Rhizobacteria inoculation in maize associated with nitrogen and zinc fertilization at sowing

Moreno, Andréia De Lima; Kusdra, Jorge Ferreira; Picazevicz, Angelita Aparecida Coutinho

doi:10.1590/1807-1929/agriambi.v25n2p96-100

Cited by 7 publications

(7 citation statements)

References 22 publications

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“…In another study, inoculation with A. brasilense and B. subtilis increased the stem diameter and shoot N content of maize plants when N fertilization was not used at the sowing. The authors concluded that the observed increases indicate a synergy between the two microorganism species, demonstrating that, in this case, their combined inoculation in maize reduced the need for N fertilization at sowing (Moreno et al 2021). Combined inoculation of Azospirillum and a P-solubilizer (B. megaterium var.…”

Section: Discussionmentioning

confidence: 95%

“…Genes involved in the production of low molecular weight organic acids, P and N metabolism were identi ed in the genome of Bacillus strains (Velloso et al 2020) and they have also been described as bene cial to plant growth for their e ciency in phosphate solubilization and organic acid production (Gomes et al 2014;Abreu et al 2017;Ribeiro et al 2018). In addition, relevant results regarding Azospirillum co-inoculated with different bacterial species have been described in the literature (Gómez-Godínez et al 2019; Moretti et al 2020;Rondina et al 2020;Moreno et al 2021). There is an increasing adoption of the co-inoculation of Azospirillum and Bradyrhizobium by soybean farmers in Brazil over the last years.…”

Section: Introductionmentioning

confidence: 99%

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Co-inoculation With Tropical Strains of Azospirillum and Bacillus Is More Efficient Than Single Inoculation for Improving Plant Growth and Nutrient Uptake in Maize.

Ribeiro

Gomes

Sousa

et al. 2021

Preprint

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Usage of Bacillus and Azospirillum as new eco-friendly microbial consortium inoculants is a strategy to increase plant growth and crop yield by improving nutrient availability in agricultural systems. In this study, we designed a multispecies inoculum containing B. thuringiensis (strain B116), B. subtillis (strain B2084) and Azospirillum brasilense (strains A1626 and A2142) to investigate their individual or co-inoculated ability to solubilize and mineralize phosphate, produce indole acetic acid (IAA) and their effect on maize growth promotion in hydroponics and in a non-sterile soil. All strains showed significant IAA production, P mineralization (sodium phytate) and Ca-P, Fe-P (tricalcium phosphate and iron phosphate, respectively) solubilization. In hydroponics, co-inoculation with A1626 x A2142, B2084 x A2142, B2084 x A1626 resulted in higher root total length, total surface area, and surface area of roots with diameter between 0 and 1 mm than other treatments with single inoculant, except B2084. In a greenhouse experiment, maize inoculated with the two Azospirillum strains exhibited enhanced shoot dry weight, shoot P and K content, root dry weight, root N and K content and acid and alkaline phosphatase activities than the other treatments. There was a significant correlation between soil P and P shoot, alkaline phosphatase and P shoot and between acid phosphatase and root dry weight. It may be concluded that co-inoculations are most effective than single inoculants strains, mainly between two selected Azospirillum strains. Thus, they could have synergistic interactions during maize growth, and be useful in the formulation of inoculants to improve the cropping systems sustainable.

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Section: Discussionmentioning

confidence: 95%

Section: Introductionmentioning

confidence: 99%

Co-inoculation With Tropical Strains of Azospirillum and Bacillus Is More Efficient Than Single Inoculation for Improving Plant Growth and Nutrient Uptake in Maize.

Ribeiro

Gomes

Sousa

et al. 2021

Preprint

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“…ANDREOTE, 2016). The microorganism-plant interaction can promote the growth of living organisms in the system and intensify the plants' tolerance to biotic and abiotic stresses (MORENO et al, 2021).…”

Section: Introductionmentioning

confidence: 99%

“…Recent studies show the beneficial effects of multifunctional microorganisms in increasing shoot dry biomass and productivity of soybean (SILVA et al, 2020b;CHAGAS JUNIOR et al, 2022) and common bean (Phaseoulus vulgaris) (REZENDE et al, 2021a); growth promotion of rice (Oryza sativa L.) (FERNANDES et al, 2021;PARRALES et al, 2022) and accumulation of N in maize plants (Zea mays) (MORENO et al, 2021). In addition, the use of different beneficial microorganisms at the same time, defined as coinoculation or consortium of microorganisms, has been gaining market share, since it adds different mechanisms of action, producing potential synergistic effects, compared to the use of isolated microorganisms (FLAUZINO et al, 2018).…”

