Agronomy (Oct 2022)

Fertilizer of the Future: Beneficial Bacteria Promote Strawberry Growth and Yield and May Reduce the Need for Chemical Fertilizer

  • Leandro Israel da Silva,
  • Indira Pereira de Oliveira,
  • Ederson da Conceição Jesus,
  • Marlon Corrêa Pereira,
  • Moacir Pasqual,
  • Ronilson Carlos de Araújo,
  • Joyce Dória

DOI
https://doi.org/10.3390/agronomy12102465
Journal volume & issue
Vol. 12, no. 10
p. 2465

Abstract

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Agriculture is a fundamental activity for human development. However, its sustainable practice is required to ensure the perpetuity of future resources. In this way, bacteria can benefit crops by making available nutrients and metabolites, mainly contributing to reducing the demand for chemical fertilizers. This study aimed to evaluate the biofertilizing capacity of Azospirillum brasilense, Bacillus megaterium, and Brevibacillus fluminis and their effects on improving the physiological and morphoanatomical properties of strawberry seedlings. In vitro tests were performed to evince their potential to supply nutrients (P and K) and produce siderophores and indole-acetic acid. In an inoculation experiment, these strains were inoculated in isolation and mixed in pairs and triples. This experiment was carried out in a greenhouse in a completely randomized design (CRD). The inoculated treatments were fertilized with 30% N and P demands; the uninoculated control received 30% and 100% of these demands. Leaf gas exchange, total chlorophylls, and crown diameter were evaluated during cultivation. After 138 days, leaf number, nutrient content, root length, root and shoot fresh and dry weight, and total seedlings were evaluated. The bacteria tested positive in all in vitro evaluations except for siderophore production. The strawberry responded positively to inoculation. The inoculation, either in isolation or in a mixture, improved stomatal conductance, leaf transpiration, internal CO2 concentration, leaf N and Mg contents, crown diameter, leaf area, and root elongation. We can conclude that the intermediation of microorganisms improves nutrient use efficiency and reduces the strawberry’s fertilizer demand by up to 70%, leading to plant development and yields comparable to complete fertilization.

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