Cowpea is an important pulse crop cultivated in arid and semi-arid regions of the world. During field survey, a characteristic wilt was observed in around 45 ha of cowpea fields with incidence 17-25%. Infection was seen in pre-flowering stage and infected plants showed quick wilt symptoms with tan lesions near the stem-soil interface. Fungal pathogens associated were isolated on PDA, which produced dark to grey olivaceous colonies in the centre, and aerial mycelia were appressed with floccose and white to smoke-grey. Conidia are aseptate, initially hyaline, smooth-walled, broadly ellipsoidal with rounded ends becoming dark brown. Based on these morphological features, the fungal pathogen was identified as Aplosporella sp. The ITS-rDNA region was amplified using ITS1/ITS4 primers and sequenced. The nBLAST and phylogenetic analysis confirmed the pathogen as Aplosporella hesperidica. The Koch's postulates were performed on 45-days-old cowpea plants with mycelial disc of A. hesperidica. Development of typical necrotic lesions was observed after 28 days of post-inoculation and the pathogen's identity was confirmed based on re-isolation. Efficacy of fungicides evaluated in vitro showed that the pathogen is highly sensitive to systemic fungicides rather than the contact fungicides. The cowpea production was severely affected owing to the causative agent A. hesperidica. The collar rot disease of cowpea by A. hesperidica is the first report in India. SIGNIFICANCE AND IMPACT OF THE STUDY: A new collar rot disease of cowpea recorded from India has been investigated. The necrotic lesions were enlarged and eventually quick wilt and death of the host plant was observed with incidence ranged from 17 to 25%. Associated fungal pathogen was isolated and identified as Aplosporella hesperidica based on morphology and ITS-rDNA sequence analysis. Koch's postulates were performed under greenhouse conditions and in vitro evaluation of fungicides shows that the pathogen is sensitive to systemic fungicides. This is the first report of A. hesperidica causing collar rot disease of cowpea in India.
Keywords: Aplosporella hesperidica; ITS-rDNA; new disease report; pathogenicity; pulses.
© 2020 The Society for Applied Microbiology.