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Mariangela Hungria

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    2021

  1. Teixeira G.M., Mosela, M., Nicoletto, M.L.A., Ribeiro, R.A., Hungria, M., Youssef, K., Higashi, A.Y., Mian, S., Ferreira, A.S., Gonçalves, L.S.A., Pereira, U.P., de Oliveira, A.G. 2021 Genomic Insights Into the Antifungal Activity and Plant Growth-Promoting Ability in Bacillus velezensis CMRP 4490. Frontiers in Microbiology. 11:618415. doi: 10.3389/fmicb.2020.618415.

  2. Simionato, A.S., Cano, B.G., Navarro, M.O.P., Tavares, E.R., Ribeiro, R.A., Hungria, M., Yamauchi, L.M., Yamada-Ogatta, S.F., Andrade, G. 2021. Whole-genome sequence of bioactive compound-producing Pseudomonas aeruginosa strain LV. Microbiology Resource Announcements. 10:e01120-20. doi: 10.1128/MRA.01120-20.

  3. Scudeletti, D., Crusciol, C.A.C., Bossolani, J.W., Moretti, L.G., Momesso, L., Servaz Tubaña, B., de Castro, S.G.Q, De Oliveira, E.F., Hungria, M. 2021. Trichoderma asperellum Inoculation as a Tool for Attenuating Drought Stress in Sugarcane. Frontiers. in Plant Science. 12:645542. doi: 10.3389/fpls.2021.645542.

  4. Santos M.S., Nogueira M.A., Hungria M. 2021. Outstanding impact of Azospirillum brasilense strains Ab-V5 and Ab-V6 on the Brazilian agriculture: Lessons that farmers are receptive to adopt new microbial inoculants. Rev Bras Cienc Solo. 45:e0200128. doi: 10.36783/18069657rbcs20200128.

  5. Santos, M.S., Rodrigues, T.F., Nogueira, M.A., Hungria, M. 2021. The Challenge of Combining High Yields with Environmentally Friendly Bioproducts: A Review on the Compatibility of Pesticides with Microbial Inoculants. Agronomy. 11, 870. doi: 10.3390/agronomy11050870.

  6. Hungria, M., Rondina, A.B.L., Nunes, A.L.P., Araujo, R.S., Nogueira, M.A. 2021. Seed and leaf-spray inoculation of PGPR in brachiarias (Urochloa spp.) as an economic and environmental opportunity to improve plant growth, forage yield and nutrient status. Plant Soil. 463, 171–186. doi: 10.1007/s11104-021-04908-x.

  7. Garcia, M.V.C., Nogueira, M.A., Hungria, M. 2021. Combining microorganisms in inoculants is agronomically important but industrially challenging: case study of a composite inoculant containing Bradyrhizobium and Azospirillum for the soybean crop. AMB Express. 11, 71. doi: 10.1186/s13568-021-01230-8.
  8. Meireles Duarte, A. N., Viega Soares Filho, C., Carvalho Minhoto Teixeira Filho, M., Lopes Monteiro de Carvalho, C., Hungria, M., Nogueira, M. A., Mandolesi Valvano, I., Gonçalves Ishiy, A. 2021. Inoculation with plant growth-promoting bacteria and reduction of nitrogen fertilizer in herbage accumulation and nutritional value of Mavuno grass. International Journal for Innovation Education and Research. 9(3), 16–34. doi: 10.31686/ijier.vol9.iss3.2962.

    9. 2020

  9. Comi, G., Santos, M.S., Rondina, A. B. L., Nogueira, M. A., Hungria, M. 2020. Compatibility of Azospirillum brasilense with Pesticides Used for Treatment of Maize Seeds. International Journal of Microbiology. 2020, 8833879. doi: 10.1155/2020/8833879.

  10. Soares Filho, C. V., Silva, L. A., Boregio, J. S., Hungria, M., Moreira, A., Nogueira, M. A. 2020. Biomass Yield, Nitrogen Content and Uptake, And Nutritive Value of Alfalfa Co-Inoculated with Plant-Growth Promoting Bacteria. International Journal for Innovation Education and Research. 8(5), 400–420. doi: 10.31686/ijier.vol8.iss5.2355.

  11. Sanches Santos, M., Fernandes Rodrigues, T., Ferreira, E., Megias, M., Nogueira, M.A., Hungria, M. 2020. Method for Recovering and Counting Viable Cells from Maize Seeds Inoculated with Azospirillum brasilense. Journal of Pure Applied Microbiology. 14(1): 195-204. doi: 10.22207/JPAM.14.1.21.

  12. Lima, G. C. de, Hungria, M., Nogueira, M. A., Teixeira Filho, M. C. M. ., Moreira, A., Heinrichs, R., Soares Filho, C. V. 2020. Yield, yield components and nutrients uptake in Zuri Guinea grass inoculated with plant growth-promoting bacteria. International Journal for Innovation Education and Research. 8(4), 103–124. doi: 10.31686/ijier.vol8.iss4.2268.

  13. Ikeda, A. C., Savi, D. C., Hungria, M., Kava, V., Glienke, C., Galli-Terasawa, L. V. 2020. Bioprospecting of elite plant growth-promoting bacteria for the maize crop. Acta Scientiarum Agronomy. 42(1), e44364. doi: 10.4025/actasciagron.v42i1.44364.

  14. Hungria, M., Nogueira, M.A., Campos, L.J.M., Menna, P., Brandi, F., Ramos, Y.G. 2020. Seed pre-inoculation with Bradyrhizobium as time-optimizing option for large-scale soybean cropping systems. Agronomy Journal. 112: 5222– 5236. doi: 10.1002/agj2.20392.

  15. Alemayehu Getahun, Diriba Muleta, Fassil Assefa, Solomon Kiros, and Mariangela Hungria. 2020. Biochar and Other Organic Amendments Improve the Physicochemical Properties of Soil in Highly Degraded Habitat. European Journal of Engineering Research and Science. 5(3), 331-338. doi: 10.24018/ejers.2020.5.3.1735.
  16. Duarte, C. F. D., Cecato, U., Hungria, M., Fernandes, H. J., Biserra, T. T., Mamédio, D., Galbeiro, S., Nogueira, M. A. 2020. Inoculation of plant growth-promoting bacteria in Urochloa Ruziziensis. Research, Society and Development. 9(8), e630985978. doi: 10.33448/rsd-v9i8.5978.

  17. Soares Filho, C. V., Carvalho, C. L. M. de ., Hungria, M., Nogueira, M. A., Moreira, A., Duarte, A. N. M. 2020. Nitrogen in Shoots, Number of Tillers, Biomass Yield and Nutritive Value of Zuri Guinea Grass Inoculated with Plant-Growth Promoting Bacteria. International Journal for Innovation Education and Research. 8(5), 437–463. doi: 10.31686/ijier.vol8.iss5.2360.

  18. Anzalone, R.A., Machado Vezzani, F., Kaschuk, G., Hungria, M., Vargas, L., Nogueira, M.A. 2020. Establishing reference values for soil microbial biomass-C in agroecosystems in the Atlantic Forest Biome in Southern Brazil. Ecological Indicators. 117, 106586. doi: 10.1016/j.ecolind.2020.106586.
  19. Barreiros, A. R. D., Cecato, U., Duarte, C. F. D., Hungria, M., Biserra, T. T., Silva, D. R. da ., Mamédio, D., Sanches, R., Fernandes, H. J. 2020) Forage Mass, Tillering, Nutritive Value and Root System of Ruzigrass Inoculated with Plant Growth Promoting Bacteria Associated with Doses of N-Fertilizer. International Journal for Innovation Education and Research. 8(10), 41–55. doi: 10.31686/ijier.vol8.iss10.2634.

    20. 2019

  20. Venancio, W.S., Marcolino Gomes, J., Nakatani, A.S., Hungria M., Araujo, R.S. 2019. Lettuce Production under Reduced Levels of N-fertilizer in the Presence of Plant Growth-promoting Bacillus spp. Bacteria. Journal of Pure Applied Microbiology. 13(4):1941-1952. doi: 10.22207/JPAM.13.4.06.

  21. Vanlauwe, B., Hungria, M., Kanampiu, F., Giller, K.E. 2019. The role of legumes in the sustainable intensification of African smallholder agriculture: Lessons learnt and challenges for the future. Agriculture, Ecosystems & Environment. 284, 106583. doi: 10.1016/j.agee.2019.106583.

  22. Santos, M.S., Nogueira, M.A., Hungria, M. 2019. Microbial inoculants: reviewing the past, discussing the present and previewing an outstanding future for the use of beneficial bacteria in agriculture. AMB Express. 9, 205. doi: 10.1186/s13568-019-0932-0.

  23. Sandini, I.E., Pacentchuk, F., Hungria, M., Nogueira, M.A., da Cruz, S.P., Nakatani, A.S., Araujo, R.S. 2019. Seed Inoculation with Pseudomonas fluorescens Promotes Growth, Yield and Reduces Nitrogen Application in Maize. International Journal Of Agriculture & Biology. 22(6), 1369-1375. doi: 10.17957/IJAB/15.1210.

  24. Sá, G.C.R., Hungria, M., Lopes, C., Moreira, A., Nogueira, M., Heinrichs, R., Viega, C. 2019. Nutrients Uptake in Shoots and Biomass Yields and Roots and Nutritive Value of Zuri Guinea Grass Inoculated with Plant Growth-promoting Bacteria. Communications in Soil Science and Plant Analysis. 50:22, 2927-2940, doi: 10.1080/00103624.2019.1689256.

  25. G. C. R. Sá, C. L. M. Carvalho, A. Moreira, M. Hungria, M.A. Nogueira, R. Heinrichs & C. V. Soares Filho. 2019 Biomass Yield, Nitrogen Accumulation and Nutritive Value of Mavuno Grass Inoculated with Plant Growth-promoting Bacteria. Communications in Soil Science and Plant Analysis. 50:15, 1931-1942, doi: 10.1080/00103624.2019.1648498.

