Influences of the biophysical environment on blister rust and mountain pine beetle,and their interactions,in whitebark pine forests

Aim To understand how the biophysical environment influences patterns of infection by non‐native blister rust (caused by Cronartium ribicola) and mortality caused by native mountain pine beetles (Dendroctonus ponderosae) in whitebark pine (Pinus albicaulis) communities, to determine how these disturbances interact, and to gain insight into how climate change may influence these patterns in the future. Location High‐elevation forests in south‐west Montana, central Idaho, eastern and western Oregon, USA. Methods Stand inventory and dendroecological methods were used to assess stand structure and composition and to reconstruct forest history at sixty 0.1‐ha plots. Patterns of blister rust infection and mountain pine beetle‐caused mortality in whitebark pine trees were examined using nonparametric Kruskal–Wallis ANOVA, Mann–Whitney U‐tests, and Kolmogorov–Smirnov two‐sample tests. Stepwise regression was used to build models of blister rust infection and mountain pine beetle‐related mortality rates based on a suite of biophysical site variables. Results Occurrence of blister rust infections was significantly different among the mountain ranges, with a general gradient of decreasing blister rust occurrence from east to west. Evidence of mountain pine beetle‐caused mortality was identified on 83% of all dead whitebark pine trees and was relatively homogenous across the study area. Blister rust infected trees of all ages and sizes uniformly, while mountain pine beetles infested older, larger trees at all sites. Stepwise regressions explained 64% and 58% of the variance in blister rust infection and beetle‐caused mortality, respectively, indicating that these processes are strongly influenced by the biophysical environment. More open stand structures produced by beetle outbreaks may increase the exposure of surviving whitebark pine trees to blister rust infection. Main conclusions Variability in the patterns of blister rust infection and mountain pine beetle‐caused mortality elucidated the fundamental dynamics of these disturbance agents and suggests that the effects of climate change will be complex in whitebark pine communities and vary across the species’ range. Interactions between blister rust and beetle outbreaks may accelerate declines or facilitate the rise of rust resistance in whitebark pine depending on forest conditions at the time of the outbreak.     

中国松疱锈病菌锈孢子表面形态的扫描电镜观察*

中国10种松树的疱锈病菌锈孢子表面形态,在扫描电镜下观察并进行比铰,可归纳为两种类型:一是以单维管束松类的五针松的红松疱锈病菌(Cronartium ribicola)为代表,包括华山松和西伯利亚红松;另一是以双维管束松类的云南松疱锈病菌(C. flaccidum)为代表,包括樟子松、油松、赤松、马尾松、黄山松、思茅松等。孢子表面突起的形状及环纹层次是识别这两种锈疱子的主要特征。     

Interspecific phylogenetic analysis enhances intraspecific phylogeographical inference: a case study in Pinus lambertiana

Pinus lambertiana (sugar pine) is an economically and ecologically important conifer with a 1600-km latitudinal range extending from Oregon, USA, to northern Baja California, Mexico. Like all North American white pines (subsect. Strobus), sugar pine is highly susceptible to white pine blister rust, a disease caused by the fungus Cronartium ribicola. We conducted a chloroplast DNA (cpDNA) survey of Pinus subsect. Strobus with comprehensive geographical sampling of P. lambertiana. Sequence analysis of 12 sugar pine individuals revealed strong geographical differentiation for two chloroplast haplotypes. A diagnostic restriction site survey of an additional 72 individuals demarcated a narrow 150-km contact zone in northeastern California. In the contact zone, maternal (megagametophtye) and paternal (embryo) haplotypes were identified in 31 single seeds, demonstrating bidirectional pollen flow extending beyond the range of maternal haplotypes. The frequencies of the Cr1 allele for white pine blister rust major gene resistance, previously determined for 41 seed zones, differ significantly among seed zones that are fixed for the alternate haplotypes, or contain a mixture of both haplotypes. Interspecific phylogenetic analysis reveals that the northern sugar pine haplotype belongs to a clade that includes Pinus albicaulis (whitebark pine) and all of the East Asian white pines. Furthermore, there is little cpDNA divergence between northern sugar pine and whitebark pine (dS = 0.00058). These results are consistent with a Pleistocene migration of whitebark pine into North America and subsequent chloroplast introgression from whitebark pine to sugar pine. This study demonstrates the importance of placing phylogeographical results in a broader phylogenetic context.     

Saturation mapping of a major gene for resistance to white pine blister rust in sugar pine

 The molecular basis of resistance to diseases in plants can be better understood if the genes coding for resistance can be cloned. The single major dominant gene (R) that confers resistance to the white pine blister rust fungus (Cronartium ribicola Fisch.) in sugar pine (Pinus lambertiana Dougl.) has been previously mapped. The objectives of the present study were to saturate the region flanking R with tightly linked markers and to construct genetic maps for each of four individual seed trees. Bulked segregant analysis (BSA) and haploid segregation analysis were employed to identify random amplified polymorphic DNA (RAPD) markers linked to R. Automated PCR analysis was used to assay 1115 primers with susceptible and resistant DNA pools from each of four seed trees (8920 PCR reactions). Thirteen RAPD loci were identified that were linked to R. The linkage analyses programs JoinMap 1.4 and Mapmaker 2.0 were used to order RAPD loci relative to R and to construct maps for each of the individual seed trees. Two seed trees, 5701 and 6000, had a large number of tightly linked markers flanking R. These trees will be used in subsequent high-resolution mapping experiments to identify very tightly linked markers to facilitate the eventual cloning of R. Received: 1 May 1998 / Accepted: 13 July 1998     

中国松疱锈病菌锈孢子表面形态的扫描电镜观察

中国10种松树的疱锈病菌锈孢子表面形态,在扫描电镜下观察并进行比铰,可归纳为两种类型:一是以单维管束松类的五针松的红松疱锈病菌(Cronartium ribicola)为代表,包括华山松和西伯利亚红松;另一是以双维管束松类的云南松疱锈病菌(C. flaccidum)为代表,包括樟子松、油松、赤松、马尾松、黄山松、思茅松等。孢子表面突起的形状及环纹层次是识别这两种锈疱子的主要特征。