Screening for Antagonistic Bacteria From Contrasting Niches Designated the Endophyte as Plant Warden Against .

Date palm ( L.) plantations in North Africa are nowadays threatened with the spread of the Bayoud disease caused by f. sp. , already responsible for destroying date production in other infected areas, mainly in Morocco. Biological control holds great promise for sustainable and environmental-friendly management of the disease. In this study, the additional benefits to agricultural ecosystems of using plant growth promoting rhizobacteria (PGPR) or endophytes are addressed. First, PGPR or endophytes can offer an interesting bio-fertilization, meaning that it can add another layer to the sustainability of the approach. Additionally, screening of contrasting niches can yield bacterial actors that could represent wardens against whole genera or groups of plant pathogenic agents thriving in semi-arid to arid ecosystems. Using this strategy, we recovered four bacterial isolates, designated BFOA1, BFOA2, BFOA3 and BFOA4, that proved very active against f. sp. . BFOA1-BFOA4 proved also active against 16 isolates belonging to four species: (with strains phytopathogenic of and tomato), (with different strains attacking and potato), (pathogenic on ) and (phytopathogenic of ). BFOA1-BFOA4 bacterial isolates exhibited strong activities against another four major phytopathogens: , , , and Isolates BFOA1-BFOA4 had the ability to grow at temperatures up to 35°C, pH range of 5-10, and tolerate high concentrations of NaCl and up to 30% PEG. The isolates also showed relevant direct and indirect PGP features, including growth on nitrogen-free medium, phosphate solubilization and auxin biosynthesis, as well as resistance to metal and xenobiotic stress. Phylogenomic analysis of BFOA1-BFOA4 isolates indicated that they all belong to , which could therefore considered as a warden against infection in plants. Comparative genomics allowed us to functionally describe the open pan genome of and LC-HRMS and GCMS analyses, enabling the description of diverse secondary metabolites including pulegone, 2-undecanone, and germacrene D, with important antimicrobial and insecticidal properties. In conclusion, could be used as an efficient bio-fertilizer and bio-control agent in semi-arid and arid ecosystems.