Microbial communities associated with plants growing in harsh conditions, including salinity and water deficiency, have developed adaptive features which permit them to grow and survive under extreme environmental conditions. In the present study, an ex-situ plant trapping method has been applied to collect the culturable microbial diversity associated with the soil from harsh and remote areas. Oryza sativa cv. Baldo and Triticum durum Primadur plants were used as recruiters, while the soil surrounding the roots of Oryza glaberrima plants from remote regions of Mali (West Africa) was used as substrate for their growth. The endophytic communities recruited by the two plant species belonged to Proteobacteria and Firmicutes, and the dominant genera were Bacillus, Kosakonia, and Enterobacter. These endophytes were characterized by analyzing some of the most common plant growth promoting traits. Halotolerant, inorganic phosphate-solubilizing and N-fixing strains were found, and some of them simultaneously showing these three traits. We verified that 'Baldo' recruited mostly halotolerant and P-solubilizers endophytes, while the endophytes selected by 'Primadur' were mainly N-fixers. The applied ex-situ plant trapping method allowed to isolate endophytes with potential beneficial traits that could be applied for the improvement of rice and wheat growth under adverse environmental conditions.Ex-situ plant trapping for successful isolation of endophytes with potential beneficial features.

Cereals can trap endophytic bacteria with potential beneficial traits when grown ex-situ in harsh soils / Amenta, Maria Laura; Vaccaro, Francesca; Varriale, Stefano; Sangaré, Jean Rodrigue; Defez, Roberto; Mengoni, Alessio; Bianco, Carmen. - In: FEMS MICROBIOLOGY ECOLOGY. - ISSN 1574-6941. - ELETTRONICO. - 100:(2024), pp. fiae041.0-fiae041.0. [10.1093/femsec/fiae041]

Cereals can trap endophytic bacteria with potential beneficial traits when grown ex-situ in harsh soils

Vaccaro, Francesca;Mengoni, Alessio;
2024

Abstract

Microbial communities associated with plants growing in harsh conditions, including salinity and water deficiency, have developed adaptive features which permit them to grow and survive under extreme environmental conditions. In the present study, an ex-situ plant trapping method has been applied to collect the culturable microbial diversity associated with the soil from harsh and remote areas. Oryza sativa cv. Baldo and Triticum durum Primadur plants were used as recruiters, while the soil surrounding the roots of Oryza glaberrima plants from remote regions of Mali (West Africa) was used as substrate for their growth. The endophytic communities recruited by the two plant species belonged to Proteobacteria and Firmicutes, and the dominant genera were Bacillus, Kosakonia, and Enterobacter. These endophytes were characterized by analyzing some of the most common plant growth promoting traits. Halotolerant, inorganic phosphate-solubilizing and N-fixing strains were found, and some of them simultaneously showing these three traits. We verified that 'Baldo' recruited mostly halotolerant and P-solubilizers endophytes, while the endophytes selected by 'Primadur' were mainly N-fixers. The applied ex-situ plant trapping method allowed to isolate endophytes with potential beneficial traits that could be applied for the improvement of rice and wheat growth under adverse environmental conditions.Ex-situ plant trapping for successful isolation of endophytes with potential beneficial features.
2024
100
0
0
Goal 12: Responsible consumption and production
Goal 15: Life on land
Goal 13: Climate action
Amenta, Maria Laura; Vaccaro, Francesca; Varriale, Stefano; Sangaré, Jean Rodrigue; Defez, Roberto; Mengoni, Alessio; Bianco, Carmen
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Utilizza questo identificatore per citare o creare un link a questa risorsa: https://hdl.handle.net/2158/1356332
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