Comparing visual inspection of trees and molecular analysis of internal wood tissues for the diagnosis of wood decay fungi

Abstract

The extent to which the presence of wood decay fungi in standing trees is underestimated when diagnosis is based on the visual inspection of treeswas studied and whether the rate of underestimation may vary depending on the environmental context (urbanvs. forest sites) and the fungal species was tested. A total of 903 broadleaf and conifer standing trees were inspected for the presence of fruiting bodies or other signs and sampled through a drill-based technique. Multiplex PCRs were used to analyse wood samples. Trees with emerging fruiting bodies ranged from 0 to 11.6 per cent depending on site. However, when analysed through molecular methods, the rate of infected trees was much higher, from 15.7 to 58.0 per cent. On average, visual inspection of trees underestimated >90 per cent of infected trees compared with molecularmethods in both environmental contexts. Higher rates of underestimation were observed for Armillaria spp., Heterobasidion spp. and Phaeolus schweinitzii, whereas lower rates (<80 per cent) for Ganoderma spp. and Perenniporia fraxinea. The range of variation of the underestimation rate was limited; therefore, a 90 per cent underestimate is a useful guide for judging the number of trees actually infected by wood decay fungi based on observations of the frequency of fruiting bodies and other signs.