alfisols: S. Srivastava, M. T. Kausalya, G. Archana, O. P. Rupela and G. Naresh-Kumar; Solubilization of iron and aluminum phosphates in the soil by the fungus Aspergillus niger: C. B. Barroso and E. Nahas; Fertilizers, food and environment: J. M. Igual and C. Rodríguez-Barrueco; Phosphate Solubilizing Microorganisms vs. Phosphate Mobilizing Microorganisms: What separates a phenotype from a trait?: A. H. Goldstein and P.U. Krishnaraj; Challenges in commercializing a phosphate solubilizing microorganism: Penicillium bilaiae, a case history: M. Leggett, J. Cross, G. Hnatowich, and G. Holloway; Interactive effects of phosphate-solubilizing bacteria and mycorrhizal fungi at increasing plant P availability and their evaluation by using isotopic techniques: J. M. Barea, M. Toro and R. Azcón; Distribution pattern and role of phosphate solubilizing bacteria in the enhancement of fertilizer value of rock phosphate in aquaculture ponds: state of the art: B.B. Jana; Construction of a vector for stable chromosomal integration of the phoc gene in plant growth- promoting bacteria: R. Fraga-Vidal, H. Rodríguez Mesa and T. González -Díaz de Villegas; Microorganisms with capacity for phosphate solubilization in Dão red wine (Portugal): L. R. Silva, R. Rivas, A. M. Pinto, P. F. Mateos, E. Martínez-Molina and E. Velásquez.
Taxonomy of rhizobia: An Overview: A. Willems; Genetics of phosphate solubilization and its potential application for improving plant growth-promoting bacteria: H. Rodríguez, R. Fraga, T. Gonzalez and Y. Bashan; Biodiversity of populations of phosphate solubilizing rhizobia that nodulates chickpea in different Spanish soils: R. Rivas, A. Peix, P. F. Mateos, M.E. Trujillo, E. Martínez-Molina and E. Velásquez; Phosphate solubilization activity of rhizobia native to Iranian soils: H. A. Alikhani, N. Saleh-Rastin and H. Antoun; Differential effects of coinoculations with Pseudomonas jessenii PS06 (a phosphate-solubilizing bacterium) and Mesorhizobium ciceri C-2/2 strains on the growth and seed yield of chickpea under greenhouse and field conditions: A. Valverde, A. Burgos, T. Fiscella, R. Rivas, E. Velázquez, C. Rodríguez-Barrueco, E. Cervantes, M. Chamber and J. M. Igual; Effect of Tilemsi phosphate rock solubilizing microorganisms on phosphorus-uptake and yield of field grown wheat in Mali: B. A. Hamadoun and H. Antoun; Screening for PGPR to improve growth of Cistus ladanifer seedlings for reforestation of degraded mediterranean ecosystems: B. Ramos, T. Pereyra de la Iglesia, A. Probanza, J.A. Lucas García, M. Mejías and F.J.Gutierrez Mañero; Phosphate-solubilizing microorganisms isolated from rhizospheric and bulk soils of colonizer plants at an abandoned rock phosphate mine: I. Reyes, A. Valery and Z. Valduz; Microbial solubilization of rock phosphate on media containing agro-industrial wastes and effect of the resulting products on plant growth and P uptake; N. Vassilev, M. Vassileva, A. Medina and R. Azcón; Making microorganisms mobilize soil phosphorous: A. Richardson; Future trends in research on microbial phosphate solubilization: one hundred years of insolubility: A. H. Goldstein; Molecular methods for biodiversity analysis of phosphate solubilizing bacteria (PSB): A.Peix , E. Velázquez and E. Martínez-Molina; Taxonomyof phosphate solubilizing bacteria: P. Kämpfer; Taxonomy of filamentous fungi and yeasts that solubilizes phosphate: E. Velázquez and M. E. Trujillo; Phosphate solubilizing microorganisms: effect of Carbon, Nitrogen, and Phosphorus sources: E. Nahas; Efficacy of organic acid secreting bacteria in solubilization of rock phosphate in acidic alfisols: S. Srivastava, M. T. Kausalya, G. Archana, O. P. Rupela and G. Naresh-Kumar; Solubilization of iron and aluminum phosphates in the soil by the fungus Aspergillus niger: C. B. Barroso and E. Nahas; Fertilizers, food and environment: J. M. Igual and C. Rodríguez-Barrueco; Phosphate Solubilizing Microorganisms vs. Phosphate Mobilizing Microorganisms: What separates a phenotype from a trait?: A. H. Goldstein and P.U. Krishnaraj; Challenges in commercializing a phosphate solubilizing microorganism: Penicillium bilaiae, a case history: M. Leggett, J. Cross, G. Hnatowich, and G. Holloway; Interactive effects of phosphate-solubilizing bacteria and mycorrhizal fungi at increasing plant P availability and their evaluation by using isotopic techniques: J. M. Barea, M. Toro and R. Azcón; Distribution pattern and role of phosphate solubilizing bacteria in the enhancement of fertilizer value of rock phosphate in aquaculture ponds: state of the art: B.B. Jana; Construction of a vector for stable chromosomal integration of the phoc gene in plant growth- promoting bacteria: R. Fraga-Vidal, H. Rodríguez Mesa and T. González -Díaz de Villegas; Microorganisms with capacity for phosphate solubilization in Dão red wine (Portugal): L. R. Silva, R. Rivas, A. M. Pinto, P. F. Mateos, E. Martínez-Molina and E. Velásquez.
