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Referencias:

• Ae, N., Arihara, J., Okada, K., Yoshihara, T., Johansen, C., Phosphorus uptake by pigeon pea and its role in cropping systems of the Indian subcontinent (1990) Science, 248, pp. 477-480
• Alikhani, H.A., Saleh-Rastin, N., Antoun, H., Phosphate solubilisation activity of rhizobia native to Iranian soils (2006) Plant Soil, 287, pp. 35-41
• Antoun, H., Beauchamp, J., Goussard, N., Chabot, R., Lalande, R., Potential of Rhizobium and Bradyrhizobium species as plant growth promoting rhizobacteria on non-legumes: Effect on radishes ( Rhaphanus sativus L.) (1998) Plant Soil, 204, pp. 57-67
• Badri, D.V., Weir, T.L., Van Der Lelie, D., Vivanco, J.M., Rhizosphere chemical dialogues: Plantmicrobe interactions (2009) Curr Opin Biotechnol, 20, pp. 1-9
• Bais, H.P., Park, S.-W., Weir, T.L., Callaway, R.M., Vivanco, J.M., How plants communicate using the underground information superhighway (2004) Trends Plant Sci, 9, pp. 26-32
• Barea, J.M., Pozo, M.J., Azcón, R., Azcón-Aguilar, C., Microbial co-operation in the rhizosphere (2005) J Exp Bot, 56, pp. 1761-1778
• Berendsen, R.L., Pieterse, C.M.J., Bakker, P.A.H.M., The rhizosphere microbiome and plant health (2012) Trends Plant Sci, 17, pp. 478-486
• Burdman, S., Volpin, H., Kigel, J., Kapulnik, Y., Okon, Y., Promotion of nod gene inducers and nodulation in common bean ( Phaseolus vulgaris ) roots inoculated with Azospirillum brasilense Cd (1996) Appl Environ Microbiol, 62, pp. 3030-3033
• Burdman, S., Vedder, D., German, M., Itzigsohn, R., Kigel, J., Jurkevitch, E., Okon, Y., Legume crop yield promotion by inoculation with Azospirillum (1998) Biological Nitrogen Fi Xation for the 21st Century, pp. 609-612. , Elmerich C, Kondorosi A, Newton WE (eds), Kluwer Academic Publishers, Dordrecht
• Cho, M.J., Harper, J.E., Effect of localized nitrate application on isoflavonoid concentration and nodulation in split-root systems of wild-type and nodulation-mutant soybean plants (1991) Plant Physiol, 95, pp. 1106-1112
• Crowley, D., Rengel, Z., Biology and chemistry of rhizosphere influencing nutrient availability (1999) Mineral Nutrition of Crops: Fundamental Mechanisms and Implications, pp. 1-40. , Rengel Z (ed), The Haworth Press, New York
• Dakora, F.D., Phillips, D.A., Diverse functions of isoflavonoids in legumes transcend antimicrobial defi nitions of phytoalexins (1996) Physiol Mol Plant Pathol, 49, pp. 1-20
• Dardanelli, M.S., Fernández, F.J., Espuny, M.R., Rodríguez, M.A., Soria, M.E., Gil, S.A.M., Okon, Y., Megías, M., Effect of Azospirillum brasilense coinoculated with Rhizobium on Phaseolus vulgaris flavonoids and Nod factor production under salt stress (2008) Soil Biol Biochem, 40, pp. 2713-2721
• Dardanelli, M.S., Carletti, S.M., Paulucci, N.S., Medeot, D.B., Rodriguez, C.E.A., Vita, F.A., Bueno, M.A., Garcia, M.B., Benefits of plant growth promoting rhizobacteria (PGPR) and rhizobia in agriculture (2010) Bacteria and Plant Health, pp. 1-20. , Maheshwari DK (ed), Springer, Berlin
• Dardanelli, M.S., Manyani, H., González-Barroso, S., Rodríguez-Carvajal, M.A., Gil-Serrano, A.M., Espuny, M.R., López-Baena, F.J., Ollero, F.J., Effect of the presence of the PGPR Chryseobacterium balustinum Aur9 and salt stress in the pattern of flavonoids exuded by soybean roots (2010) Plant Soil, 328, pp. 483-493