Section: Introductionmentioning

confidence: 99%

Consortium of multifunctional microorganisms in soybean culture

et al. 2023

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The use of multifunctional microorganisms (MM) directly benefits the growth and development of plants due to the production of phytohormones and siderophores, supply of nutrients, and assimilation of atmospheric nitrogen (N2), as well as, indirectly, by protecting plants against pathogens. In this way, the search for sustainable agricultural systems is of great importance in searching for cultivation technologies that provide productive increments and minimize production costs and negative environmental impacts. The study aimed to determine the effect of multifunctional microorganisms on gas exchange, grain yield, and production components in soybean plants. In the field experiment, 2019/2020 harvest, a randomized block design was used, with 32 replications. Soybean plants were treated with a consortium of microorganisms Serratia marcensens (BRM 32114) + Bacillus sp. (BRM63573), and, as a control, soybean plants were treated without intercropping. Soybean plants treated with microorganisms showed an increase in photosynthetic rate (16.65%), stomatal conductance (37.50%), the internal concentration of CO2 (10.36%), a mass of 100 grains (4.04%), and yield of grains (14.83%) about untreated plants. Therefore, using a consortium of multifunctional microorganisms, combining multiple functionalities from different microorganisms, shows the potential to increase the agronomic performance of soybean plants. Co-inoculation technology appears as a strategic component of achieving sustainable agriculture.

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“…Interestingly, they hypothesized that bio lm formation induced by root exudates in Bacillus and Azospirillum forming aggregates may provide favorable nitrogen-xing conditions by protecting bacteria from oxygen, or the consortia may provide nutrients that stimulate Azospirillum nitrogen xation.In another study, inoculation with A. brasilense and B. subtilis increased the stem diameter and shoot N content of maize plants when N fertilization was not used at the sowing. The authors concluded that the observed increases indicate a synergy between the two microorganism species, demonstrating that, in this case, their combined inoculation in maize reduced the need for N fertilization at sowing(Moreno et al 2021). Combined inoculation of Azospirillum and a P-solubilizer (B. megaterium var.…”

mentioning

confidence: 96%

Co-inoculation with tropical strains of Azospirillum and Bacillus is more efficient than single inoculation for improving plant growth and nutrient uptake in maize

et al. 2022

View full text Add to dashboard Cite

Usage of Bacillus and Azospirillum as new eco-friendly microbial consortium inoculants is a strategy to increase plant growth and crop yield by improving nutrient availability in agricultural systems. In this study, we designed a multispecies inoculum containing B. thuringiensis (strain B116), B. subtillis (strain B2084) and Azospirillum brasilense (strains A1626 and A2142) to investigate their individual or co-inoculated ability to solubilize and mineralize phosphate, produce indole acetic acid (IAA) and their effect on maize growth promotion in hydroponics and in a non-sterile soil. All strains showed signi cant IAA production, P mineralization (sodium phytate) and Ca-P, Fe-P (tricalcium phosphate and iron phosphate, respectively) solubilization. In hydroponics, co-inoculation with A1626 x A2142, B2084 x A2142, B2084 x A1626 resulted in higher root total length, total surface area, and surface area of roots with diameter between 0 and 1 mm than other treatments with single inoculant, except B2084. In a greenhouse experiment, maize inoculated with the two Azospirillum strains exhibited enhanced shoot dry weight, shoot P and K content, root dry weight, root N and K content and acid and alkaline phosphatase activities than the other treatments. There was a signi cant correlation between soil P and P shoot, alkaline phosphatase and P shoot and between acid phosphatase and root dry weight. It may be concluded that co-inoculations are most effective than single inoculants strains, mainly between two selected Azospirillum strains. Thus, they could have synergistic interactions during maize growth, and be useful in the formulation of inoculants to improve the cropping systems sustainable.* Means followed by the same letter did not differ signi cantly by LSD test (p < 0.05).** Sample identi cation are according to Table 1.

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Rhizobacteria inoculation in maize associated with nitrogen and zinc fertilization at sowing

Cited by 7 publications

References 22 publications

Co-inoculation With Tropical Strains of Azospirillum and Bacillus Is More Efficient Than Single Inoculation for Improving Plant Growth and Nutrient Uptake in Maize.

Co-inoculation With Tropical Strains of Azospirillum and Bacillus Is More Efficient Than Single Inoculation for Improving Plant Growth and Nutrient Uptake in Maize.

Consortium of multifunctional microorganisms in soybean culture

Co-inoculation with tropical strains of Azospirillum and Bacillus is more efficient than single inoculation for improving plant growth and nutrient uptake in maize

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