Disease Control and Plant Growth Promotion of Miscanthus × giganteus with Trichoderma Bio-Inoculants

Disease Control and Plant Growth Promotion of Miscanthus × giganteus with Trichoderma Bio-Inoculants

The second-generation bioenergy crop Miscanthus (Miscanthus × giganteus) is being assessed in New Zealand for its potential to provide shelter on irrigated dairy farms. Miscanthus is a perennial sterile hybrid vegetatively propagated rhizomatous C4 grass and the young rhizomes and roots are prone to infection by soil-borne fungal pathogens (Glynn et al., 2015) which can cause deleterious effects on plant establishment and growth. In Europe, several species of Fusarium such as F. avenaceum, F. culmorum, F. moniliforme and F. oxysporum have been implicated as causal agents of root and rhizome rot (Thinggaard, 1997; Covarelli et al., 2012) leading to poor field establishment of in-vitro propagated Miscanthus plants. When tested for their ability to cause disease of Miscanthus, Rhizoctonia solani (Kuhn) was reported as the most aggressive species among nineteen fungal pathogens of cereal crops (Glynn et al. 2015). In New Zealand, R. solani reduces seedling emergence and plant establishment of several herbage species and the problem may be alleviated through biocontrol using Trichoderma fungi (Kandula et al., 2015). In a glass-house study, the effect of four T. atroviride isolates on growth of tissue culture propagated Miscanthus plants in a soil naturally infested with R. solani was investigated.