• Dardanelli, M.S., Fernandez De Cordoba, F.J., Estévez, J., Contreras, R., Cubo, M.T., Rodriguez-Carvajal, M.A., Gil-Serrano, A.M., Megias, M., Changes in flavonoids secreted by Phaseolus vulgaris roots in the presence of salt and the plant growth-promoting rhizobacterium Chryseobacterium balustinum (2012) Appl Soil Ecol, 57, pp. 31-38
• De Hoff, P., Hirsch, A.M., Nitrogen comes down to earth: Report from the 5th European nitrogen fixation conference (2003) Mol Plant Microbe Interact, 16, pp. 371-375
• Dixon, R.A., Natural products and plant disease resistance (2001) Nature, 411, pp. 843-847
• Dixon, R., Achnine, L., Kota, P., Liu, C.J., Reddy, M., Wang, L., The phenylpropanoid pathway and plant defence a genomics perspective (2002) Mol Plant Pathol, 3, pp. 371-390
• Dobbelaere, S., Okon, Y., The plant growth promoting effect and plant responses (2007) Associative and Endophytic Nitrogen-fixing Bacteria and Cyanobacterial Associations, pp. 1-26. , Elmerich C, Newton WE (eds), Kluwer Academic Publishers, Dordrecht
• Dobbelaere, S., Van Der Leyden, J., Okon, Y., Plant growth-promoting effects of diazotrophs in the rhizosphere (2003) Crit Rev Plant Sci, 22, pp. 107-149
• Estévez, J., Dardanelli, M.S., Megías, M., Rodriguez-Navarro, D.N., Symbiotic performance of common bean and soybean co-inoculated with rhizobia and Chryseobacterium balustinum Aur9 under moderate saline conditions (2009) Symbiosis, 49, pp. 29-36
• Geurts, R., Fedorova, E., Bisseling, T., Nod factor signaling genes and their function in the early stages of Rhizobium infection (2005) Curr Opin Plant Biol, 8, pp. 346-352
• Goicoechea, N., Antolín, M.C., Sánchez-Díaz, M., Influence of arbuscular mycorrhizae and Rhizobium on nutrient content and water relations in drought-stressed alfalfa (1997) Plant Soil, 192, pp. 261-268
• Gregory, P., The rhizosphere (2006) Plant Roots: Growth, Activity and Interaction with Soils, pp. 216-252. , Gregory P (ed), Blackwell Publishing, Iowa
• Harmsen, J., Rulkens, W., Eijsackers, H., Bioavailability, concept for understanding or tool for predicting? (2005) Land Contam Reclam, 13, pp. 161-171
• Hartwig, U.A., Phillips, D.A., Release and modification of nod -gene inducing flavonoids from alfalfa seeds (1991) Plant Physiol, 95, pp. 804-807
• Jebara, M., Drevon, J.J., Aouani, M.E., Effects of hydroponic culture system and NaCl on interactions between common bean lines and native rhizobia from Tunisian soils (2001) Agronomie, 21, pp. 601-605
• Jourand, P., Giraud, E., Bena, G., Sy, A., Willems, A., Gillis, M., Dreyfus, B., De Lajudie, P., Methylobacterium nodulans sp. Nov., for a group of aerobic, facultatively methylotrophic, legume root-nodule-forming and nitrogen-fixing bacteria (2004) Int J Syst Evol Microbiol, 54, pp. 2269-2273
• Kramer, R., Hindorf, H., Jha, H., Kallage, J., Zilliken, F., Antifungal activity of soybean and chickpea isoflavones and their reduced derivatives (1984) Phytochemistry, 23, pp. 2203-2205
• Lemanceau, P., Bauer, P., Kraemer, S., Briat, J.F., Iron dynamics in the rhizosphere as a case study for analyzing interactions between soils, plants and microbes (2009) Plant Soil, 321, pp. 513-535
• Lin, D.X., Wang, E.T., Tang, H., Han, T.X., He, Y.R., Guan, S.H., Chen, W.X., Shinella kummerowiae sp. Nov., a symbiotic bacterium isolated from root nodules of the herbal legume Kummerowia stipulacea (2008) Int J Syst Evol Microbiol, 58, pp. 1409-1413
• Lucas, G.J.A., Probanza, A., Ramos, B., Barriuso, J., Gutiérrez, M.F.J., Effects of inoculation with plant growth promoting rhizobacteria (PGPRs) and Sinorhizobium fredii on biological nitrogen fixation, nodulation and growth of Glycine max cv. Osumi (2004) Plant Soil, 267, pp. 143-153