  26. Bouznif, B., Guefrachi, I., Rodríguez de la Vega, R.C., Hungria, M., Mars, M., Alunni, B., Shykoff, J.A. 2019. Phylogeography of the Bradyrhizobium spp. Associated With Peanut, Arachis hypogaea: Fellow Travelers or New Associations? Frontiers in Microbiology. 10:2041. doi: 10.3389/fmicb.2019.02041.

  27. Leite, R.C., Santos, A.C., Santos, J.G.D., Leite, R.C., Oliveira, L.B.T, Hungria M. 2019. Mitigation of mombasa grass (Megathyrsus maximus) dependence on nitrogen fertilization as a function of inoculation with Azospirillum brasilense. Rev Bras Cienc Solo. 43:e0180234. doi: 10.1590/18069657rbcs20180234.

  28. Hungria, M., Delamuta, J.R.M., Ribeiro, R.A., Nogueira, M.A. 2019. Draft genome sequence of Bradyrhizobium elkanii strain SEMIA 938, used in commercial inoculants for Lupinus spp. in Brazil. Microbiology Resource Announcements. 8:e00546-19. doi: 10.1128/MRA.00546-19.

  29. Giller, K.E., Kanampiu, F., Hungria, M., Vanlauwe, B. 2019. The role of nitrogen fixation in African smallholder agriculture. Agriculture, Ecosystems & Environment. 285, 106601. doi: 10.1016/j.agee.2019.106601.

  30. dos Santos Fávaro, L., de Paula-Petroli, S.B., Romanin, P., dos Reis Tavares, E., Ribeiro, R.A., Hungria, M., de Oliveira, A.G., Megumi Yamauchi, L., Yamada-Ogatta, S.F., Carrara-Marroni, F.E. 2019. Detection of OXA-58-producing Acinetobacter bereziniae in Brazil. Journal of Global Antimicrobial Resistance 19, 53-55. doi: 10.1016/j.jgar.2019.08.011.

  31. del Cerro, P., Ayala-García, P., Jiménez-Guerrero, I., López-Baena, F.J., Vinardell, J.M., Megías, M., Hungria, M., Gil-Serrano, A.M., Pérez-Montaño, F., Ollero, F.J. 2019. The non-flavonoid inducible nodA3 and the flavonoid regulated nodA1 genes of Rhizobium tropici CIAT 899 guarantee nod factor production and nodulation of different host legumes. Plant Soil. 440, 185–200. doi: 10.1007/s11104-019-04073-2.
  32. Barros-Carvalho, G.A., Hungria, M., Lopes, F.M., Van Sluys, M-A. 2019. Brazilian-adapted soybean Bradyrhizobium strains uncover IS elements with potential impact on biological nitrogen fixation. FEMS Microbiology Letters. 366(11), fnz046. doi: 10.1093/femsle/fnz046.

    33. 2018

  33. Cerezini, P., Kuwano, B H., Neiverth, W., Grunvald, A K., Pípolo, A E., Hungria, M., Nogueira, M.A. 2018. Physiological and N2-fixation-related traits for tolerance to drought in soybean progenies. Pesquisa Agropecuária Brasileira. 54, e00839. doi: 10.1590/S1678-3921.pab2019.v54.00839.

  34. Souza, T.L.P.O., Faria, J.C., Aragão, F.J.L., Del Peloso, M.J., Faria, L.C., Wendland, A., Aguiar, M.S., Quintela, E.D., Melo, C.L.P., Hungria, M., Vianello, R.P., Pereira, H.S. and Melo, L.C. 2018. Agronomic Performance and Yield Stability of the RNA Interference-Based Bean golden mosaic virus-Resistant Common Bean. Crop Science. 58: 579-591. doi: 10.2135/cropsci2017.06.0355.

  35. Souza, R.C., Cantão, M.E., Nogueira, M.A., Vasconcelos, A.T.R, Hungria, M. 2018. Outstanding impact of soil tillage on the abundance of soil hydrolases revealed by a metagenomic approach. Brazilian Journal of Microbiology. 49(4): 723-730. doi: 10.1016/j.bjm.2018.03.001.
  36. Moretti, L.G., Lazarini, E., Bossolani, J.W., Parente, T.L., Caioni, S., Araujo, R.S., Hungria, M. 2018. Can Additional Inoculations Increase Soybean Nodulation and Grain Yield?. Agronomy Journal. 110: 715-721. doi: 10.2134/agronj2017.09.0540. Note correction to table 6 here.

  37. Megías, E., dos Reis Junior, F.B., Ribeiro, R.A., Ollero, F.J., Megías, M., Hungria M. 2018. Draft genome sequence of Pantoea ananatis strain 1.38, a bacterium isolated from the rhizosphere of Oryza sativa var. Puntal that shows biotechnological potential as an inoculant. Genome Announcements. 6:e01547-17. doi: 10.1128/genomeA.01547-17.

  38. Ikeda, A.C., Zecchin, V.J.S., Savi, D.C., Kava, V., Glienke, C., Hungria, M., Terasawa, L.V.G. 2018. Bio Prospecting Plant Growth-Promoting Bacteria Isolated from Maize (zea mays l.) Roots. Journal of Biotech Research & Biochemistry. 1: 003. doi: 10.24966/BRB-0019/100002.

  39. Hungria, M., Ribeiro, R.A., Nogueira, M.A. 2018. Draft genome sequences of Azospirillum brasilense strains Ab-V5 and Ab-V6, commercially used in inoculants for grasses and legumes in Brazil. Genome Announcements. 6: e00393-18. doi: 10.1128/genomeA. .00393-18.

  40. Gundi, J. S., Santos, M. S., Oliveira, A. L. M., Nogueira, M. A., Hungria, M. 2018. Development of liquid inoculants for strains of Rhizobium tropici group using response surface methodology. African Journal of Biotechnology. 17(13), 411-421. doi: 10.5897/AJB2018.16389.

  41. Grunvald, A.K., Torres, A.R., Passianotto, A.L.d.L., Santos, M.A., Jean, M., Belzile, F., Hungria, M. 2018. Identification of QTLs Associated with Biological Nitrogen Fixation Traits in Soybean Using a Genotyping-by-Sequencing Approach. Crop Science. 58: 2523-2532. doi: 10.2135/cropsci2018.01.0031.

  42. Chibeba, A.M., Kyei-Boahen, S., de Fátima Guimarães, M., Nogueira, M.A., Hungria, M. 2019. Feasibility of transference of inoculation-related technologies: A case study of evaluation of soybean rhizobial strains under the agro-climatic conditions of Brazil and Mozambique. Agriculture, Ecosystems & Environment. 261, 230-240. doi: 10.1016/j.agee.2017.06.037.

  43. Baptista, J.P., Sanches, P.P., Teixeira, G.M., Morey, A.T., Tavares, E.R., Yamada-Ogatta, S.F., da Rocha, S.P.D., Hungria, M., Ribeiro, R.A., Balbi-Peña, M.I., Chideroli, R.T., Pereira, U.D.P., de Oliveira, A.G. 2018. Complete genome sequence of Bacillus velezensis LABIM40, an effective antagonist of fungal plant pathogens. Genome Announcements. 6:e00595-18. doi: 10.1128/genomeA.00595-18.

    44. 2017

  44. Vivan, A.C.P., Rosa, J.F., Rizek, C.F., Pelisson, M., Costa, S.F., Hungria, M., Kobayashi, R., Vespero, E.C. 2017. Molecular characterization of carbapenem-resistant Klebsiella pneumoniae isolates from a university hospital in Brazil. Journal of Infection in Developing Countries .11:379-386. doi: 10.3855/jidc.8614.

  45. Delamuta, J.R.M., Ribeiro, R.A., Gomes, D.F., Souza, R.C., Chueire, L.M.O., Hungria, M. 2017. Genome sequence of Bradyrhizobium embrapense strain CNPSo 2833T, isolated from a root nodule of Desmodium heterocarpon. Brazilian Journal of Microbiology. 48(1): 9-10. doi: 10.1016/j.bjm.2016.06.012.

  46. Saturno, D.F., Cerezini, P., da Silva, P., Barbosa de Oliveira, A., Neves de Oliveira, M.C., Hungria, M., Nogueira, M. 2017. Mineral nitrogen impairs the biological nitrogen fixation in soybean of determinate and indeterminate growth types. Journal of Plant Nutrition. 40:12, 1690-1701, doi: 10.1080/01904167.2017.1310890.

  47. Santos, M. S., Hungria, M., Nogueira, M. A. 2017. Production of polyhydroxybutyrate (PHB) and biofilm by Azospirillum brasilense aiming at the development of liquid inoculants with high performance. African Journal of Biotechnology. 16(37), 1855-1862. doi: 10.5897/AJB2017.16162.

  48. Ribeiro, R.A., Helene, L.C.F., Delamuta, J.R.M, Hungria, M. 2017. Genome sequence of Bradyrhizobium mercanteistrain SEMIA 6399T, isolated from nodules of Deguelia costata in Brazil. Genome Announcements. 5:e00943-17. doi: 10.1128/genomeA.00943-17.

  49. Megías, E., Reis Junior, F.B., Ribeiro, R.A., Megías, M., Ollero, F.J., Hungria, M. 2017. Genome sequence of Pantoea sp. strain 1.19, isolated from rice rhizosphere, with the capacity to promote growth of legumes and nonlegumes. Genome Announcements. 5:e00707-17. doi: 10.1128/genomeA.00707-17.

  50. Megías, E., Reis Junior, F.B., Ribeiro, R.A., Ollero, F.J., Megías, M., Hungria M. 2017. Genome sequence of Pantoea ananatis strain AMG 501, a plant growth-promoting bacterium isolated from rice leaves grown in paddies of southern Spain. Genome Announcements. 5:e00848-17. doi: 10.1128/genomeA.00848-17.

