Advanced search
Publication Cover
Archives of Agronomy and Soil Science Volume 64, 2018 - Issue 11
Submit an article Journal homepage
229
Views
0
CrossRef citations to date
0
Altmetric
Original Articles

Tolerance of potentially diazotrophic bacteria to adverse environmental conditions and plant growth-promotion in sugarcane

Danubia Ramos Moreira de LimaAgronomy Department, Federal Rural University of Pernambuco, Recife, Brazil
,
Isaneli Batista dos SantosAgricultural Microbiology Department, Luiz de Queiroz College of Agriculture, University of São Paulo, São Paulo, Brazil
,
João Tiago Correia OliveiraAcademic Unit of Garanhuns, Federal Rural University of Pernambuco, Garanhuns, Brazil
,
Jesimiel Gomes BarbosaAcademic Unit of Garanhuns, Federal Rural University of Pernambuco, Garanhuns, Brazil
,
Williane Patrícia da Silva DinizZootechny Department, Federal Rural University of Pernambuco, Recife, Brazil
,
Andreza Raquel Barbosa de FariasAgronomy Department, Federal University of Ceará, Fortaleza, Brazil
,
Fernando José FreireAgronomy Department, Federal Rural University of Pernambuco, Recife, BrazilCorrespondence[email protected]
ORCID Iconhttp://orcid.org/0000-0002-3264-712X
ORCID Icon &
Júlia Kuklisnky SobralAcademic Unit of Garanhuns, Federal Rural University of Pernambuco, Garanhuns, Brazil
 show all
Pages 1534-1548 | Received 07 Aug 2017, Accepted 16 Feb 2018, Published online: 26 Feb 2018

