Identification of a fungus isolate and its pathogenicity against (McGregor).

To obtain efficient biocontrol fungi against , this study systematically identified the highly pathogenic strain HYC2101 through an analysis of its cultural characteristics, physiological and biochemical properties, and molecular identification. The isolate was identified as . In laboratory observations using stereomicroscopy and scanning electron microscopy, the infection process of HYC2101 in was documented, and its pathogenicity against female adults and larvae was determined. The optimal temperature range for the mycelial growth and conidial production of HYC2101 was found to be 25-35°C, with the highest sporulation on SDAY (sabouraud dextrose yeast extract agar medium). Observations of the infection process revealed that conidia easily attached to the cuticular folds and setae of the mite. After 24 h, the spores germinated and penetrated the cuticle. By 48 h, the hyphae had invaded the mite's interior through the cuticle, mouthparts, and anus. At 96 h, the mite's body was fully covered with hyphae and a large number of spores, ultimately leading to the death of the host. The results of the pathogenicity tests indicated that strain HYC2101 was significantly pathogenic to both female adults and larvae, with greater pathogenicity against female adults. The LC values after 7 days of infection were 5.92 × 10⁴ and 9.22 × 10 spores/mL for female adults and larvae, respectively. Under the highest spore concentration of 1 × 10 spores/mL, the LT values for female adults and larvae were 2.80 and 4.79 days, respectively. In conclusion, the highly pathogenic strain HYC2101 shows significant potential for use in the green prevention and control of citrus red mites and warrants further development as a biocontrol resource.