Halotolerant Citrobacter sp. remediates salinity stress and promotes the growth of Vigna radiata (L) by secreting extracellular polymeric substances (EPS) and biofilm formation: a novel active cell for microbial desalination cell (MDC) / Citrobacter sp. halotolerante. remedia el estrés salino y promueve el crecimiento de Vigna radiata (L) mediante la secreción de sustancias poliméricas extracelulares (EPS) y la formación de biopelículas: una nueva célula activa para la célula microbiana de desalinización (MDC)
Int. microbiol
; 27(1): 291-301, Feb. 2024. ilus, graf
Article
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| IBECS
| ID: ibc-230261
Biblioteca responsable:
ES1.1
Ubicación: ES15.1 - BNCS
ABSTRACT
To address soil salinization and its impact on crop production, microbial desalination cells (MDCs) offer a promising solution. These bioelectrochemical systems integrate desalination and wastewater treatment through microbial activity. A halotolerant beneficial bacterial strain called Citrobacter sp. strain KUT (CKUT) was isolated from Indias salt desert Run of Kutch, Gujrat, highlighting its potential application in combating soil salinization. CKUT exhibits high salt tolerance and has the ability to produce extracellular polymeric substances (EPS) at a concentration of 0.04 mg/ml. It forms biofilm that enable it to withstand up to 10% NaCl concentration. Additionally, CKUT shows promise in remediating salinity levels, reducing it from 4.5 to 2.7 gL−1. These characteristics are driven by biofilm formation and EPS production. In an experiment where V. radiata L. seedlings were inoculated with CKUT, the treated plants exhibited enhanced chlorophyll content, growth, and overall plant characteristics compared to seedlings treated with sodium chloride (NaCl). These improvements included increased shoot length (150 mm), root length (40 mm), and biomass. This indicates that CKUT treatment has the potential to enhance the suitability of V. radiata and other crops for cultivation in saline lands, effectively addressing the issue of soil salinization. Furthermore, integrating CKUT into microbial desalination cells (MDCs) offers an opportunity for freshwater production from seawater, contributing to sustainable agriculture by promoting improved crop growth and increased yield in areas prone to salinity.(AU)
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Colección:
06-national
/
ES
Base de datos:
IBECS
Asunto principal:
Suelo
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Citrobacter
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Desalación
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Biopelículas
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Polifenoles
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Estrés Salino
Límite:
Humans
Idioma:
En
Revista:
Int. microbiol
Año:
2024
Tipo del documento:
Article