  51. Hungria, M., Araujo, R.S., Silva Júnior, E.B. and Zilli, J.É. 2017. Inoculum Rate Effects on the Soybean Symbiosis in New or Old Fields under Tropical Conditions. Agronomy Journal. 109: 1106-1112. doi: 10.2134/agronj2016.11.0641.

  52. Helene L.C.F., Ribeiro R.A., Hungria M. 2017. Genome sequence of Rhizobium esperanzae type strain CNPSo 668, isolated from Phaseolus vulgaris nodules in Mexico. Genome Announcements. 5:e00935-17. doi: 10.1128/genomeA.00935-17.

  53. Fukami, J., Ollero, F.J., Megías, M., Hungria, M. 2017. Phytohormones and induction of plant-stress tolerance and defense genes by seed and foliar inoculation with Azospirillum brasilense cells and metabolites promote maize growth. AMB Express. 7, 153. doi: 10.1186/s13568-017-0453-7.

  54. del Cerro, P., Pérez-Montaño, F., Gil-Serrano, A., López-Baena, F.J., Megías, M., Hungria M., Ollero, F.J. 2017. The Rhizobium tropici CIAT 899 NodD2 protein regulates the production of Nod factors under salt stress in a flavonoid-independent manner. Scientific Reports. 7, 46712. doi: 10.1038/srep46712.

  55. Chibeba, A.M., Kyei-Boahen, S., de Fátima Guimarães, M., Nogueira, M.A., Hungria, M. 2017. Isolation, characterization and selection of indigenous Bradyrhizobium strains with outstanding symbiotic performance to increase soybean yields in Mozambique. Agriculture, Ecosystems & Environment. 246, 291-305. doi: 10.1016/j.agee.2017.06.017.

  56. Cerezini, P., Fagotti, D., Pípolo, A., Hungria, M., Nogueira, M. 2017. Water restriction and physiological traits in soybean genotypes contrasting for nitrogen fixation drought tolerance. Scientia Agricola [online]. 74(2): 110-117. doi: 10.1590/1678-992X-2016-0462.

  57. Araujo, R.S., da Cruz, S.P., Souchie, E.L., Martin, T.N., Nakatani, A.S., Nogueira, M.A., Hungria, M. 2017. Preinoculation of Soybean Seeds Treated with Agrichemicals up to 30 Days before Sowing: Technological Innovation for Large-Scale Agriculture. International Journal of Microbiology. 2017, 5914786. doi: 10.1155/2017/5914786.

  58. Sa, J.C.M., Lal, R., Cerri, C.C., Lorenz, K., Hungria, J. and Carvalho, P.C.C. 2017. Low-carbon agriculture in South America to mitigate global climate change and advance food security. Environment International. 98: 102-112.

    59. 2016

  59. Souza, R.C., Mendes, I.C., Reis-Junior, F.B., Carvalho, F.M., Vasconcelos, A.T.R., Vicente, V.A., and Hungria, M., 2016. Shifts in taxonomic and functional microbial diversity with agriculture: how fragile is the Brazilian Cerrado?. BMC Microbiology. 16: 42.

  60. Perez-Montano, F., del Cerro, P., Jimenez-Guerrero, I., Lopez-Baena, F.J., Cubo, M.T., Hungria, M., Megias, M. and Ollero, F.J. 2016. RNA-seq analysis of the Rhizobium tropici CIAT 899 transcriptome shows similarities in the activation patterns of symbiotic genes in the presence of apigenin and salt. BMC Genomics. 17: 198.

  61. Ormeno-Orrillo, E., Gomes, D.F., del Cerro, P., Vasconcelos, A.T.R., Canchaya, C., Almeida, L.G.P., Mercante, F.M., Ollero, F.J., Megias, M., and Hungria, M., 2016. Genome of Rhizobium leucaenae strains CFN 299T and CPAO 29.8: searching for genes related to a successful symbiotic performance under stressful conditions. BMC Genomics. 17: 534.

  62. Kaschuk, G., Nogueira, M.A., de Luca, M.J. and Hungria, M., 2016. Response of determinate and indeterminate soybean cultivars to basal and topdressing N fertilization compared to sole inoculation with Bradyrhizobium. Field Crops Research. 195: 21-27. (PDF is available from the author)

  63. Hungria, M., Nogueira, M.A., Araujo, R.S. 2016. Inoculation of Brachiaria spp. with the plant growth-promoting bacterium Azospirillum brasilense: an environment-friendly component in the reclamation of degraded pastures in the tropics. Agriculture, Ecosystems and Environment. 221: 125-131. (PDF is available from the author)

  64. Fukami, J., Nogueira, M.A., Araujo, R.S., Hungria, M., 2016. Accessing inoculation methods of maize and wheat with Azospirillum brasilense. Applied Microbiology and Biotecnology Express. 6: 1-13.

  65. Delamuta, J.R.M., Ribeiro, R.A., Araujo, J.L.S., Rows, L.F.M., Zilli, J.E., Parma, M.M., Melo, I.S. and Hungria, M., 2016. Bradyrhizobium stylosanthis sp. nov., comprising nitrogen-fixing symbionts isolated from nodules of the tropical forage legume Stylosanthes spp. International Journal of Systematic and Evolutionary Microbiolog. 66: 3078-3087. doi: 10.1099/ijsem.0.001148

  66. del-Cerro, P., Rolla-Santos, A.A.P., Valderrama-Fernandez, R., Gil-Serrano, A., Bellogin, R.A., Gomes, D.F., Peres-Montano, F., Megias, M., Hungria, M., and Ollero, F.J. 2016. NrcR, a new transcriptional regulator of Rhizobium tropici CIAT 899 involved in the legume root-nodule symbiosis. Plos ONE. 11(4): e0154029.

  67. dDall Agnol, R.F., Plotegher, F., Souza, R.C., Mendes, I.C., Reis Junior, F.B., Bena, G., Moulin, L. and Hungria, M., 2016. Paraburkholderia nodosa is the main N2-fixing species trapped by promiscuous common bean (Phaseolus vulgaris L.) in the Brazilian Cerradao. FEMS Microbiology Ecology. 92. fiw108:1-14.

  68. Cerezini, P., Kuwano, B., Santos, M., Terassi, F., Hungria, M., and Nogueira, M.A. 2016. Strategies to promote early nodulation in soybean under drought. Field Crops Research. 196: 160-167. doi: 10.1016/j.fcr.2016.06.017

  69. Babujia, L.C., Silva, A.P., Nakatani, A.S., Cantao, M., Vasconcelos, A.T.R., Visentainer, J.V. and Hungria, M., 2016. Impact of long-term cropping of glyphosate-resistant transgenic soybean (Glycine max (L.) Merr.) on soil microbiome. Transgenic Research. 25: 425-440.

    70. 2015

  70. Matsumura, E.E., Secco, V.A., Moreira, R.S., Santos, O.J.P., Hungria, M., and Oliveira, A.L.M. 2016. Composition and activity of endophytic bacterial communities in field-grown maize plants inoculated with Azospirillum brasilense. Annals of Microbiology. 65: 2187-2200. doi: 10.1007/s13213-015-1059-4.

  71. Ribeiro, R.A., Martins, T.B., Ormeno-Orrillo, E., Delamuta, J.R.M., Rogel, M.A., Martinez-Romero, E. and Hungria, M. 2015. Rhizobium ecuadorense sp. nov., an indigenous N2-fixing symbiont of the Ecuadorian common bean (Phaseolus vulgaris L.) genetic pool. International Journal of Systematic and Evolutionary Microbiology. 65: 3162-3169. doi: 10.1099/ijsem.0.000392.

  72. Souza, R.C., Hungria, M., Cantao, M.E., Vasconcelos, A.T.R., Nogueira, M.A. and Vicente, V.A. 2015. Metagenomic analysis reveals microbial functional redundancies and specificities in a soil under different tillage and crop-management regimes. Applied Soil Ecology. 86: 106-112. (PDF is available from the author)

  73. Torres, A.R., Grunvald, A.K., Martins, T.B., Santos, M.A., Ribeiro, V.A., Lemos, N.G., Silva, L.A.S., and Hungria, M. 2015. Genetic structure and diversity of a soybean germplasm considering biological nitrogen fixation and protein content. Scientia Agricola. 72: 47-52.

  74. Szilagyi-Zecchin, V.J., Klosowski, A.C., Ikeda, A.C., Hungria, M., Galli-Terasawa, L.V., Kava-Cordeiro, V., Glienke, C., Mogor, A.F. 2015. Potential inoculant strains of Brazilian endophytic bacteria for maize (Zea mays L.) growth promotion. International Journal of Agronomy and Agricultural Research. 7(4): 128-134.

  75. Marks, B.B., Megias, M., Ollero, F.J., Nogueira, M.A., Araujo, R.S., and Hungria, M. 2015. Maize growth promotion by inoculation with Azospirillum brasilense and metabolites of Rhizobium tropici CIAT 899 enriched on lipo-chitooligossacharides (LCOs). Applied Microbiology and Biotecnology Express. 5: 71.

  76. Hungria, M., Nogueira, M.A., and Araujo, R.S. 2015. Soybean seed co-inoculation with Bradyrhizobium spp., and Azospirillum brasilense: A new biotechnological tool to improve yield and sustainability. American Journal of Plant Sciences. 6: 811-817.

  77. Hungria, M., Nogueira, M.A., and Araujo, R.S. 2015. Alternative methods and time for soybean inoculation to overcome adverse conditions at sowing. African Journal of Agricultural Research. 10: 2329-2338.

  78. Hungria, M., Nakatani, A.S., Souza, R.A., Sei, F.B., Chueire, L.M.O., and Arias, C.A. 2015. Impact of the ahas transgene for herbicides resistance on biological nitrogen fixation and yield of soybean. Transgenic Research. 24: 155-165.

