Abstract
Development of effective biocontrol procedures using ash endophytes to combat an ash pathogen Hymenoscyphus fraxineus would be an appropriate contribution to the ongoing effort to protect European ash stands against ash decline. In this study we investigated the biocontrol potential of two ash endophytes, Thielavia basicola and Minimidochium sp., against H. fraxineus using in vitro plant-fungus and fungus-fungus dual cultures approach in three biocontrol models. The tests aimed to determine whether the endophytes show antagonism toward Fraxinus excelsior and F. pennsylvanica, to assess the level of antagonism of the endophytes toward H. fraxineus and to identify potential secondary metabolites induced by the presence of H. fraxineus. The results that dual culture experiments modeled according to our design may be a very useful tool to precisely study biocontrol potential of fungi, i.e., without the impact of environmental factors. Such experiments also enable the selection of most resistant ash genotypes and rapid propagation, producing large numbers of pathogen-free seedlings. It should be noted, however, that both of the endophytes tested in the dual cultures strongly inhibited the growth of H. fraxineus. Their growth under the influence of callus/seedlings was also inhibited. Comparison of HPLC profiles showed that the presence of H. fraxineus in the post-culture medium induced the production of an unknown secondary metabolite in this species. Such results suggest that some of the plant–fungus combinations examined in this study may have potential to be developed as biocontrol methods, thus increasing the survivability of ash stands under natural conditions.
Highlights
Most tree species harbor abundant communities of microscopic fungi, including numerous species of endophytes [1]
This kind of endophyte-pathogen antagonism effected by secondary metabolites may be frequently observed in dual cultures where mycelial growth of particular fungi is stopped without physical contact of the colonies
The aim of this study was to use the dual cultures approach to precisely investigate the mutual interactions between two endophytes, i.e., T. basicola and Minimidochium sp., ash pathogen H. fraxineus and two ash species F. excelsior and F. pennsylvanica
Summary
Most tree species harbor abundant communities of microscopic fungi, including numerous species of endophytes [1]. In wild plants the communities of endophytes are usually very diverse, both phylogenetically and ecologically [4], resulting in a variety of trophic interactions with the host plant, ranging from parasitism to full mutualism [5,6]. The close integration of fungi within plant tissues offers numerous opportunities for increase of disease resistance in the host. Hypothesized that this is achieved via various secondary metabolites that are secreted in response to the presence of other fungi or bacteria. This kind of endophyte-pathogen antagonism effected by secondary metabolites may be frequently observed in dual cultures where mycelial growth of particular fungi is stopped without physical contact of the colonies. Endophytes can promote plant growth, reduce their sensitivity to abiotic stress, and protect plants against herbivores [8]
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