Post-flowering stalk rot (PFSR) disease drastically affects maize yields, leading to substantial economic losses. Fusarium verticillioides was widely recognized as a major pathogen responsible for maize PFSR disease. Astonishingly, apart from F. verticillioides, another pathogen was also observed infecting the stalk rot and thus, further pathogen purification was initiated. In this study, we revealed the first report of Sarocladium kiliense, as a maize stalk rot pathogen. This research study was validated by isolation, purification, and morphological examination, which revealed the variability among S. kiliense isolates in traits such as pigmentation, colony color, mycelial characteristics, and conidial morphology. Notably, isolates exhibited distinct pigmentation patterns: 3 were orange and 3 were yellow, with consistent white to dirty white colony colors. Pathogenicity assays using toothpick inoculation demonstrated that all the S. kiliense isolates caused significant damage to the maize stalks, with brown discoloration, conversion of pith into a powdery texture, and subsequent stalk lodging. Isolate PKSK55 exhibited the highest pathogenicity, producing the longest lesions among tested isolates. Molecular characterization using ITS rDNA and RPB-2 genes confirmed the identity of S. kiliense across all isolates. Conclusively, this research uncovered and documents the first report of S. kiliense causing stalk rot in maize in India.
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