Frequencies and spatial patterns of white hypovirulent and pigmented strains of Cryphonectria parasitica within blight-controlled cankers on grafted American chestnut trees 15–16 years after inoculation

The frequencies and spatial patterns of white and pigmented strains of Cryphonectria parasitica were investigated within cankers in a zone on grafted American chestnut trees inoculated with white (European) and pigmented hypovirulent strains (H-inoculated zone) 15–16 years earlier. Six 7 × 7 lattice plots (each 17.8 × 17.8 cm) were established on cankers in the H-inoculated zone of the grafts. Assays of 49 bark cores per lattice indicated that 35.3% of 306 C. parasitica isolates recovered from the six lattice plots were white. The white isolates had a random pattern, potentially favorable to biocontrol, within the highly superficial cankers, based on join-count statistics of the six lattice plots. Pigmented isolates dominated the C. parasitica population, and virulence trials on American chestnut sprouts indicated 36% of the pigmented isolates from the H-inoculated zone were hypovirulent and 27% were virulent. Most (84.3%) pigmented isolates in a bark core could not be converted to the white phenotype in vitro by white isolates in the same bark core. Five of six lattice plots had a random pattern of pigmented isolates, based on join-count statistics. The sixth lattice plot was composed of an aggregate of 36 lattice cells (area = 232 cm²) containing 12 pigmented vegetative compatability (vc) groups of C. parasitica, which were interwoven in the lattice as a mosaic of thread-like forms, blocks, or ‘islands’ 32 cm² or less in area for each vc group. Hypotheses are advanced to explain why virulent pigmented strains persist in blight-controlled cankers of the H-inoculated zone but do not kill the vascular cambium.