Associative diazotrophic bacteria from forage grasses in the Brazilian semi-arid region are effective plant growth promoters

Antunes, Gabiane dos Reis; Santana, Sheilla Rios Assis; Escobar, Indra Elena Costa; Brasil, Marivaine da Silva; Araújo, Gherman Garcia Leal de; Voltolini, Tadeu Vinhas; Fernandes‐Júnior, Paulo Ivan

doi:10.1071/cp19076

Cited by 18 publications

(15 citation statements)

References 48 publications

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“…Significant effects of water restriction on sesame were observed with a reduction in shoot dry mass, plant height, number of capsules per plant, and sesame productivity from the thirtieth day after planting [ 38 ]. ESA 13 already proved to be an efficient plant growth promoter for rice ( Oryza sativa ) [ 6 ], while ESA 402 showed positive effects on sorghum under full irrigation [ 40 ] and water deprivation conditions [ 7 ]. The results observed for the sesame genotypes in the present study agree with the potential of both bacilli to compose multi-crop inoculants for drylands.…”

Section: Resultsmentioning

confidence: 99%

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Bacilli Rhizobacteria as Biostimulants of Growth and Production of Sesame Cultivars under Water Deficit

Lima

Gomes

Rocha

et al. 2023

Plants

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A strategy using bacilli was adopted aiming to investigate the mitigation of the effects of water deficit in sesame. An experiment was carried out in a greenhouse with 2 sesame cultivars (BRS Seda and BRS Anahí) and 4 inoculants (pant001, ESA 13, ESA 402, and ESA 441). On the 30th day of the cycle, irrigation was suspended for eight days, and the plants were subjected to physiological analysis using an infrared gas analyzer (IRGA). On the 8th day of water suspension, leaves were collected for analysis: superoxide dismutase, catalase, ascorbate peroxidase, proline, nitrogen, chlorophyll, and carotenoids. At the end of the crop cycle, data on biomass and vegetative growth characteristics were collected. Data were submitted for variance analysis and comparison of means by the Tukey and Shapiro–Wilk tests. A positive effect of inoculants was observed for all characteristics evaluated, contributing to improvements in plant physiology, induction of biochemical responses, vegetative development, and productivity. ESA 13 established better interaction with the BRS Anahí cultivar and ESA 402 with BRS Seda, with an increase of 49% and 34%, respectively, for the mass of one thousand seeds. Thus, biological indicators are identified regarding the potential of inoculants for application in sesame cultivation.

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Section: Resultsmentioning

confidence: 99%

“…The Bacillus spp. strains ESA 13 [ 6 ], ESA 402 [ 7 , 40 ], and ESA 441 [ 68 ] were obtained from the “Coleção de Culturas de Micro-organismos de Interesse Agrícola da Embrapa Semiárido” (Embrapa Semiárido, Petrolina-PE, Brazil). They were streaked in LB solid medium (Luria Bertani) and incubated for 24 h at 28 °C.…”

Section: Methodsmentioning

confidence: 99%

Bacilli Rhizobacteria as Biostimulants of Growth and Production of Sesame Cultivars under Water Deficit

Lima

Gomes

Rocha

et al. 2023

Plants

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“…Sorghum, similar to other Poaceae species, may associate with several diazotrophic bacteria, mainly the genera Azospirillum (Puri et al 2017), Herbaspirillum (Monteiro et al 2012), Gluconacetobacter (Yoon et al 2016), Burkholderia (Silva et al 2018), Stenotrophomonas, Bacillus (Antunes et al 2019) and Bradyrhizobium (Hara et al 2019), which are capable of introducing atmospheric N 2 via biological nitrogen fixation (BNF). Many reports of effective BNF in Poaceae species have been published in the last decade (Morais et al 2012;Baptista et al 2014;Alves et al 2015) but other studies could not find evidence of N 2 fixation in the same Poaceae species (Biggs et al 2002).…”

Section: Introductionmentioning

confidence: 99%

Biological nitrogen fixation in field-grown sorghum under different edaphoclimatic conditions is confirmed by N isotopic signatures

