Bacillus strains immobilized in alginate macrobeads enhance drought stress adaptation of Guinea grass

Drought stress reduces crop growth and yield. This study aimed to formulate alginate macrobeads inoculants using strains Bacillus sp. XT13 and XT14, and evaluate their effect on the stress response of guinea grass under drought. First, we produced two prototypes per bacterial strain based on the alg...

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Bibliographic Details
Published in:Rhizosphere 2021-09, Vol.19, p.100385, Article 100385
Main Authors: Mendoza-Labrador, Jonathan, Romero-Perdomo, Felipe, Abril, Jorge, Hernández, Juan-Pablo, Uribe-Vélez, Daniel, Buitrago, Ruth Bonilla
Format: Article
Language:English
Subjects:
Ascorbate peroxidase
Inoculum carrier
Megathyrsus maximus
Proline
Rhizobacteria
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Summary:Drought stress reduces crop growth and yield. This study aimed to formulate alginate macrobeads inoculants using strains Bacillus sp. XT13 and XT14, and evaluate their effect on the stress response of guinea grass under drought. First, we produced two prototypes per bacterial strain based on the alginate-bacterial broth ratio and selected one for each strain based on the release kinetics and the biodegradability of the formulates in soil. Then, we evaluated their effect on some biochemical, morphological, and nutritional responses of Guinea grass under drought in greenhouse conditions. The results showed a biodegradability increase and a slow-release rate for the prototypes 70:30 XT13 and 80:20 XT14. The greenhouse experiments showed that inoculation of both Bacillus sp. strains improved plant growth significantly under drought. Furthermore, the co-inoculation of the alginate macrobeads of both strains showed a greater effect on the grass response than that observed with individual inoculations (p 
ISSN:2452-2198
2452-2198
DOI:10.1016/j.rhisph.2021.100385