  79. Helene, L.C.F., Delamuta, J.R.M., Ribeiro, R.A., Ormeno-Orrillo, E., Rogel, M.A., Martinez-Romero, E., and Hungria, M. 2015. Bradyrhizobium viridifuturi sp. nov., encompassing nitrogen-fixing symbionts of legumes used for green manure and environmental services. International Journal of Systematic Evolutionary Microbiology. 65: 4441-4448.

  80. Delamuta, J.R.M., Ribeiro, R.A., Ormeno-Orrillo, E., Parma, M.M., Melo, I.S., Martinez-Romero, E., and Hungria, M. 2015. Bradyrhizobium tropiciagri sp. nov., and Bradyrhizobium embrapense sp. nov., nitrogen-fixing symbionts of tropical forage legumes. International Journal of Systematic Evolutionary Microbiology. 65: 4424-4433.

  81. del Cerro, P., Rolla-Santos, A.A.P., Gomes, D.F., Marks, B.B., Perez-Montano, F., Rodriguez-Carvajal, M.A., Nakatani, A.S., Gil-Serrano, A, Megias, M., Ollero, F.J., and Hungria, M. 2015. Regulatory nodD1 and nodD2 genes of Rhizobium tropici strain CIAT 899 and their roles in the early stages of molecular signaling and host-legume nodulation. BMC Genomics. 16: 251.

  82. del Cerro, P., Rolla-Santos, A.A.P., Gomes, D.F., Marks, B.B., Espuny, M.R., Rodriguez-Carvajal, M.A., Soria-Diaz, E., Nakatani, A.S., Hungria, M., Ollero, F.J., and Megias, M. 2015. Opening the "black box" of nodD3, nodD4 and nodD5 genes of Rhizobium tropici strain CIAT 899. BMC Genomics. 16: 864.

  83. Chibeba, A.M., Guimaraes, M.F., Brito, O.R., Araujo, R.S., Nogueira, M.A., and Hungria, M. 2015. Co-inoculation of soybean with Bradyrhizobium and Azospirillum promotes early nodulation. American Journal of Plant Sciences. 6: 1641-1649.

  84. Azevedo, H., Lopes, F.M., Silla, P.R., and Hungria, M. 2015. A database for the taxonomic and phylogenetic identification of the Bradyrhizobium genus by using multilocus sequence analysis. BMC Genomics. 16(5): S10.

    85. 2014

  85. Zuleta, L.F.G., Cunha, C.O., Carvalho, F.M., Almeida, L.G.P., Clapina, L.P., Souza, R.C., Mercante, F.M., Faria, S.M., Baldani, J.I., Hungria, M., and Vasconcelos, A.T.R. 2014. The complete genome of Burkholderia phenoliruptrix strain BR3459a, a symbiont of Mimosa flocculosa: highlighting the coexistence of symbiotic and pathogenic genes. BMC Genomics. 15: 535.

  86. Szilagyi-Zecchin, V.J., Ikeda, A.C., Hungria, M., Adamoski, D., Kava-Cordeiro, V., Glienke, C., and Galli-Terasawa, L. 2014. Identification and characterization of endophytic bacteria from corn (Zea mays L.) roots with biotechnological potential in agriculture. Applied Microbiology and Biotecnology Express. 4: 26.

  87. Siqueira, A.F., Ormeno-Orrillo, E., Souza, R.C., Rodrigues, E.P., Almeida, L.G.P., Barcellos, F.G., Bastista, J.S.S., Nakatani, A.S., Martinez-Romero, E., Vasconcelos, A.T.R., and Hungria, M. 2014. Comparative genomics of Bradyrhizobium japonicum CPAC 15 and Bradyrhizobium diazoefficiens CPAC 7: elite model strains for understanding symbiotic performance with soybean. BMC Genomics. 15: 420-440.

  88. da Silva, A.P., Babujia, L.C., Franchini, J.C., Ralisch, R., Hungria, M., and Guimaraes, M.F. 2014. Soil structure and its influence on microbial biomass in different soil and crop management systems. Soil and Tillage Research. 147: 42-53.

  89. Pylro, V.S., Wurdig-Roesch, L.E., Ortega, J.M., Morais do Amaral, A., Rogerio-Totola, M., Hirsch, P.R., Soares-Rosado, A., Goes-Neto, A., da-Costa da-Silva, A.L., Rosa, C.A., Kumazawa-Morais, D., Dini-Andreote, F., Frois-Duarte, G., Soares de-Melo, I., Seldin, L., Rodrigues-Lambais, M., Hungria, M., Silva-Peixoto, R., Henrique-Kruger, R., Mui-Tsai, S., and Azevedo, V. 2014. Brazilian microbiome project: revealing the unexplored microbial diversity?challenges and prospects. Microbial Ecology. 67: 237-241.

  90. Nakatani, A.S., Fernandes, M.F., Souza, R.A., Silva, A.P., Reis-Junior, M.F., Mendes, I.C., and Hungria, M. 2014. Effects of glyphosate-resistant gene and herbicides applied to the soybean crop on soil microbial biomass and enzymes. Field Crops Research. 162: 20-29.

  91. Hungria, M., Mendes, I.C., Nakatani, A.S, Reis-Junior, F.B., Moraes, J.Z., Oliveira, M.C., and Fernandes, M.F. 2014. Effects of glyphosate-resistant gene and herbicides on soybean crop: I. Field trials monitoring biological nitrogen fixation and yield. Field Crops Research. 158: 43-54.

  92. Hungria, M., and Kaschuk, G. 2014. Regulation of N2 fixation and NO3-/NH4+ assimilation in nodulated and N-fertilized Phaseolus vulgaris L. exposed to high-temperature stress. Environmental and Experimental Botany. 98: 32-39.

  93. Gomes, D.F., Batista, J.S.S., Rolla, A.A., Silva, L.P., Bloch, C., Galli-Terasawa, L.V., and Hungria, M. 2014. Proteomic analysis of free-living Bradyrhizobium diazoefficiens: highlighting potential determinants of a successful symbiosis. BMC Genomics. 15: 643.

  94. de Luca, M.J., Nogueira, M.A., and Hungria, M. 2014. Feasibility of lowering soybean planting density without compromising nitrogen fixation and yield. Agronomy Journal. 106: 2118-2124.

  95. de Luca, M.J., and Hungria, M. 2014. Plant densities and modulation of symbiotic nitrogen fixation in soybean. Scientia Agricola. 71: 181-187.

  96. Dall Agnol, R.F., Ribeiro, R.A., Delamuta, J.R.M., Ormeno-Orrillo, E., Rogel, M.A., Andrade, D.S., Martinez-Romero, E., and Hungria, M. 2014. Rhizobium paranaense sp. nov., an effective N2-fixing symbiont of common bean (Phaseolus vulgaris L.) with broad geographical distribution in Brazil. International Journal of Systematic and Evolutionary Microbiology. 64: 3222-3229.

  97. Cerezini, P., Pipolo, A.E., Hungria, M., and Nogueira, M.A. 2014. Gas exchanges and biological nitrogen fixation in soybean under water restriction. American Journal of Plant Sciences. 5: 4010-4017.

    98. 2013

  98. Torres, A.R., Rodrigues, E.P., Batista, J.S.S., Gomes, D.F., and Hungria, M. 2013. Proteomic analysis of soybean (Glycine max (L.) Merrill) roots inoculated with Bradyrhizobium japonicum strain CPAC 15. Proteomic Insights. 6: 7-11.

  99. Torres, A.R., Araujo, W.L., Cursino, L., Rossetto, P.B., Mondin, M., Hungria, M., and Azevedo, J.L. 2013. Colonization of Madagascar periwinkle (Catharantus roseus) by endophytes encoding gfp and their effect on indigenous endophytic community. Archives of Microbiology. 195: 483-489.

  100. Souza, R.C., Cantao, M.E., Vasconcelos, A.T.R., Nogueira, M.A., and Hungria, M. 2013. Soil metagenomics reveals differences under conventional and no-tillage with crop rotation or succession. Applied Soil Ecology. 72: 49-61.

  101. Souza, R.A., Babujia, L.C., Silva, A.P., Guimaraes, M.F., Arias, C.A., and Hungria, M. 2013. Impact of the ahas transgene and of herbicides associated with the soybean crop on soil microbial community. Transgenic Research. 22: 877-892. DOI: 10.1007/s11248-013-9691-x.

  102. Silva, A.P., Babujia, L.C., Matsumoto, L.S., Guimaraes, M.F., and Hungria, M. 2013. Bacterial diversity under different soil tillage and crop rotation systems in an oxisol of southern Brazil. The Open Agriculture Journal. 7: 40-47.

  103. Santos, M.A., Geraldi, I.O., Garcia, A.A.F., Bortolatto, N., Schiavon, A., and Hungria, M. 2013. Mapping of QTLs associated with biological nitrogen fixation traits in soybean. Hereditas. 150: 17-25.

  104. Ribeiro, R.A., Ormeno-Orrillo, E., Dall?agnol, R.F., and Graham, P.H., Martinez-Romero, E., and Hungria, M. 2013. Novel Rhizobium lineages isolated from root nodules of common bean (Phaseolus vulgaris L.) in Andean and Mesoamerican areas. Research in Microbiology. 164: 740-748.

  105. Oliveira, L.R., Rodrigues, E.P., Marcelino-Guimaraes, F.C., Oliveira, A.L.M., and Hungria, M. 2013. Fast induction of biosynthetic polysaccharide genes lpxA, lpxE and rkpI of Rhizobium sp. strain PRF 81 by common-bean seed exudates is indicative of a key role in the symbiosis. Functional and Integrative Genomics. 13: 275-283.