Barros

Freitas

Tabosa

et al. 2020

Nutr Cycl Agroecosyst

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The association between sorghum and N 2fixing bacteria has been assessed only under limited conditions. We investigated biological nitrogen fixation (BNF) in situ in fifteen sorghum genotypes with dry or succulent culm types under five edaphoclimatic conditions. One randomized block experiment was established in each of five locations, from the humid to the semiarid regions of Pernambuco state, Brazil. BNF was estimated using the 15 N natural abundance method by comparing the average d 15 N value of each sorghum genotype with those of the reference species. High levels of productivity, up to 22 Mg shoot biomass ha -1 in the 3-month cycle, were obtained where rainfall was high, and up to 5 Mg ha -1 was obtained under low rainfall. The nitrogen contents showed a similar pattern as biomass production, and the genotypes with the highest productivity accumulated from 200 to 300 kg N ha -1 . BNF ranged from 55 to 78% of plant N in one location and from 36 to 56% in another location, but BNF did not occur in the other three locations. Although the factors that blocked effective symbiosis were not determined, symbiosis was not influenced by P or K availability. The proportion of N 2 fixation was similar in the grainproducing, dry culm genotypes and in the sugar-rich, succulent culm genotypes. The sorghum genotypes fixed N 2 , reaching up to 218 kg ha -1 N, without inoculation with diazotrophs. Therefore, sorghum has a high potential to fix atmospheric N 2 , but the factors that block N 2 fixation must be identified for crop management planning.

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“…A similar situation of increased Flavobacterium , Aeromonas , Citrobacter , Pseudochrobactrum and Stenotrophomonas abundances after fertilizer input reduction with partial organic material substitution was also observed. Previous studies reported that Flavobacterium , Citrobacter and Stenotrophomonas degrade organic matter, are involved in N cycling (such as promoting nutrient cycling and enhancing soil N) and are enriched when organic materials were introduced into the soil [ 45 , 80 , 81 , 82 ], which explained their higher abundances in treatments with continuous C input (2/4 CN + 2/4 MN and 2/4 CN + 2/4 SN) in this study. A higher C/N ratio in the input fertilizer was selected for bacterial assemblage according to the ecological function and adaptation to the surrounding environment [ 83 ].…”

Section: Discussionmentioning

confidence: 52%

Positive Effects of Organic Substitution in Reduced-Fertilizer Regimes on Bacterial Diversity and N-Cycling Functionality in Greenhouse Ecosystem

Sun

Wang

Sun

et al. 2022

IJERPH

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Conventional fertilization in the greenhouses of North China used excessive amounts of chemical and organic fertilizer, resulting in soil degradation and severe agricultural non-point source pollution. A nine-year study was conducted on a loamy clay soil in Shijiazhuang, Hebei province, to investigate the effects of reduced-fertilizer input regimes on soil property, bacterial diversity, nitrogen (N) cycling and their interactions. There were four treatments, including high organic + chemical fertilizer application rate and three reduced-fertilizer treatments with swine manure, maize straw or no substitution of 50% chemical N. Treatments with reduced-fertilizer input prevented soil salinization and acidification as in local conventional fertilization after being treated for nine years. In comparison to chemical fertilizer only, swine manure or maize straw substitution maintained higher nutrient availability and soil organic C contents. Fertilizer input reduction significantly increased bacterial richness and shifted bacterial community after nine years, with decisive factors of EC, Olsen P and C/N ratio of applied fertilizer. Soil chemical characteristics (EC, pH and nutrients), aggregation and C/N ratio of applied fertilizer selected certain bacterial groups, as well as N-cycling functions. Reduced-fertilizer input decreased the potential nitrification and denitrification functioning of bacterial community, but only in organic substitution treatments. The results of this study suggested that fertilizer input reduction combined with organic C input has potential in reducing non-point source pollution and increasing N-use efficiency in greenhouse vegetable production in North China.

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Associative diazotrophic bacteria from forage grasses in the Brazilian semi-arid region are effective plant growth promoters

Cited by 18 publications

References 48 publications

Bacilli Rhizobacteria as Biostimulants of Growth and Production of Sesame Cultivars under Water Deficit

Bacilli Rhizobacteria as Biostimulants of Growth and Production of Sesame Cultivars under Water Deficit

Biological nitrogen fixation in field-grown sorghum under different edaphoclimatic conditions is confirmed by N isotopic signatures

Positive Effects of Organic Substitution in Reduced-Fertilizer Regimes on Bacterial Diversity and N-Cycling Functionality in Greenhouse Ecosystem

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