American chestnuts (Castanea dentata), effectively eliminated from eastern North America by chestnut blight in the twentieth century, are the subject of multiple restoration efforts. Screening individual trees (or tree types) for blight resistance is a critical step in all of these programs. Traditional screening involves inoculating stems of >3-year-old trees with the blight fungus (Cryphonectria parasitica), then measuring resulting cankers a few months later. A quicker, nondestructive, quantitative assay, usable on younger plants, would enhance restoration efforts by speeding the screening process. The assay presented here meets these requirements by inoculating excised leaves with the blight fungus and measuring resulting necrotic lesions. Leaves can be collected from few-month-old seedlings or fully mature trees, and results are measured after less than a week. Leaves from several lines of both American and Chinese chestnuts were inoculated, as well as the congener Allegheny chinquapin, and experimental leaf assay results correlate well with stem assay results from these species. Inoculations with virulent and hypovirulent blight fungi strains also showed relative patterns similar to traditional inoculations. Given the correlations to established stem assay results, this procedure could be a valuable tool to quickly evaluate blight resistance in American chestnut trees used for restoration.
Fusiform rust is the most economically important disease of loblolly pine (Pinus taeda L.) in the southern United States. Estimates of family resistance to rust are critical for deployment decisions because 95% of loblolly pine plantations are established with individual families. If families show significant interactions with different pathogen inocula, then the performance of some families in different regions may not be predictable. This study compared rust breeding values of 56 loblolly families estimated from two independent sets of trials. We regressed the rust incidence breeding values of the families estimated from broadly based field tests on breeding values of the same families estimated from narrowly based tests. The model F test was highly significant (P Ͻ 0.0001), and breeding values based on local testing explained 75% of the variation in breeding values based on wide-range geographic testing, indicating that local rust breeding values are relatively reliable predictors of families' performance across a broad range of sites. Family rankings were highly consistent across test sites within broadly and narrowly based testing schemes as shown by type B genetic correlations (0.90 and 0.91). We conclude that field testing provides a reliable prediction of the operational value of loblolly families for deployment in regions with a high hazard for fusiform rust.
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