From the contents
Taxonomy of rhizobia: An Overview: A. Willems; Genetics of phosphate solubilization and its potential application for improving plant growth-promoting bacteria: H. Rodríguez, R. Fraga, T. Gonzalez and Y. Bashan; Biodiversity of populations of phosphate solubilizing rhizobia that nodulates chickpea in different Spanish soils: R. Rivas, A. Peix, P. F. Mateos, M.E. Trujillo, E. Martínez-Molina and E. Velásquez; Phosphate solubilization activity of rhizobia native to Iranian soils: H. A. Alikhani, N. Saleh-Rastin and H. Antoun; Differential effects of coinoculations with Pseudomonas jessenii PS06 (a phosphate-solubilizing bacterium) and Mesorhizobium ciceri C-2/2 strains on the growth and seed yield of chickpea under greenhouse and field conditions: A. Valverde, A. Burgos, T. Fiscella, R. Rivas, E. Velázquez, C. Rodríguez-Barrueco, E. Cervantes, M. Chamber and J. M. Igual; Effect of Tilemsi phosphate rock solubilizing microorganisms on phosphorus-uptake and yield of field grown wheat in Mali: B. A. Hamadoun and H. Antoun; Screening for PGPR to improve growth of Cistus ladanifer seedlings for reforestation of degraded mediterranean ecosystems: B. Ramos, T. Pereyra de la Iglesia, A. Probanza, J.A. Lucas García, M. Mejías and F.J.Gutierrez Mañero; Phosphate-solubilizing microorganisms isolated from rhizospheric and bulk soils of colonizer plants at an abandoned rock phosphate mine: I. Reyes, A. Valery and Z. Valduz; Microbial solubilization of rock phosphate on media containing agro-industrial wastes and effect of the resulting products on plant growth and P uptake; N. Vassilev, M. Vassileva, A. Medina and R. Azcón; Making microorganisms mobilize soil phosphorous: A. Richardson; Future trends in research on microbial phosphate solubilization: one hundred years of insolubility: A. H. Goldstein; Molecular methods for biodiversity analysis of phosphate solubilizing bacteria (PSB): A.Peix , E. Velázquez and E. Martínez-Molina; Taxonomyof phosphate solubilizing bacteria: P. Kämpfer; Taxonomy of filamentous fungi and yeasts that solubilizes phosphate: E. Velázquez and M. E. Trujillo; Phosphate solubilizing microorganisms: effect of Carbon, Nitrogen, and Phosphorus sources: E. Nahas; Efficacy of organic acid secreting bacteria in solubilization of rock phosphate in acidic alfisols: S. Srivastava, M. T. Kausalya, G. Archana, O. P. Rupela and G. Naresh-Kumar; Solubilization of iron and aluminum phosphates in the soil by the fungus Aspergillus niger: C. B. Barroso and E. Nahas; Fertilizers, food and environment: J. M. Igual and C. Rodríguez-Barrueco; Phosphate Solubilizing Microorganisms vs. Phosphate Mobilizing Microorganisms: What separates a phenotype from a trait?: A. H. Goldstein and P.U. Krishnaraj; Challenges in commercializing a phosphate solubilizing microorganism: Penicillium bilaiae, a case history: M. Leggett, J. Cross, G. Hnatowich, and G. Holloway; Interactive effects of phosphate-solubilizing bacteria and mycorrhizal fungi at increasing plant P availability and their evaluation by using isotopic techniques: J. M. Barea, M. Toro and R. Azcón; Distribution pattern and role of phosphate solubilizing bacteria in the enhancement of fertilizer value of rock phosphate in aquaculture ponds: state of the art: B.B. Jana; Construction of a vector for stable chromosomal integration of the phoc gene in plant growth- promoting bacteria: R. Fraga-Vidal, H. Rodríguez Mesa and T. González -Díaz de Villegas; Microorganisms with capacity for phosphate solubilization in Dão red wine (Portugal): L. R. Silva, R. Rivas, A. M. Pinto, P. F. Mateos, E. Martínez-Molina and E. Velásquez.
