Differential transfer and dissemination of hypovirus and nuclear and mitochondrial genomes of a hypovirus-infected Cryphonectria parasitica strain after introduction into a natural population.

Biological control of plant diseases generally requires release of living organisms into the environment. Cryphonectria hypoviruses function as biological control agents for the chestnut blight fungus, Cryphonectria parasitica, and hypovirus-infected C. parasitica strains can be used to treat infected trees. We used naturally occurring molecular marker polymorphisms to examine the persistence and dissemination of the three genomes of a hypovirus-infected C. parasitica strain, namely, the double-stranded RNA genome of Cryphonectria hypovirus 1 (CHV1) and the nuclear and mitochondrial genomes of its fungal host. The hypovirus-infected strain was experimentally introduced into a blight-infested chestnut coppice forest by treating 73 of 246 chestnut blight cankers. Two years after introduction, the hypovirus had disseminated to 36% of the untreated cankers and to 35% of the newly established cankers. Spread of the hypovirus was more frequent within treated sprout clusters than between sprout clusters. Mitochondrial DNA of the introduced fungus also was transferred into the resident C. parasitica population. Concomitant transfer of both the introduced hypovirus and mitochondrial DNA was detected in almost one-half of the treated cankers analyzed. The introduced mitochondrial DNA haplotype also was found in three resident isolates from newly established cankers. The nuclear genome of the introduced strain persisted in the treated cankers but did not spread beyond them.

Cryphonectria radicalis: rediscovery of a lost fungus.

In an attempt to isolate the ascomycete Cryphonectria parasitica (Diaporthales, Valsaceae) from dead chestnut stems, we obtained three C. radicalis strains. All three strains were isolated in areas of Switzerland with high chestnut blight incidence. To confirm our species designation, we compared the three C. radicalis strains to hypovirus (hv)-free and hv-infected C. parasitica strains. The comparison revealed several distinctive characteristics. On potato dextrose agar in the dark, the C. radicalis strains produced a fluffy mycelium and small droplets of a purple exudate giving the mycelium a light pinkish appearance. On corn meal medium in the dark, the C. radicalis strains caused a color change of the medium to purple, whereas the C. parasitica strains did not cause any color change. Ascospores from C. radicalis were significantly smaller than C. parasitica ascospores and their dimensions fit within other published size ranges. Southern hybridization analysis of the two species using nuclear and mitochondrial probes support their taxonomic separation. This separation is further supported by the lack of successful interspecific crosses. In virulence tests on chestnut trees, the C. radicalis strains exhibited very low virulence, comparable to highly hypovirulent hv-infected C. parasitica strains. Our results suggest that C. radicalis still coexists with C. parasitica although at a low frequency.