Biocontrol of Sclerotinia sclerotiorum infection of cabbage by Coniothyrium minitans and Trichoderma spp.

Abstract

Nine fungal isolates [Clonostachys rosea (1), Coniothyrium minitans (1), Trichoderma crassum (1), T. hamatum (4), T. rossicum (1) and T. virens (1)] were tested in two bioassays for their ability to degrade sclerotia and reduce apothecial production and carpogenic infection of cabbage seedlings. C. minitans LU112 reduced apothecial production in both bioassays, with T. virens LU556 significantly reducing apothecial production in the sclerotial parasitism assay. Both isolates also reduced sclerotial viability in this assay to 5% for C. minitans and 22% for T. virens. C. minitans LU112 and T. virens LU556 reduced the infection of cabbage seedlings in the pot bioassay 126 days after sowing but not after 147 days, partly due to ascospore cross-infection between treatments. C. minitans LU112, T. virens LU556 and T. hamatum LU593 as maizemeal-perlite (MP) soil incorporation and transplant potting mix incorporation were evaluated for their ability to control Sclerotinia sclerotiorum disease of cabbage in field experiments. S. sclerotiorum infection of cabbage was reduced by 46–52% and 31–57% by both C. minitans LU112 and T. hamatum LU593 as MP soil incorporations, respectively, in the two field experiments. T. virens LU556 MP soil incorporation and C. minitans LU112 and T. hamatum LU593 transplant potting mix incorporations reduced S. sclerotiorum disease in the first experiment but not in the second experiment. A commercial C. minitans LU112 formulation, C. Mins LU112 WG, also significantly reduced S. sclerotiorum disease by 59%. Soil incorporation of C. minitans and T. hamatum was shown to have potential to control S. sclerotiorum disease in cabbage.