Taxonomy of rhizobia: An Overview: A. Willems; Genetics of phosphate solubilization and its potential application for improving plant growth-promoting bacteria: H. Rodríguez, R. Fraga, T. Gonzalez and Y. Bashan; Biodiversity of populations of phosphate solubilizing rhizobia that nodulates chickpea in different Spanish soils: R. Rivas, A. Peix, P. F. Mateos, M.E. Trujillo, E. Martínez-Molina and E. Velásquez; Phosphate solubilization activity of rhizobia native to Iranian soils: H. A. Alikhani, N. Saleh-Rastin and H. Antoun; Differential effects of coinoculations with Pseudomonas jessenii PS06 (a phosphate-solubilizing bacterium) and Mesorhizobium ciceri C-2/2 strains on the growth and seed yield of chickpea under greenhouse and field conditions: A. Valverde, A. Burgos, T. Fiscella, R. Rivas, E. Velázquez, C. Rodríguez-Barrueco, E. Cervantes, M. Chamber and J. M. Igual; Effect of Tilemsi phosphate rock solubilizing microorganisms on phosphorus-uptake and yield of field grown wheat in Mali: B. A. Hamadoun and H. Antoun; Screening for PGPR to improve growth of Cistus ladanifer seedlings for reforestation of degraded mediterranean ecosystems: B. Ramos, T. Pereyra de la Iglesia, A. Probanza, J.A. Lucas García, M. Mejías and F.J.Gutierrez Mañero; Phosphate-solubilizing microorganisms isolated from rhizospheric and bulk soils of colonizer plants at an abandoned rock phosphate mine: I. Reyes, A. Valery and Z. Valduz; Microbial solubilization of rock phosphate on media containing agro-industrial wastes and effect of the resulting products on plant growth and P uptake; N. Vassilev, M. Vassileva, A. Medina and R. Azcón; Making microorganisms mobilize soil phosphorous: A. Richardson; Future trends in research on microbial phosphate solubilization: one hundred years of insolubility: A. H. Goldstein; Molecular methods for biodiversity analysis of phosphate solubilizing bacteria (PSB): A.Peix , E. Velázquez and E. Martínez-Molina; Taxonomyof phosphate solubilizing bacteria: P. Kämpfer; Taxonomy of filamentous fungi and yeasts that solubilizes phosphate: E. Velázquez and M. E. Trujillo; Phosphate solubilizing microorganisms: effect of Carbon, Nitrogen, and Phosphorus sources: E. Nahas; Efficacy of organic acid secreting bacteria in solubilization of rock phosphate in acidic alfisols: S. Srivastava, M. T. Kausalya, G. Archana, O. P. Rupela and G. Naresh-Kumar; Solubilization of iron and aluminum phosphates in the soil by the fungus Aspergillus niger: C. B. Barroso and E. Nahas; Fertilizers, food and environment: J. M. Igual and C. Rodríguez-Barrueco; Phosphate Solubilizing Microorganisms vs. Phosphate Mobilizing Microorganisms: What separates a phenotype from a trait?: A. H. Goldstein and P.U. Krishnaraj; Challenges in commercializing a phosphate solubilizing microorganism: Penicillium bilaiae, a case history: M. Leggett, J. Cross, G. Hnatowich, and G. Holloway; Interactive effects of phosphate-solubilizing bacteria and mycorrhizal fungi at increasing plant P availability and their evaluation by using isotopic techniques: J. M. Barea, M. Toro and R. Azcón; Distribution pattern and role of phosphate solubilizing bacteria in the enhancement of fertilizer value of rock phosphate in aquaculture ponds: state of the art: B.B. Jana; Construction of a vector for stable chromosomal integration of the phoc gene in plant growth- promoting bacteria: R. Fraga-Vidal, H. Rodríguez Mesa and T. González -Díaz de Villegas; Microorganisms with capacity for phosphate solubilization in Dão red wine (Portugal): L. R. Silva, R. Rivas, A. M. Pinto, P. F. Mateos, E. Martínez-Molina and E. Velásquez.