References

  • Beneduzi A, Moreira F, Costa PB, Vargas LK, Lisboa BB, Favreto R, Baldani JI, Passaglia LMP. 2013. Diversity and plant growth promoting evaluation abilities of bacteria isolated from sugarcane cultivated in the South of Brazil. Appl Soil Ecol. 63:94–104.
  • Benett CGS, Buzetti S, Silva KS, Teixeira Filho MCM, Garcia CMP, Maestrelo PR. 2011. Produtividade e desenvolvimento da cana-planta e soca em função de doses e fontes de manganês [Yield and development of plant cane and ratoon cane as related to manganese rates and sources]. Rev Bras Cienc Solo. 35:1661–1668. Portuguese.
  • Berraqueiro FR, Baya AM, Cormenzana AR. 1976. Establecimiento de índices para el estudio de la solubilizacion de fosfatos por bacterias del suelo [Indices establishment for the study of the solubilization of phosphates by soil bacteria]. ARS Pharm. 17:399–406. Spanish.
  • Bonato G. 2016. Entrega de fertilizantes no Brasil tem recorde mensal. [São Paulo (SP): Reuters (UK); [accessed 2016 Dec 19]. http://extra.globo.com/noticias/economia/entrega-de-fertilizantes-no-brasil-tem-recorde-mensal-analista-ve-alta-de-7-no-ano-20284513.html#ixzz4TIO4OqCA. Portuguese.
  • Bric JM, Bostock RM, Silverstone SE. 1991. Rapid in situ assay for indole acetic acid production by bacteria immobilized on a nitrocellulose membrane. Appl Environ Microbiol. 57:535–538.
  • Cavalcante FJA, Santos JCP, Pereira JR, Leite JP, Silva MCL, Freire FJ, Silva JD, Souza AR, Messias AS, Faria CMB, et al. 2008. Recomendações de adubação para o Estado de Pernambuco [Fertilizer recommendations for the State of Pernambuco]. Recife (PE): Empresa Pernambucana de Pesquisa Agropecuária. Portuguese.
  • Döbereiner J, Baldani VLD, Baldani JI. 1995. Como isolar e identificar bactérias diazotróficas de plantas não-leguminosas [How to isolate and identify diazotrophic bacteria from non-leguminous plants]. Brasília (DF): Empresa Brasileira de Pesquisa Agropecuária. Portuguese.
  • Donagema GK, Campos DVBC, Calderano SB, Teixeira WG, Viana JHM. 2011. Manual de métodos de análise de solos [Manual of soil analysis methods]. Rio de Janeiro (RJ): Empresa Brasileira de Pesquisa Agropecuária. Portuguese.
  • Ferrara FIS, Oliveira ZM, Gonzales HHS, Floh EIS, Barbosa HR. 2012. Endophytic and rhizospheric enterobacteria isolated from sugar cane have different potentials for producing plant growth-promoting substances. Plant Soil. 353:409–417.
  • Franche C, Lindström K, Elmerich C. 2009. Nitrogen-fixing bacteria associated with leguminous and non-leguminous plants. Plant Soil. 321:35–59.
  • Garcia JC, Vitorino R, Azania CAM, Silva DM, Beluci LR. 2013. Inoculação de bactérias diazotróficas no desenvolvimento inicial de cana-de-açúcar, variedade RB 867515 [Inoculation of diazotrophic bacterias in the initial sugarcane development, RB 867515 variety]. Nucleus. 10:93–101. Portuguese.
  • Gírio LAS, Dias FLF, Reis VM, Urquiaga S, Schultz N, Bolonhezi D, Mutton MA. 2015. Bactérias promotoras de crescimento e adubação nitrogenada no crescimento inicial de cana-de-açúcar proveniente de mudas pré-brotadas [Plant growth-promoting bacteria and nitrogen fertilization effect on the initial growth of sugarcane from pre-sprouted seedlings]. Pesqui Agropecu Bras. 50:33–43. Portuguese.
  • Hartmann A, Lemanceau P, Prosser JI. 2008. Multitrophic interactions in the rhizosphere microbiology: at the interface of many disciplines and expertises. FEMS Microbiol Ecol. 65:179.
  • Jha B, Gontia I, Hartmann A. 2012. The roots of the halophyte Salicornia brachiata are a source of new halotolerant diazotrophic bacteria with plant growth-promoting potential. Plant Soil. 356:265–277.
  • Koffler NF, Lima JFWF, Lacerda MF, Santana JF, Silva MA. 1986. Caracterização edafo-climática das regiões canavieiras do Brasil: pernambuco [Soil-climatic characterization of sugarcane regions of Brazil: Pernambuco]. Piracicaba (SP): Planalsucar. Portuguese.
  • Kruasuwan W, Thamchaipenet A. 2016. Diversity of culturable plant growth-promoting bacterial endophytes associated with sugarcane roots and their effect of growth by co-inoculation of diazotrophs and actinomycetes. J Plant Growth Regul. 35:1074–1087.
  • Kuklinsky-Sobral J, Araújo WL, Mendes R, Geraldi IO, Pizzirani-Kleiner AA, Azevedo JL. 2004. Isolation and characterization of soybean-associated bacteria and their potential for plant growth promotion. Environ Microbiol. 6:1244–1251.
  • Lee S, Flores-Encarnacion M, Contreras-Zentella M, Garcia-Flores L, Escamilla JE, Kenedy C. 2004. Indole-3-acetic acid biosynthesis is deficient in Gluconacetobacter diazotrophucus strains with mutations in cytochrome c bigenesis. J Bacteriol. 186:5384–5391.
  • Liu Y, Xu J, Zhang Y, Yuan Z, He M, Liang C, Zhuang X, Xie J. 2015. Sequential bioethanol and biogas production from sugarcane bagasse based on high solids fed-batch SSF. Energy. 90:1199–1205.
  • Marcos FCC, Iório RPF, Silveira APD, Ribeiro RV, Machado EC, Lagôa AMMA. 2016. Endophytic bacteria affect sugarcane physiology without changing plant growth. Bragantia. 75:1–9.
