4.6 Article

Designing a Waste-Based Culture Medium for the Production of Plant Growth Promoting Microorganisms Based on Cladodes Juice from Opuntia ficus-indica Pruning

Journal

FERMENTATION-BASEL
Volume 8, Issue 5, Pages -

Publisher

MDPI
DOI: 10.3390/fermentation8050225

Keywords

Opuntia pruning wastes; cladodes juice; plant growth-promoting microorganisms; biofertilizers; microbial biomass

Funding

  1. European Union [818431]
  2. H2020 Societal Challenges Programme [818431] Funding Source: H2020 Societal Challenges Programme

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This study evaluated the use of prickly pear pruning waste as a raw material for the production of Plant Growth Promoting Microorganisms (PGPMs). The researchers successfully cultivated a synthetic microbial consortium in a laboratory and pilot scale, using the juice from Opuntia cladodes as a culture medium. The results showed that the bacteria grown in the cladodes juice media had higher survival rates after air-drying or freeze-drying compared to those grown in conventional media.
The production of beneficial microorganisms is the first step to obtain a commercial-based product for application in agriculture. In this study, prickly pear (Opuntia ficus-indica) pruning waste was evaluated as a raw material for the production of large amounts of Plant Growth Promoting Microorganisms (PGPMs) reducing the number of generated wastes. Specifically, five PGPMs constituting a synthetic microbial consortium with complementing plant growth-promoting traits were grown on a laboratory scale and, subsequently, on a pilot scale using a 21-L bioreactor. Primarily, the physical-chemical characterization of the culture medium obtained from the juice of Opuntia cladodes was carried out, revealing the presence of sugars and organic acids with different molar ratios. Compared to conventional media, the waste medium did not show significant differences in bacterial growth efficiency. Instead, the survival rates of the bacteria grown in cladodes juice media, after air-drying on zeolite or freeze-drying, were significantly higher than those observed when they were grown in conventional media. The present work is the first conducted on a pilot-scale that maximizes the production of PGPMs in submerged fermentation using cladodes juice from Opuntia, reducing both economic and environmental impacts associated with the generation of wastes.

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