Abstract
Swiss needle cast (SNC) is a foliar disease of Douglas-fir (Pseudotsuga menziesii) caused by Phaeocryptopus gaeumannii (Rohde) Petrak. This fungus is endemic to western North America, where it has historically had little impact in native forests. However, increasing disease severity in western Oregon since the 1990s has prompted renewed interest in P. gaeumannii and SNC. For this study, we analyze multilocus microsatellite genotypes from 482 single-spore isolates from 68 trees across 14 sites in the western Coast Range of Oregon and southwestern Washington. This study assesses genotypic variation and genetic structure at several levels of population hierarchy. Despite the observation that most of the genetic variation occurred within subpopulations, our analyses detected significant differentiation at all hierarchical levels. Clustering among the 482 isolates based on genetic distance clearly supports the existence of two previously described cryptic lineages of P. gaeumannii in the western United States. The two lineages occur in varying proportions along latitudinal and longitudinal gradients in western Oregon and Washington, suggesting a relationship between climate and phylogeography. Sites near Tillamook, Oregon, where SNC is most severe, consist of sympatric subpopulations in which the two lineages comprise roughly equal proportions.
Highlights
Defoliation caused by Phaeocryptopus gaeumannii (Rohde) Petrak was first observed in Douglas-fir plantations in Europe in the 1920s and was termed “Swiss needle cast”
This study aims to assess the spatial scales at which populations of P. gaeumannii are structured in natural populations
Included in these analyses are microsatellite genotypes from 482 isolates of P. gaeumannii collected from 68 trees in 14 Douglas-fir plantations in western Oregon and southwestern Washington
Summary
Defoliation caused by Phaeocryptopus gaeumannii (Rohde) Petrak was first observed in Douglas-fir plantations in Europe in the 1920s and was termed “Swiss needle cast” (hereafter SNC). Later studies of SNC disease physiology revealed that these symptoms are caused by reduced gas exchange in the needles due to the occlusion of the stomata by ascocarps (pseudothecia) produced by this fungus. This blockage of the stomata leads to a reduction in carbon assimilation proportional to the percentage of total stomates occupied by pseudothecia [3] Abscission occurs when a needle ceases to function as a carbon source [4]. Regional SNC aerial surveys conducted annually since 1996 have documented gradual expansions in the area affected by the disease and in Forests 2016, 7, 14; doi:10.3390/f7010014 www.mdpi.com/journal/forests
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