  106. Marks, B.B., Megias, M., Nogueira, M.A., and Hungria, M. 2013. Biotechnological potential of rhizobial metabolites to enhance the performance of Bradyrhizobium japonicum and Azospirillum brasilense inoculants with the soybean and maize crops. Applied Microbiology and Biotechnology Express. 3: 21.

  107. Ikeda, A., Bassani, L.L., Adamoski, D., Stringari, D., Cordeiro, V.K., Glienke, C., Steffens, M.B.R., Hungria, M., and Galli-Terasawa, L.V. 2013. Morphological and genetic characterization of endophytic bacteria isolated from roots of different maize genotypes. Microbial Ecology. 65: 154-160.

  108. Hungria, M., Nogueira, M.A., and Araujo, R.S. 2013. Co-inoculation of soybeans and common beans with rhizobia and azospirilla: strategies to improve sustainability. Biology and Fertility of Soils. 49: 791-801.

  109. Delamuta, J.R.R., Ribeiro, R.A., Ormeno-Orrilho, E., Melo, I.S., Martinez-Romero, E., and Hungria, M. 2013. Polyphasic evidence supporting the reclassification of Bradyrhizobium japonicum Group Ia strains as Bradyrhizobium diazoefficiens sp. nov. International Journal of Systematic and Evolutionary Microbiology. 63: 3342-3351.

  110. Dall?Agnol, R.F., Ribeiro, R.A., Ormeno-Orrillo, E., Rogel, M.A., Delamuta, J.R.M., Andrade, D.S., Martinez-Romero, E., and Hungria, M. 2013. Rhizobium freirei, a symbiont of Phaseolus vulgaris very effective in fixing nitrogen. International Journal of Systematic and Evolutionary Microbiology. 63: 4167-4173.

  111. Carvalho, G.A.B., Batista, J.S.S., Marcelino-Guimaraes, F.C., Costa Nascimento, L., and Hungria, M. 2013. Transcriptional analysis of genes involved in nodulation in soybean roots inoculated with Bradyrhizobium japonicum strain CPAC 15. BMC Genomics. 14: 153.

    112. 2012

  112. Torres, A.R., Kaschuk, G., Saridakis, G.P., and Hungria, M. 2012. Genetic variability in Bradyrhizobium japonicum strains nodulating soybean [Glycine max( L.) Merrill]. World Journal of Microbiology and Biotechnology. 28: 1831-1835.

  113. Souza, R.A., Telles, T.S., Castro, W.M., Hungria, M., Tavares Filho, J., and Guimaraes, M.F. 2012. Effects of sugarcane harvesting with burning on the chemical and microbiological properties of the soil. Agriculture, Ecosystems and Environment. 155: 1-6.

  114. Salvucci, R.D., Aulicino, M., Hungria, M., and Balatti, P.A. 2012. Nodulation capacity of Argentinian soybean (Glycine max L. Merr.) cultivars inoculated with commercial strains of Bradyrhizobium japonicum. American Journal of Plant Sciences. 3: 130-140. DOI: 10.4236/ajps.2012.31015.

  115. Rodrigues, E.P., Torres, A.R., Batista, J.S.S., Huergo, L., and Hungria, M. 2012. A simple, economical and reproducible protein extraction protocol for 2-DE of soybean roots. Genetics and Molecular Biology. 35(1): 348-352.

  116. Ribeiro, R.A., Rogel, M.A., Lopez-Lopez, A., Ormeno-Orrillo, E., Barcellos, F.G., Martinez, J., Thompson, F.L., Mart?nez-Romero, E., and Hungria, M. 2012. Reclassification of Rhizobium tropici type A strains as Rhizobium leucaenae sp. nov. International Journal of Systematic and Evolutionary Microbiology. 62: 1180-1185.

  117. Ormeno-Orrillo, E., Menna, P., Almeida, L.G.P., Ollero, F.J., Nicolas, M.F., Rodrigues, E.P., Nakatami, A.S., Batista, J.S.S., Chueire, L.M.O., Souza, R.C., Vasconcelos, A.T.R., Megias, M., Hungria, M., and Martinez-Romero, E. 2012. Genomic basis of broad host range and environmental adaptability of Rhizobium tropici CIAT 899 and Rhizobium sp. PRF 81 which are used in inoculants for common bean (Phaseolus vulgaris L.). BMC Genomics. 13: 735.

  118. Kaschuk, G., Yin, X., Hungria, M., Leffelaar, P.A., Giller, K.E., and Kuyper, T.W. 2012. Photosynthetic adaptation of soybean due to varying effectiveness of N2 fixation by two distinct Bradyrhizobium japonicum strains. Environmental and Experimental Botany. 76: 1-6.

  119. Gomes, D.F., Batista, J.S.S., Torres, A.R.., Andrade, D.S., Galii-Terasawa, L.V., and Hungria, M. 2012. Two-dimensional proteome reference map of Rhizobium tropici PRF 81 reveals several symbiotic determinants and strong resemblance with agrobacteria. Proteomics. 12: 1-5.

  120. Gomes, D.F., Batista, J.S.S., Schiavon, A.L., Andrade, D.S., and Hungria, M. 2012. Proteomic profiling of Rhizobium tropici PRF 81: Identification of conserved and specific responses to heat stress. BMC Microbiology. 12: 84.

  121. Delamuta, J.R.M., Ribeiro, R.A., Menna, P., Bangel, E.V., and Hungria, M. 2012. Multilocus sequence analysis (MLSA) of Bradyrhizobium strains: revealing high diversity of tropical diazotrophic symbiotic bacteria. Brazilian Journal of Microbiology. 43(2): 698-710.

  122. Cardoso, J.D., Hungria, M., and Andrade, D.S. 2012. Polyphasic approach for the characterization of rhizobial symbionts effective in fixing N2 with common bean (Phaseolus vulgaris L.). Applied Microbiology and Biotechnology. 93: 2035-2049.

  123. Black, M., Moolhuijzen, P., Chapman, B., Barrero, R., Howieson, J., Hungria, M., and Bellgard, M. 2012. The genetics of symbiotic nitrogen fixation: comparative genomics of 14 rhizobia strains by resolution of protein clusters. Genes. 3(1): 138-166.

  124. Batista, J.S.S., and Hungria, M. 2012. Proteomics reveals differential expression of proteins related to a variety of metabolic pathways by genistein-induced Bradyrhizobium japonicum strains. Journal of Proteomics. 75: 1211-1219.

    125. 2011

  125. Pedrosa, F.O. et al. 2011. Genome of Herbaspirillum seropedicae strain SmR1, a specialized diazotrophic endophyte of tropical grasses. PLoS Genetics. 7(5): e1002064.

  126. Oliveira, J.P., Galli-Terasawa, L.V., Glienke, C., Cordeiro, V.K., Armstrong, L.C.T., and Hungria, M. 2011. Genetic diversity of rhizobia in a Brazilian oxisol nodulating Mesoamerican and Andean genotypes of common bean (Phaseolus vulgaris L.). World Journal of Microbiology and Biotechnology. 27: 643-650.

  127. Menna, P., and Hungria, M. 2011. Phylogeny of nodulation and nitrogen fixation genes in Bradyrhizobium: support for the theory of monophyletic origin and spread and maintenance by both horizontal and vertical transference. International Journal of Systematic and Evolutionary Microbiology. 61: 3052-3057.

  128. Kaschuk, G., Alberton, O., Hungria, M. 2011. Quantifying effects of different agricultural land uses on soil microbial biomass and activity in Brazilian biomes: inferences to improve soil quality. Plant Soil. 338: 467-481.

    129. 2010

  129. Silva, A.P., Franchini, J.C., Babujia, L.C., Souza, R.A., and Hungria, M. 2010. Microbial biomass under different soil and crop managements in short- to long-term experiments performed in Brazil. Field Crops Research. 119: 20-26.

  130. Roma Neto, I., Ribeiro, R.A., and Hungria, M. 2010. Genetic diversity of elite rhizobial strains of subtropical and tropical legumes based on the 16S rRNA and glnII genes. World Journal of Microbiology and Biotechnology. 22: 1291-1302.

  131. Oliveira, L.R., Marcelino, F.C., Barcellos, F.G., Rodrigues, E.P., Megias, M., Hungria, M. 2010. The nodC, nodG, and glgX genes of Rhizobium tropici strain PRF 81. Functional Integrative Genomics. 10: 425-431.

  132. Kaschuk, G., Leffelaar, P.A., Giller, K.E., Alberton, O., Hungria, M., and Kuyper, T.W. 2010. Responses of grain legumes to rhizobia and arbuscular mycorrhizal fungi: a meta-analysis of potential photosynthate limitation of symbioses. Soil Biology and Biochemistry. 42: 125-127.

  133. Kaschuk, G., Hungria, M., Leffelaar, P.A., Giller, K.E., and Kuyper, T.W. 2010. Differences in photosynthetic behaviour and leaf senescence of soybean (Glycine max [L.] Merrill) dependent on N2 fixation or nitrate supply. Plant Biology. 12: 60-69.

  134. Kaschuk, G., Alberton, O., and Hungria, M. 2010. Three decades of soil microbial biomass studies in Brazilian ecosystems: lessons learned about soil quality and indications for improving sustainability. Soil Biology and Biochemistry. 42: 1-13.

  135. Hungria, M., Campo. R.J., Souza, E.M., and Pedrosa, F.O. 2010. Inoculation with selected strains of Azospirillum brasilense and A. lipoferum improves yields of maize and wheat in Brazil. Plant Soil. 331: 413-425.

  136. Carvalho, F.M., Souza, R.C., Barcellos, F.G., Hungria, M., and Vasconcelos, A.T.R. 2010. Genomic and evolutionary comparisons of diazotrophic and pathogenic bacteria of the order Rhizobiales. BMC Microbiology. 10: 37.

