dc.description.abstract | Metarhizium is one of the entomopathogenic fungi (EPF) that has been widely reported as a useful
agent for controlling the coconut rhinoceros beetle (CRB), Oryctes rhinoceros L. (Coleoptera: Scarabaeidae). Application
of this fungus as a biopesticide is infuenced by regional environmental conditions that afect the pathogenic activity
against the targeted pest. Several studies have proven that the native fungal isolates have strong pathogenic activity than EPF introduced from other regions. The identifcation of local EPF species is a strategic approach to develop
potential biopesticides with standard properties including host specifcity, climate suitability, and signifcantly suppressing the target pest population. This study aimed to identify Metarhizium species isolated from infected CRB
larvae with high pathogenicity to host pests in East Java, Indonesia.
Results: Thirteen isolates were obtained which were divided into 4 clades based on phylogenetic analysis by the ITS
rDNA region, namely M. anisopliae var. lepidiotae, M. anisopliae var. anisopliae, M. brunneum, and M. majus. Identifed
Metarhizium species exhibited varied sizes of conidia, but fell within the size ranges reported in previous studies. Interestingly, the isolate MaSi produced conidial lengths well above the range of conidial sizes recorded and placed these
isolates (M. anisopliae) in the MGT clade, known as MALC (M. anisopliae s.l. with large conidia). The present investigation reported that isolates MaLe, MaMa, MaWa, and MaSi produced higher mortality values than other isolates, supporting that M. majus and MALC had higher pathogenicity against O. rhinoceros larvae than other Metarhizium species.
Neighbor-joining analysis showed a close resemblance between the isolate MaMa and the strain ARSEF 1946, which
was isolated from the CRB. In addition, the isolate MaMa had the highest virulence against O. rhinoceros larval cadaver
with a faster lethal time (for 50% mortality). This result indicated a possible relationship between phylogenetic status
or DNA sequence polymorphisms with Metarhizium pathogenicity and host specifcity.
Conclusions: The local species of Metarhizium have been isolated from infected CRB larvae, and M. majus isolates
exhibited high pathogenicity against O. rhinoceros larvae. The close similarity of M. majus isolates and CRB-isolated
strains suggests a possible relationship between pathogenicity and host specifcity with phylogenetic status or DNA
sequence polymorphisms. | en_US |