Certain entomopathogenic fungi, such as Beauveria bassiana, are highly pathogenic to arthropod pests and are able to colonize plant tissues, thereby enhancing both plant growth and disease resistance. This study assessed three B. bassiana strains (CBM1, CBM2, and CBM3) for their pathogenicity toward insect larvae and colonization potential in wheat. The insecticidal activity of the fungi against the larvae of the major lepidopteran pests Helicoverpa armigera, Spodoptera frugiperda, Mythimna separata, and Plutella xylostella was determined. The fungi were then applied to wheat plants using seed immersion and soil drench methods; their colonization rates were compared, and the impacts of fungal colonization on wheat growth and survival were evaluated. The results demonstrated that all three strains were effective in reducing insect damage, with B. bassiana CBM1 exhibiting the highest pathogenicity followed by CBM3 and CBM2. B. bassiana CBM1 was particularly effective, with a significantly higher colonization rate achieved through soil drenching compared to seed immersion. The soil inoculation of B. bassiana resulted in increased plant height at 30 days after sowing (DAS) and root length at 15 DAS compared to the control group. B. bassiana CBM1-colonized wheat increased the mortality of fall armyworm. This research has enriched the biological control microbial resource pool and highlights the potential of B. bassiana in integrated pest management strategies.

The expected rise in world population and variability of climate change cause biotic and abiotic stress conditions that add uncertainty and complexity to food security and agro-industries. Plants are physiologically, biochemically, and molecularly affected when exposed to stressful conditions. Endophytic microbes that inhabit internal plant tissues without causing tissue damage or disease symptoms play a prominent role in the growth and development of host plants under both normal and abnormal conditions. In the current study, a pot experiment was conducted to verify that the same bacteria with multiple plant growth-promoting traits and osmotolerance were inoculated onto surface-sterilized maize seeds sown in sterile soil, re-isolated from these seedlings, and tested for their endophytic colonization to fulfill Koch's postulate, proving their endophytic competence and persistence. The bacterial isolates were found to colonize plants at levels ranging from 4.30 to 5.26 Log10 CFU g-1, and the maximum colonization of inoculated isolates was observed in roots, followed by stems, and least in leaves. The re-isolated bacteria were compared with inoculated isolates in terms of their carbon source utilization, antibiotic sensitivity, and 16S rRNA gene sequences, thus determining which endophytic bacteria had the ability to colonize and persist at high levels in plant hosts by experimentally inoculating plants.