  137. Batista, J.S.S., Torres, A.R., HungriaA, M. 2010. Towards a two-dimensional proteomic reference map of Bradyrhizobium japonicum CPAC 15: spotlighting on ?hypothetical proteins?. Proteomics. 10: 3176?3189.

  138. Babujia, L.C., Hungria, M., Franchini, J.C., and Brookes, P.C. 2010. Microbial biomass and activity at various soil depths in a Brazilian oxisol after two decades of no-tillage and conventional tillage. Soil Biology and Biochemistry. 42: 2174-2181.

    139. 2009

  139. Cardoso, J.D., Gomes, D.F., Goes, K.C., Fonseca, N.D.S., Dorigo, O.F., Hungria, M., and Andrade, D.S. 2009. Relationship between total nodulation and nodulation at the root crown of peanut, soybean and common bean plants. Soil Biology and Biochemistry. 41(8): 1760-1763.

  140. Ribeiro, R.A., Barcellos, F.G., Thompson, F.L., and Hungria, M. 2009. Multilocus sequence analysis of Brazilian Rhizobium strains microsymbionts of common beans (Phaseolus vulgaris) reveals unexpected taxonomic diversity. Research in Microbiology. 160: 297-306.

  141. Pinto, F.G.S., Chueire, L.M.O., Vasconcelos, A.T.R., Nicolas, M.F., Almeida, L.G.P., Souza, R.C., Menna, P., Barcellos, F.G., Megias, M., and Hungria, M. 2009. Novel genes related to nodulation, secretion systems, and surface structures revealed by a genome draft of Rhizobium tropici strain PRF 81. Functional and Integrative Genomics. 9: 263-270.

  142. Menna, P., Pereira, A.A., Bangel, E.V., and Hungria, M. 2009. rep-PCR of tropical rhizobia for strain fingerprinting, biodiversity appraisal and as a taxonomic and phylogenetic tool. Symbiosis. 48: 120-130.

  143. Menna, P., Barcellos, F.G., and Hungria, M. 2009. Phylogeny and taxonomy of a diverse collection of Bradyrhizobium strains based on multilocus sequence analysis of 16S rRNA, ITS, glnII, recA, atpD and dnaK genes. International Journal of Systematic and Evolutionary Microbiology. 59: 2934-2950.

  144. Kaschuk, G., Kuyper, T.W., Leffelaar, P.A., Hungria, M., and Giller, K.E. 2009. Are the rates of photosynthesis stimulated by the carbon sink strength of rhizobial and arbuscular mycorrhizal symbioses?. Soil Biology and Biochemistry. 41: 1233-1244.

  145. Campo, R.J., Araujo, R.S., and Hungria, M. 2009. Nitrogen fixation with the soybean crop in Brazil: compatibility between seed treatment with fungicides and bradyrhizobial inoculants. Symbiosis. 48: 154-163.

  146. Campo, R.J., Araujo, R.S., and Hungria, M. 2009. Molybdenum-enriched soybean seeds enhance N accumulation, seed yield, and seed protein content in Brazil. Field Crops Research. 110:219-224.

  147. Torres, A.R., Cursino, L., Muro-Abad, J.I., Gomes, E.A., Araujo, E.F.D., Hungria, M., and Cassini, S.T.A. 2009. Genetic diversity of indigenous common bean (Phaseolus vulgaris L.) rhizobia from the state of Minas Gerais, Brazil. Brazilian Journal of Microbiology. 40(4): 852-856.

  148. Hungria, M., Franchini, J.C., Brandao-Junior, O., Kaschuk, G., and Souza, R.A. 2009. Soil microbial activity and crop sustainability in a long-term experiment with three soil-tillage and two crop-rotation systems. Applied Soil Ecology. 42(3): 288-296.

  149. Binde, D.R., Menna, P., Bangel, E.V., Barcellos, F.G., and Hungria, M. 2009. rep-PCR fingerprinting and taxonomy based on the sequencing of the 16S rRNA gene of fifty-four elite commercial rhizobial strains. Applied Microbiology and Biotechnology. 83: 897-908.

  150. Barcellos, F.G., Batista, J.S.S., Menna, P., and Hungria, M. 2009. Genetic differences between Bradyrhizobium japonicum variant strains contrasting in N2-fixation efficiency revealed by representational difference analysis. Archives of Microbiology. 191: 113-122.

    151. 2008

  151. Torres, A.R., Araujo, W.L., Cursino, L., Hungria, M., Plotegher, F., Mostasso, F.L., and Azevedo, J.L. 2008. Diversity of endophytic enterobacteria associated with different host plants. The Journal of Microbiology. 46(4): 373-379.

  152. Godoy, L.P., Vasconcelos, A.T.R., Chueire, L.M.O., Souza, R.C., Nicolas, M.F., Barcellos, F.G., and Hungria, M. 2008. Genomic panorama of Bradyrhizobium japonicum CPAC 15, a commercial inoculant strain largely established in Brazilian soils and belonging to the same serogroup as USDA 123. Soil Biology and Biochemistry. 40: 2742-2753.

  153. Barreto, E.S., Torres, A.R., Barreto, M.R., Vasconcelos, A.T.R., Astolfi-Filho, S., and Hungria, M. 2008. Diversity in antifungal activity of strains of Chromobacterium violaceum from the Brazilian Amazon. Journal of Industrial Microbiology and Biotechnology. 35: 783-790.

    154. 2007

  154. Pinto, F.G.S., Hungria, M., and Mercante, F.M. 2007. Polyphasic characterization of Brazilian Rhizobium tropici strains effective in fixing N2 with common bean (Phaseolus vulgaris L.). Soil Biology and Biochemistry. 39: 1851-1864.

  155. Loureiro, M.F., Kaschuk, G., Alberton, O., and Hungria, M. 2007. Soybean (Glycine max (L.) Merrill) rhizobial diversity in Brazilian oxisols under various soil, cropping, and inoculation managements. Biology and Fertility Soils. 43: 665-674.

  156. Grange, L., Hungria, M., Graham, P.H., and Martinez-Romero, E. 2007. New insights sinto the origins and evolution of rhizobia that nodulate common bean (Phaseolus vulgaris) in Brazil. Soil Biology and Biochemistry. 39: 867-876.

  157. Franchini, J.C., Crispino, C.C., Souza, R.A., Torres, E., and Hungria, M. 2007. Microbiological parameters as indicators of soil quality under various soil management and crop rotation systems in southern Brazil. Soil Tillage Research. 92: 18:19.

  158. Batista, J.S.S., Hungria, M., Barcellos, F.G., Ferreira, M.C., and Mendes, I.C. 2007. Variability in Bradyrhizobium japonicum and B. elkanii seven years after introduction of both the exotic microsymbiont and the soybean host in a Cerrados soil. Microbial Ecology. 53: 270-284.

  159. Barcellos, F.G., Menna, P., Batista, J.S.S., and Hungria, M. 2007. Evidence of horizontal transfer of symbiotic genes from a Bradyrhizobium japonicum inoculant strain to indigenous Sinorhizobium (Ensifer) fredii and Bradyrhizobium elkanii in a Brazilian savannah soil. Applied and Environmental Microbiology. 73(8): 2635-2643.

    160. 2006

  160. Nogueira, M.A., Albino, U.B., Brandao-Junior, O., Braun, G., Cruz, M.F., Dias, B.A., Duarte, R.T.D., Gioppo, N.M.R., Menna, P., Orlandi, J.M., Raiman, M.P., Rampazo, L.G.L., Santos, M.A., Silva, M.E.Z., Vieira, F.P., Torezan, J.M.D., Hungria, M., and Andrade, G. 2006. Promising indicators for assessment of agroecosystems alteration among natural, reforested and agricultural land use in southern Brazil. Agriculture Ecosystems and Environment. 115(1-4): 237-247.

  161. Nicolas, M.F., ,Hungria, M., and Arias, C.A.A. 2006. Identification of quantitative trait loci controlling nodulation and shoot mass in progenies from two Brazilian soybean cultivars. Field Crops Research. 95: 355-366.

  162. Menna, P., Hungria, M., Barcellos, F.G., Bangel, E.V., Hess, P.N., and Martinez-Romero, E. 2006. Molecular phylogeny based on the 16S rRNA gene of elite rhizobial strains used in Brazilian commercial inoculants. Systematic and Applied Microbiology. 29: 315-332.

  163. Kaschuk, G., Hungria, M., Santos, J.C.P., and Berton-Junior, J.F. 2006. Differences in common bean rhizobial populations associated with soil tillage management in southern Brazil. Soil Tillage Research. 87: 205-217.

  164. Kaschuk, G., Hungria, M., Andrade, D.S., and Campo, R.J. 2006. Genetic diversity of rhizobia associated with common bean grown under the no-tillage and conventional systems in South Brazil. Applied Soil Ecology. 32: 210-220.

  165. Hungria, M, Chueire, L.M.O., Megias, M., Lamrabet, Y., Probanza, A., Guttierrez-Manero, F.J., and Campo, R.J. 2006. Genetic diversity of indigenous tropical fast-growing rhizobia isolated from soybean nodules. Plant Soil. 288: 343-356.

  166. Hungria, M., Franchini, J.C., Campo, R.J., Crispino, C.C., Moraes, J.Z., Sibaldelli, R.N.R., Mendes, I.C., Arihara, J. 2006. Nitrogen nutrition of soybean in Brazil: contributions of biological N2 fixation and of N fertilizer to grain yield. Canadian Journal of Plant Science. 86: 927-939.

  167. Germano, M.G., Menna, P., Mostasso, F.L., and Hungria, M. 2006. RFLP analysis of the RNA operon of a Brazilian collection of bradyrhizobial strains from 33 legume species. International Journal of Systematic and Evolutionary Microbiology. 56:217-229.

