Trichoderma citrinroviride as a Potential Biocontrol Agent for Fusarium and Colleotrichum Species, a Causative Agent of Onion Leaf Curl and Anthracnose Disease
Abstract
Red onion cultivation has become more challenging since 2020 due to the prevalence of
onion anthracnose and leaf curl disease primarily caused by fungal pathogens Colleotrichum
and Fusarium spp. This study aimed to identify the causative agents of onion leaf
curl and anthracnose disease (muul azhugal) in vedhaalam onion variety collected from
Jaffna district farms and to access the potential of Trichoderma citrinoviride for disease
suppression both in-vitro and under greenhouse conditions. Isolated organisms were
tested for the infectivity using healthy onion plants, and the pathogens were re-isolated
from the similar symptomatic plants. Pathogens were molecularly identified by nucleotide
sequencing of internal transcribed region 1 (ITSS1). The in vitro antagonistic assay was
performed in triplicate in dual culture assay. Greenhouse experiment trials were conducted in a Completely Randomized Design with three treatments (control, both pathogen
and Trichoderma, and Trichoderma only) with five replicates each. Observations included
the appearance of symptoms (chlorosis, twisting, and bulb rot) and time taken for the
symptoms to appear was recorded. Results from in vitro antagonistic assay demonstrated
the complete inhibition of pathogens by the Trichoderma citrinoviride. Under greenhouse
conditions the disease symptoms emerged 14 days after inoculation of pathogen. Notably
around 60% reduction in disease incidence was achieved when Trichoderma citrinoviride
was treated to pathogen inoculated soil. Ongoing field trials aim to validate the results
further. In conclusion the study highlights the efficacy of Trichoderma citrinoviride in
suppressing onion anthracnose and leaf twister disease, offering a promising avenue for
disease control in onion cultivation.