  • Murumkar DR, Nalawade SV, Indi DV, Pawar SM. 2016. Response of sugarcane seed plot to microbial inoculation by gluconacetobacter diazotrophicus and phosphate-solubilizing bacteria. Sugar Tech. 19:26–32.
  • Pariona-Llanos R, Ferrara FIS, Gonzales HHS, Barbosa HR. 2010. Influence of organic fertilization on the number of culturable diazotrophic endophytic bacteria isolated from sugarcane. Eur J Soil Biol. 46:387–393.
  • Roesch LFW, Fulthorpe RR, Jaccques RJS, Bento FM, Camargo FAO. 2010. Biogeography of diazotrophic bacteria in soils. World J Microbiol Biotechnol. 26:1503–1508.
  • Santos HG, Jacomine PKT, Anjos LHC, Oliveira VA, Lumbreras JF, Coelho MR, Almeida JA, Cunha TJF, Oliveira JB. 2013. Sistema brasileiro de classificação de solos [Brazilian system of soil classification]. Brasília (DF): Empresa Brasileira de Pesquisa Agropecuária. Portuguese.
  • Schikora A, Schenk ST, Hartmann A. 2016. Beneficial effects of bacteria-plant communication based on quorum sensing molecules of the N -acyl homoserine lactone group. Plant Mol Biol. 90:605–612.
  • Silva JF, Barbosa RR, Souza AN, Motta OV, Teixeira GN, Carvalho VS, Souza ALSR, Souza Filho GA. 2015. Isolation of Pantoea ananatis from sugarcane and characterization of its potential for plant growth promotion. Genet Mol Res. 14:15301–15311.
  • Silva MO, Freire FJ, Lira MA, Kuklinsky-Sobral J, Costa DP, Lira-Cadete L. 2012. Isolamento e prospecção de bactérias endofíticas e epifíticas na cana-de-açúcar em áreas com e sem cupinicida [Isolation and identification of endophytic and epiphiytic bacteria in sugarcane in areas with and without termiticide]. Rev Bras Cienc Solo. 36:1113–1121. Portuguese.
  • Simões Neto DE, Melo LJOT, Chaves A, Lima ROR. 2005. Lançamento de novas variedades RB de cana-de-açúcar [Launch of RB varieties new of sugarcane]. Recife (PE): Universidade Federal Rural de Pernambuco. Portuguese.
  • Soil Survey Staff. 2014. Keys to Soil Taxonomy. Washington (DC): Natural Resources Conservation Service.
  • Stackebrandt E, Goodefellow M. 1991. Nucleic acid techniques in bacterial systematic. Chinchester (UK): John Wiley and Sons.
  • Szenthe A, Page WJ. 2003. Quorum sensing in Agrobacterium tumefaciens using N-oxo-Acyl-homoserine Lactone chemical signal. In: Donnell MAO, editor. Tested studies for laboratory teaching. Edmonton (AB): University of Alberta; p. 145–152.
  • Taulé C, Mareque C, Barlocco C, Hackembruch F, Reis VM, Sicardi M, Battistoni F. 2012. The contribution of nitrogen fixation to sugarcane (Saccharum officinarum L.), and the identification and characterization of part of the associated diazotrophic bacterial community. Plant Soil. 356:35–49.
  • Taurian T, Anzuay MS, Angelini JG, Tonelli ML, Ludueña L, Pena D, Ibáñez F, Fabra A. 2010. Phosphate-solubilizing peanut associated bacteria: screening for plant growth-promoting activities. Plant Soil. 329:421–431.
  • Tikoo A, Tripathi AK, Verma SC, Agrawal N, Nath G. 2001. Application of PCR fingerprinting techniques for identification and discrimination of Salmonella isolates. Curr Sci. 80:1049–1052.
  • Yanni Y, Zidan M, Dazzo F, Rizk R, Mehesen A, Abdelfattah F, Elsadany A. 2016. Enhanced symbiotic performance and productivity of drought stressed common bean after inoculation with tolerant native rhizobia in extensive fields. Agric Ecosyst Environ. 232:119–128.
  • Zehr JP, Turner PJ. 2001. Nitrogen fixation: nitrogenase genes and gene expression. In: Paul JH, editor. Methods in Microbiology. San Diego (CA): Academic Press; p. 271–286.
  • Zhang YZ, Wang ET, Li M, Li QQ, Zhang YM, Zhao SJ, Jia XL, Zhang LH, Chen WF, Chen WX. 2011. Effects of rhizobial inoculation, cropping systems and growth stages on endophytic bacterial community of soybean roots. Plant Soil. 347:147–161.
  • Zimmer S, Messmer M, Haase T, Piepho HP, Mindermann A, Schulz H, Habekuß A, Ordon F, Wilbois KP, Heß J. 2016. Effects of soybean variety and Bradyrhizobium strains on yield, protein content and biological nitrogen fixation under cool growing conditions in Germany. Eur J Agron. 72:38–46.

Reprints and Corporate Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

To request a reprint or corporate permissions for this article, please click on the relevant link below:

Order Reprints Request Corporate Permissions

Academic Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

Obtain permissions instantly via Rightslink by clicking on the button below:

Request Academic Permissions

If you are unable to obtain permissions via Rightslink, please complete and submit this Permissions form. For more information, please visit our Permissions help page.

Related research

People also read lists articles that other readers of this article have read.

Recommended articles lists articles that we recommend and is powered by our AI driven recommendation engine.

Cited by lists all citing articles based on Crossref citations.
Articles with the Crossref icon will open in a new tab.