Factors Influencing the Regional Dynamics of Butternut Canker

Butternut (Juglans cinerea) is an important component of native biodiversity in eastern North America. Of urgent concern is the survival of butternut, whose populations are declining rapidly, in large part due to an exotic pathogen, Ophiognomonia clavigignenti-juglandacearum, that causes butternut canker. The disease presently occurs throughout the range of butternut in North America, causing branch and stem cankers, dieback, and tree mortality. Despite the existential threat posed by O. clavigignenti-juglandacearum to butternut, a detailed understanding of the factors that drive cross-scale disease patterns is lacking. Therefore, we investigated the association of a range of factors, including tree attributes, topography, and weather, with butternut canker spatial dynamics at different scales using data collected in the province of Quebec, Canada. Trunk canker damage and dieback showed distinct geographic patterns. Bark phenotype was not significantly associated with trunk canker damage. Results suggest that open or dominant trees may show less dieback than intermediate or suppressed trees. Probability of the presence of trunk canker and percent dieback were proportional to the tree diameter at breast height. Temperature was positively associated with disease severity at a 1-km2 scale. Our results provide strong evidence that multiple factors, notably weather, influence butternut canker epidemiology.

Inhibition of Ophiognomonia clavigignenti-juglandacearum by Juglans Species Bark Extracts

A rapid and reliable technique is needed for identifying butternut trees (Juglans cinerea) with resistance to butternut canker. We investigated the potential of a bark extract bioassay to detect levels of resistance to Ophiognomonia clavigignenti-juglandacearum (Oc-j), the causal agent of butternut canker. Both reagent grade naphthoquinones and crude bark extracts of Juglans species inhibited germination of Oc-j conidia. A disc diffusion bioassay was used to study the level of inhibition by these bark extracts and results indicated extensive variation within and between butternut and other species of Juglans tested. In many months over a 3 year period, bark from butternut trees selected for apparent disease resistance could be distinguished from that of unselected trees. Inhibition of conidia germination roughly correlated to the level of resistance observed in field inoculations of the trees. Quantification of the naphthoquinone compounds juglone and plumbagin in butternut bark was performed using ultra-high performance liquid chromatography mass spectrometry. While the concentrations of these two compounds varied by month and by individual tree, juglone levels correlated well with the bark extract bioassay in some months. These results suggest that juglone concentration may account in part for the observed range of inhibition observed in the bioassay and variation in canker resistance among selections of butternut field inoculated with Oc-j. The bark extract bioassay described in the following report may have potential use for selecting resistant butternut for conservation and restoration purposes.

Molecular Diagnostic Assay for Detection of the Butternut Canker Pathogen Sirococcus clavigignenti-juglandacearum

Butternut canker, caused by the fungal pathogen Sirococcus clavigignenti-juglandacearum, is present throughout the range of butternut (Juglans cinerea) and is the primary cause for its decline. A quick and reliable method for identification of S. clavigignenti-juglandacearum would provide a valuable tool for the detection of the pathogen on propagative material to avoid spread, as well as assist studies targeted at the epidemiology of this pathogen, in particular the dissemination of the pathogen by seeds of the butternut. The objective of this study was to develop a diagnostic assay to detect S. clavigignenti-juglandacearum in butternut plant tissue. The primers were developed using an alignment of internal transcribed spacer (ITS) sequences from isolates of S. clavigignenti-juglandacearum and several closely related species. These primers were tested on J. cinerea, 48 isolates of S. clavigignenti-juglandacearum recovered from diseased trees, and 26 species of other fungi recovered from butternut tissue. The primers amplified a product from the DNA of all isolates of S. clavigignenti-juglandacearum, detected its DNA at a concentration as low as 1 pg/μl, and detected the pathogen at a concentration of 1 × 103 spore/ml. The primers developed in this study will be a valuable tool for the detection of S. clavigignenti-juglandacearum present on butternut seeds, and as a rapid diagnostic tool for early detection of the pathogen on butternut trees.

Response of Butternut Selections to Inoculation with Sirococcus clavigignenti-juglandacearum

Butternut trees (Juglans cinerea) clonally propagated via grafting from source trees with putative resistance to butternut canker were inoculated monthly with two isolates of Sirococcus clavigignenti-juglandacearum in a field planting in Minnesota. Significant differences in resulting canker length were found among (i) month of inoculation, (ii) accession, and (iii) isolate. Results support the suggestion that canker-free butternut occasionally found growing among butternut severely affected by butternut canker potentially have disease resistance and may have value for genetic conservation and restoration of the species. Developing an effective resistance screening technique will require additional information on the natural infection process and testing under various climatic conditions across the range of butternut.