  168. Albino, U., Saridakis, D.P., Ferreira, M.C., Hungria, M., Vinuesa, P., and Andrade, G. 2006. High diversity of diazotrophic bacteria associated with the carnivorous plant Drosera villosa var. villosa growing in oligotrophic habitats in Brazil. Plant Soil. 287(2): 199-207.

  169. Alberton, O., Kaschuk, G., and Hungria, M. 2006. Sampling effects on the assessment of genetic diversity of rhizobia associated with soybean and common bean. Soil Biology and Biochemistry. 38: 1298-1307.

    170. 2005

  170. Hungria, M., Astolfo-Filho, S., Chueire, L.M.O., Nicolas, M.F., Santos, E.B.P., Bulbol, M.R., Souza-Filho, A., Nogueira Assuncao, E., Germano, M.G., and Vasconcelos, A.T.R. 2005. Genetic characterization of Chromobacterium isolates from black water environments in the Brazilian Amazon. Letters in Applied Microbiology. 41: 17-23.

  171. Araujo, F.F., Henning, A.A., and Hungria, M. 2005. Phytohormones and antibiotics produced by Bacillus subtilis and their effects on seed pathogenic fungi and on soybean root development. World Journal of Microbiology and Biotechnology. 21(8-9): 1637-1642.

    172. 2004

  172. Hungria, M., Nicolas, M.F., Guimaraes, C.T., Jardim, S.N., Gomes, E.A., and Vasconcelos, A.T.R. 2004. Tolerance to stress and environmental adaptability of Chromobacterium violaceum. Genetics and Molecular Research. 3(1): 102-16.

  173. Mendes, I.C., Vargas, M.A.T., and Hungria, M. 2004. Establishment of Bradyrhizobium japonicum and B. elkanii in a Brazilian Cerrados oxisol. Biology and Fertility Soils. 3(1): 102-16.

  174. Grange, L., and Hungria, M. 2004. Genetic diversity of indigenous common bean (Phaseolus vulgaris) rhizobia in two Brazilian ecosystems. Soil Biology and Biochemistry. 36: 1389-1398.

    175. 2003

  175. Vasconcelos, A.T.R, Almeida, D.F., Hungria, M., et al. 2003. The complete genome sequence of Chromobacterium violaceum reveals remarkable and exploitable bacterial adaptability. Proceedings of the National Academy of Sciences of the USA. 100: 11660-11665.

  176. Mendes, I.C., Hungria, M., and Vargas, M.A.T. 2003. Soybean response to starter nitrogen and Bradyrhizobium inoculation on a Cerrado oxisol under no-tillage and conventional tillage systems. Revista Brasileira de Ciencia do Solo. 27:81-87.

  177. Hungria, M., Campo, R.J., and Mendes, I.C. 2003. Benefits of inoculation of the common bean (Phaseolus vulgaris) crop with efficient and competitive Rhizobium tropici strains. Biology and Fertility Soils. 39: 88-93.

  178. Galli-Terasawa, L.V., Glienke-Blanco, C., and Hungria, M. 2003. Diversity of soybean rhizobial population adapted to a Cerrados soil. World Journal of Microbiology and Biotechnology. 19(9): 933-939.

    179. 2002

  179. Nicolas, M.F., Arias, C.A.A., and Hungria, M. 2002. Genetics of nodulation and nitrogen fixation in Brazilian soybean cultivars. Biology and Fertility Soils. 36: 109-117.

  180. Mostasso, L., Mostasso, F.L., Dias, B.G., Vargas, M.A.T., and Hungria, M. 2002. Selection of bean (Phaseolus vulgaris L.) rhizobial strains for the Brazilian Cerrados. Field Crops Research. 73: 121-132.

  181. Ferreira, M.C., and Hungria, M. 2002. Recovery of soybean inoculant strains from uncropped soils in Brazil. Field Crops Research. 79: 139-152.

  182. Chen, L.S., Figueredo, A., Villani, H., Michajluk, J., and Hungria, M. 2002. Diversity and symbiotic effectiveness of rhizobia isolated from field-grown soybean in Paraguay. Biology and Fertility Soils. 35: 448-457.

    183. 2001

  183. Hungria, M., Chueire, L.M.O., Coca, R.G., and Megias, M. 2001. Preliminary characterization of fast growing strains isolated from soybean nodules in Brazil. Soil Biolology and Biochemistry. 33 (19): 1349-1361.

  184. Hungria, M., Campo, R.J., Chueire, L.M.O., Grange, L., and Megias, M. 2001. Symbiotic effectiveness of fast-growing rhizobial strains isolated from soybean nodules in Brazil. Biology and Fertility Soils. 33: 387-394.

    185. 2000

  185. Hungria, M., and Bohrer, T.R.J. 2000. Variability of nodulation and dinitrogen fixation capacity among soybean cultivars. Biology and Fertility Soils. 31: 45-52.

  186. Vargas, M.A.T., Mendes, I.C., and Hungria, M. 2000. The response of field grown Phaseolus vulgaris to Rhizobium inoculation and nitrogen fertilization in two Cerrado soils. Biology and Fertility Soils. 32(3): 228-233.

  187. Hungria, M., Andrade, D.S., Chueire, L.M. de O., Probanza, A., Guttierrez-Manero, F.J., and Megias, M. 2000. Isolation and characterization of new efficient and competitive bean (Phaseolus vulgaris L.) rhizobia from Brazil. Soil Biology and Biochemistry. 32: 1515-1528.

  188. Hungria, M., and Vargas, M.A.T. 2000. Environmental factors impacting N2 fixation in legumes grown in the tropics, with an emphasis on Brazil. Field Crops Research. 65: 151-164.

  189. Ferreira, M.C., Andrade, D.S., Chueire, L.M.O., Takemura, S.M., and Hungria, M. 2000. Tillage method and crop rotation effects on the population sizes and diversity of bradyrhizobia nodulating soybean. Soil Biology and Biochemistry. 32: 627-637.

  190. Chen, L.S., Figueredo, A., Pedrosa, F.O., and Hungria, M. 2000. Genetic characterization of soybean rhizobia in Paraguay. Applied and Environmental Microbiology. 66: 5099-5103.

    191. 1999

  191. Santos, M.A., Vargas, M.A.T., and Hungria, M. 1999. Characterization of soybean Bradyrhizobia strains adapted to the Brazilian savannas. FEMS Microbiology Ecology. 30: 261-272.

    192. 1998

  192. Hungria, M., Boddey, L.H., Santos, M.A., and Vargas, M.A.T. 1998. Nitrogen fixation capacity and nodule occupancy by Bradyrhizobium japonicum and B. elkanii strains. Biology and Fertility of Soils. 27: 393-399.

    193. 1997

  193. Vargas, M.A.T., and Hungria, M. 1997. Biologia dos Solos do Cerrado. Planaltina: EMBRAPA-Cerrados. 524 pp. (PDF is available from the author)

  194. Hungria, M., and Stacey, G. 1997. Molecular signals exchanged between host plants and rhizobia: Basic aspects and potential application in agriculture. Soil Biology and Biochemistry. 29:819-830.

  195. Chueire, L.M.O., and Hungria, M. 1997. N2-fixation ability of Brazilian soybean cultivars with Sinorhizobium fredii and Sinorhizobium xinjiangensis. Plant and Soil. 196: 1-5.

  196. Boddey, L.H., and Hungria, M. 1997. Phenotypic grouping of Brazilian Bradyrhizobium strains which nodulate soybean. Biology and Fertility of Soils. 25: 407-415.

    197. 1996

  197. Nishi, C.Y.M., Boddey, L.H., Vargas, M.A.T., and Hungria, M. 1996. Morphological, physiological and genetic characterization of two new Bradyrhizobium strains recently recommended as Brazilian commercial inoculants for soybean. Symbiosis. 20: 147-162.

  198. Hungria, M., Nishi, C.Y.M., Cohn, J., and Stacey, G. 1996. Comparison between parental and variant soybean Bradyrhizobium strains with regard to the production of lipo-chitin nodulation signals, early stages of root infection, nodule occupancy, and N2 fixation rates. Plant and Soil. 186(2): 331-341.

    199. 1993

  199. Hungria, M., Franco, A.A and Sprent, J.I. 1993. New sources of high-temperature tolerant rhizobia for Phaseolus vulgaris L. Plant and Soil. 149: 103-109.

  200. Hungria, M., Ellis, J.M., Hardy, R.W.F., and Eaglesham, A.R.J. 1993. Light-stimulated 14CO2 uptake and acetylene reduction by bacteriochlorophyll containing stem nodule isolate BTAi1. Biology and Fertility of Soils. 15: 208-214.

  201. Hungria, M., and Phillips, D.A. 1993. Effects of a seed color mutation on rhizobial nod-Gene-inducing flavonoids and nodulation in common bean. Molecular Plant-Microbe Interactions Journal. 6(4): 418-422.

  202. Hungria, M., and Franco, A.A. 1993. Effects of high temperatures on nodulation and N2 fixation by Phaseolus vulgaris L. Plant and Soil. 6(4): 418-422.

    203. 1992

  203. Hungria, M., Johnston, A.W.B., and Phillips, D.A. 1992. Effects of flavonoids released naturally from bean (Phaseolus vulgaris) on nodD-regulated gene transcription in Rhizobium leguminosarum bv. phaseoli. Molecular Plant-Microbe Interactions. 5: 199-203.

  204. Hungria, M., Eaglesham, A.R.J., and Hardy, R.W.F. 1992. Physiological comparisons of root and stem nodules of Aeschynomene scabra and Sesbania rostrata. Plant and Soil. 139: 7-13.

    205. 1991

  205. Hungria, M., Joseph, C.M., and Phillips, D.A. 1991. Rhizobium nod-Gene inducers exuded naturally from roots of common bean (Phaseolus vulgaris L.). Plant Physiology. 97: 759-764.