• Lucas, G.J.A., Probanza, A., Ramos, B., Colón, F.J.J., Gutiérrez, M.F.J., Effects of plant growth promoting rhizobacteria (PGPRs) on the biological nitrogen fixation, Nodulation, and growth of Lupinus albus L. Cv. Multolupa (2004) Eng Life Sci, 4, pp. 71-77
• Lugtenberg, B., Kamilova, F., Plant-growth-promoting rhizobacteria (2009) Annu Rev Microbiol, 63, pp. 541-556
• Moulin, L., Munive, A., Dreyfus, B., Boivin-Masson, C., Nodulation of legumes by members of the β-subclass of Proteobacteria (2001) Nature, 411, pp. 948-950
• Parmar, N., Dadarwal, K.R., Stimulation of nitrogen fixation and induction of flavonoid-like compounds by rhizobacteria (2001) J Appl Microbiol, 86, pp. 36-44
• Persello-Cartieaux, F., Nussaume, L., Robaglia, C., Tales from the underground: Molecular plant-rhizobacteria interactions (2003) Plant Cell Environ, 26, pp. 189-199
• Phillips, D.A., Fox, T.C., King, M.D., Bhuvaneswari, T.V., Teuber, L.R., Microbial products trigger amino acid exudation from plant roots (2004) Plant Physiol, 136, pp. 2887-2894
• Puente, M.E., Bashan, Y., Li, C.Y., Lebsky, V.K., Microbial populations and activities in the rhizoplane of rock-weathering desert plants. I. Root colonization and weathering of igneous rocks (2004) Plant Biol, 6, pp. 629-642
• Raaijmakers, J.M., Paulitz, T.C., Steinberg, C., Alabouvette, C., Moënne-Loccoz, Y., The rhizosphere: A playground and battlefield for soil borne pathogens and beneficial microorganisms (2009) Plant Soil, 321, pp. 341-361
• Rao, J.R., Cooper, J.E., Rhizobia catabolize nod gene-inducing flavonoids via C-ring fission mechanisms (1994) J Bacteriol, 176, pp. 5409-5413
• Remans, R., Beebe, S., Blair, M., Manrique, G., Tovar, E., Rao, I., Croonenborghs, A., Van Der Leyden, J., Physiological and genetic analysis of root responsiveness to auxin-producing plant growth-promoting bacteria in common bean ( Phaseolus vulgaris L.) (2008) Plant Soil, 302, pp. 149-161
• Rivas, R., Willems, A., Subba-Rao, N.S., Mateos, P.F., Dazzo, F.B., Kroppenstedt, R.M., Martínez-Molina, E., Velázquez, E., Description of Devosia neptuniae sp. Nov. That nodulates and fixes nitrogen in symbiosis with Neptunia natans, an aquatic legume from India (2003) Syst Appl Microbiol, 26, pp. 47-53
• Rodelas, B., González-López, J., Salmerón, V., Pozo, C., Martínez-Toledo, M.V., Enhancement of nodulation, N 2 -fixation and growth of faba bean ( Vicia faba L.) by combined inoculation with Rhizobium leguminosarum bv. Viceae and Azospirillum brasilense (1996) Symbiosis, 21, pp. 175-186
• Rodelas, B., González-López, J., Martínez-Toledo, M.V., Pozo, C., Salmerón, V., Influence of Rhizobium/Azotobacter and Rhizobium/Azospirillum combined inoculation on mineral composition of faba bean ( Vicia faba L.) (1999) Biol Fertil Soils, 29, pp. 165-169
• Rodriguez, H., Fraga, R., Phosphate solubilizing bacteria and their role in plant growth promotion (1999) Biotechnol Adv, 17, pp. 319-339
• Runge-Metzger, A., Closing the cycle: Obstacles to efficient P management for improved global food security (1995) Phosphorus in the Global Environment: Transfers, Cycles and Management, pp. 27-42. , Tiessen H (ed), Wiley, New York
• Sarig, S., Kapulnik, Y., Okon, Y., Effect of Azospirillum inoculation on nitrogen fixation and growth of several winter legumes (1986) Plant Soil, 90, pp. 335-342