  206. Hungria, M., Joseph, C.M., and Phillips, D.A. 1991. Anthocyanidins and flavonols, major nod-Gene inducers from seeds of a black-seeded common bean (Phaseolus vulgaris L.). Plant Physiology. 97: 751-758.

  207. Hungria, M., Barradas, C.A.A., and Wallsgrove, R.M. 1991. Nitrogen fixation, nitrogen assimilation and transport during the initial growth stage of Phaseolus vulgaris L. Journal of Experimental Botany. 42(240): 839-844.

    208. 1989

  208. Hungria, M., Neves, M.C.P., and Dobereiner, J. 1989. Relative efficiency, ureide transport and harvest index in soybeans inoculated with isogenic HUP mutants of Bradyrhizobium japonicum. Biology and Fertility of Soils. 7: 325-329.

  209. Hungria, M., and Ruschel, A.P. 1989. Acetylene reduction, hydrogen evolution and nodule respiration in Phaseolus vulgaris. Biology and Fertility of Soils. 7: 351-358.

    210. 1988

  210. Thomas, R.J., Hungria, M. 1988. Effect of potassium on nitrogen fixation, nitrogen transport and nitrogen harvest index of bean. Journal of Plant Nutrition. 11(2): 175-188.

  211. Hungria, M., and Franco, A.A. 1988. Nodule senescence in Phaseolus vulgaris L. Tropical Agriculture. 65(4): 341-346.

    212. 1987

  212. Hungria, M., and Thomas, R.J. 1987. Effects of cotyledons and nitrate on the nitrogen assimilation of Phaseolus vulgaris. MIRCEN Journal. 3: 411-419.

  213. Hungria, M., and Neves, M.C.P. 1987. Partitioning of nitrogen from biological fixation and fertilizer in Phaseolus vulgaris. Physiologia Plantarum. 69: 55-63.

  214. Hungria, M., and Neves, M.C.P. 1987. Cultivar and Rhizobium strain effect on nitrogen fixation and transport in Phaseolus vulgaris L. Plant and Soil. 103: 111-121.

  215. Neves, M.C.P., and Hungria, M. 1987. The physiology of nitrogen fixation in tropical grain legume. CRC Critical Reviews Plant Sciences. 6(3): 267-321.


Chapter in books

Items in the following list that are not available for download may be available upon request from the author. Please contact them directly for any such inquiry.

    2020

  1. Hungria, M. 2020. Coleção De Culturas De Microrganismos Multifuncionais : Embrapa Soja In: Bancos e coleções de germoplasma da Embrapa: Conservação e uso. documentos 371. page 147. ISSN 0102-0110.

  2. Prando, A.M., de Oliveira, A.B., de Lima, D., Possamai, E.J., Reis, E.A., Nogueira, M.A., Hungria, M., Conte, O. 2020. Coinoculação da soja com Bradyrhizobium e Azospirillum na safra 2019/2020 no Paraná In: Circular Técnica. 166. ISSN 2176-2864. Embrapa.

    3. 2019

  3. Prando, A.M., de Oliveira, A.B., de Lima, D., Possamai, E.J., Reis, E.A., Nogueira, M.A. Hungria, M., Harger, N., Conte, O. 2019. Coinoculação da soja com Bradyrhizobium e Azospirillum na safra 2018/2019 no Paraná In: Circular Técnica. 156. ISSN 1516-7860. Embrapa.

  4. Zilli, J.E., Hungria, M., de Barros Soares, L.H., Marques de Mello, S.C., de Oliveira, C.A., Batista de Castro, M.E., Tavares da Silva, J.B., da Silva, G.A., Klein, C.S. 2019. Recursos Genéticos Microbianos In: O produtor pergunta, a Embrapa responde. Chapter 10. pages 209-240. eds: Paiva, R.S., Maués Albuquerque, M., Salomão, A.N., Roveri José, S.C.B. Moreira, J.R. Embrapa Brasília

    5. 2018

  5. Nogueira, M.A., Prando, A.M., de Oliveira, A.B., de Lima, D., Conte, O., Harger, N., de Oliveira, F.T., Hungria, M. 2018. Ações de transferência de tecnologia em inoculação/coinoculação com Bradyrhizobium e Azospirillum na cultura da soja na safra 2017/18 no estado do Paraná. In: Circular Técnica. 143. ISSN 2176 -2864. Embrapa.

    6. 2016

  6. Hungria, M., et al. 2016. Several Titles. In: Working with rhizobia. Australian Center for International Agricultural Research (ACIAR), Canberra, Australia. Howieson, J.G. and Dilworth, M.J. Eds. Several pages.

    7. 2015

  7. Chang, W.S., Lee, H.I., and Hungria, M. 2016. Soybean production in the Americas. In: Principles of Plant-Microbe Interactions. Switzerland: Springer International Publishing Switzerland. Lugtenberg, B., Ed., pp: 393-400

  8. Dwivedi, S.L., Sahrawat, K.L., Upadhyaya, H.D., Mengoni, A., Galardini, M., Bazzicalupo, M., Biondi, E.G., Hungria, M., Kaschuk, G., Blair, M.W., and Ortiz, R. 2016. Advances in host plant and Rhizobium genomics to enhance symbiotic nitrogen fixation in grain legumes. In: Advances in Agronomy. Elsevier Inc, Academic Press. Sparks, D.L. Ed., 129:1-116. (PDF is available from the author)

  9. Gomes, D.F., Ormeno-Orrillo, E., and Hungria, M. 2016. Biodiversity, symbiotic efficiency and genomics of Rhizobium tropici and related species. In: Biological nitrogen fixation. vol.2. Chapter 74. New Jersey: John Wiley and Sons, Inc. de-Bruijn, F., Ed., pp: 747-756. DOI: 10.1002/9781119053095.ch74. (PDF is available from the author)

  10. Hungria, M., and Mendes, I.C. 2016. Nitrogen fixation with soybean: the perfect symbiosis? In: Biological nitrogen fixation. vol.2. Chapter 99. New Jersey: John Wiley and Sons, Inc. de-Bruijn, F., Ed., pp: 1005-1019. DOI: 10.1002/9781119053095.ch99. (PDF is available from the author)

  11. Hungria, M., Menna, P., and Delamuta, J.R.M. 2016. Bradyrhizobium, the ancestor of all rhizobia: phylogeny of housekeeping and nitrogen-fixation genes. In: Biological nitrogen fixation. vol.2. Chapter 18. New Jersey: John Wiley and Sons, Inc. de-Bruijn, F., Ed., pp: 191-202. DOI: 10.1002/9781119053095.ch18. (PDF is available from the author)

    12. 2013

  12. Ormeno-Carrillo, E., Hungria, M., and Martinez-Romero, E. 2013. Dinitrogen-fixing prokaryotes. In: The Prokaryotes - prokaryotic physiology and biochemistry. Chapter 11. Berlin Heidelberg: Springer-Verlag. LRosemberg, E., De Long, E.F., Lory, S., Stackebrandt, E., and Thompson, F. Eds, pp: 427-451

    13. 2010

  13. Vieira, R.F., Mendes, I.C., Reis-Junior, F.B., and Hungria, M. 2010. Symbiotic nitrogen fixation in tropical food grain legumes: current status. In: Microbes for legume improvement. Wien/New York: Springer. Khan, M.S., Zaidi, A., Musarrat, J. Eds. pp: 427-472.

    14. 2006

  14. Hungria, M., Campo, R.J., Mendes, I.C., and Graham, P.H. 2006. Contribution of biological nitrogen fixation to the N nutrition of grain crops in the tropics: the success of soybean (Glycine max L. Merr.) in South America. In: Nitrogen nutrition and sustainable plant productivity. Houston, Texas: Studium Press, LLC., Singh, R.P., Shankar, N., and Jaiwal, P.K. Eds. pp: 43-93.

    15. 2005

  15. Hungria, M., Loureiro, M.F., Mendes, I.C., Campo, R.J., and Graham, P.H. 2005. The importance of nitrogen fixation to soybean cropping in South America. In: Nitrogen fixation: origins, applications and research progress. Chapter 3. vol.4., Dordrecht, Amsterdam: Springer., Newton, W.E. Ed. pp: 25-42.

  16. Hungria, M., Loureiro, M.F., Mendes, I.C., Campo, R.J., and Graham, P.H. 2005. Inoculant preparation, production and application. In: Nitrogen fixation: origins, applications and research progress. Chapter 11. vol.4., Dordrecht, Amsterdam: Springer., Newton, W.E. Ed. pp: 25-42.

    17. 2000

  17. Hungria, M., Loureiro, M.F., Mendes, I.C., Campo, R.J., and Graham, P.H. 2000. Nitrogen Fixation: From Molecules to Crop Productivity. Dordrecht: Kluwer Academic Press., 669 pp.

    18. 1994

  18. Hungria, M., and Araujo, R.S. 1994. Manual de Metodos Empregados em Estudos de Microbiologia Agricola. Brasilia: EMBRAPA-SPI. 542 pp.

Conference Proceedings

    2018

  1. Hungria, M., et. al. 2018. Reunião da Rede de Laboratórios para Recomendação, Padronização e Difusão de Tecnologias de Inoculantes Microbianos de Interesse Agrícola. In: XVI symposium on biological nitrogen fixation with Non-Legumes. IV Latinamerican Workshop of PGPR. 2018. pages 14,26,46.

    2. 2017

  2. da Silva, L.M., da Silva, A.P., de Campos, T., de Oliveira, L.C., Rodriguez, A.F.R., Wadt, P.G.S., Hungria, M. 2017. Atributos Químicos E Microbiológicos Em Sistemas De Manejo De Solo No Sudoeste Da Amazônia: Resultados De Pesquisas In: Tópicos Em Biotecnologia e Biodiversidade: Pesquisas E Inovação Na Amazônia Sul Ocidental eds: da Silva Faria, M.A., Ribeiro, M.J., Ribeiro, P. Edufac 2017. pages 14-29.
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