• Schenk, P.M., Carvalhais, L.C., Kazan, K., Unraveling plant-microbe interactions: Can multispecies transcriptomics help? (2012) Trends Biotechnol, 30, pp. 177-184
• Schlaman, H.R.M., Phillips, D.A., Kondorosi, E., Genetic organization and transcripcional regulation of rhizobial nodulation genes (1998) The Rhizobiaceae, the Molecular Biology of Model Plant Associated Bacteria, pp. 371-432. , Spaink HP, Kondorosi A, Hooykaas HJJ (eds), Kluwer Academic Publishers, Dordrecht
• Shaw, L.J., Morris, P., Hooker, J.E., Perception and modification of plant flavonoid signalsby rhizosphere microorganisms (2006) Environ Microbiol, 8, pp. 1867-1880
• Somers, E., Van Der Leyden, J., Srinivasan, M., Rhizosphere bacterial signalling: A love parade beneath our feet (2004) Crit Rev Microbiol, 30, pp. 205-240
• Sy, A., Giraud, E., Jourand, P., Garcia, N., Willems, A., De Lajudie, P., Prin, Y., Dreyfus, B., Methylotrophic Methylobacterium bacteria nodulate and fix nitrogen in symbiosis with legumes (2001) J Bacteriol, 183, pp. 214-220
• Trujillo, M.E., Willems, A., Abril, A., Planchuelo, A.M., Rivas, R., Ludeña, D., Mateos, P.F., Velázquez, E., Nodulation of Lupinus albus by strains of Ochrobactrum lupini sp. Nov (2004) Appl Environ Microbiol, 71, pp. 1318-1327
• Valverde, A., Velázquez, E., Fernández-Santos, F., Vizcaíno, N., Rivas, R., Mateos, P.F., Martínez-Molina, E., Willems, A., Phyllobacterium trifolii sp. Nov., nodulating Trifolium and Lupinus in Spanish soils (2005) Int J Syst Evol Microbiol, 55, pp. 1985-1989
• Van Berkum, P., Eardly, B.D., The aquatic budding bacterium Blastobacter denitrificans is a nitrogen-fixing symbiont of Aeschynomene indica (2002) Appl Environ Microbiol, 68, pp. 1132-1136
• Van Loon, L.C., Bakker, P.A.H.M., Induced systemic resistance as a mechanism of disease suppression by rhizobacteria (2005) PGPR: Biocontrol and Biofertilization, pp. 39-66. , Siddiqui ZA (ed), Springer, Dordrecht
• Van Etten, H., Antifungal activity of pterocarpans and other selected isoflavonoids (1976) Phytochemistry, 15, pp. 655-659
• Vargas, L.K., Lisboa, B.B., Giongo, A., Beneduzi, A., Pereira, P.L.M., Potential of rhizobia as plant growth-promoting rhizobacteria (2010) Microbes for Legume Improvement, pp. 137-156. , Khan MS, Zaide A, Musarrat J (eds), Springer, Wien
• Velázquez, E., García-Fraile, P., Ramirez-Bahena, M.H., Rivas, R., Martínez-Molina, E., Bacteria involved in nitrogen-fixing legume simbiosis: Current taxonomic perspective (2010) Microbes for Legume Improvement, pp. 1-25. , Khan MS, Zaide A, Musarrat J (eds), Springer, Wien
• Volpin, H., Burdman, S., Castro-Sowinski, S., Kapulnik, Y., Okon, Y., Inoculation with Azospirillum increased exudation of rhizobial nod-gene inducers by alfalfa roots (1996) Mol Plant Microbe Interact, 9, pp. 388-394
• Welbaum, G., Sturz, A.V., Dong, Z., Nowak, J., Fertilizing soil microorganisms to improve productivity of agroecosystems (2004) Crit Rev Plant Sci, 23, pp. 175-193
• Zaidi, A., Khan, M.S., Ahemad, M., Oves, M., Plant growth promotion by phosphate solubilizing bacteria (2009) Acta Microbiol Immunol Hung, 56, pp. 283-284
• Zaidi, A., Ahemad, M., Oves, M., Ahmad, E., Khan, M.S., Role of phosphate-solubilizing bacteria in legume improvement (2010) Microbes for Legume Improvement, pp. 273-292. , Khan MS, Zaide A, Musarrat J (eds), Springer, Wien
• Zheng, X.Y., Sinclair, J.B., Chemotactic response of Bacillus megaterium strain B153-2-2 to soybean root and seed exudates (1996) Physiol Mol Plant Pathol, 48, pp. 21-35

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