Department of Microbiology and Plant Pathology, Forestry and Agricultural Biotechnology Institute, University of Pretoria, Pretoria 0002, South Africa.
Mol Ecol. 2012 Sep;21(18):4452-71. doi: 10.1111/j.1365-294X.2012.05714.x. Epub 2012 Aug 10.
Human-associated introduction of pathogens and consequent invasions is very evident in areas where no related organisms existed before. In areas where related but distinct populations or closely related cryptic species already exist, the invasion process is much harder to unravel. In this study, the population structure of the Eucalyptus leaf pathogen Teratosphaeria nubilosa was studied within its native range in Australia, including both commercial plantations and native forests. A collection of 521 isolates from across its distribution was characterized using eight microsatellite loci, resulting in 112 multilocus haplotypes (MLHs). Multivariate and Bayesian analyses of the population conducted in structure revealed three genetically isolated groups (A, B and C), with no evidence for recombination or hybridization among groups, even when they co-occur in the same plantation. DNA sequence data of the ITS (n = 32), β-tubulin (n = 32) and 27 anonymous loci (n = 16) were consistent with microsatellite data in suggesting that T. nubilosa should be considered as a species complex. Patterns of genetic diversity provided evidence of biological invasions by the pathogen within Australia in the states of Western Australia and New South Wales and helped unravel the pattern of invasion beyond Australia into New Zealand, Brazil and Uruguay. No significant genetic differences in pathogen populations collected in native forests and commercial plantations were observed. This emphasizes the importance of sanitation in the acquisition of nursery stock for the establishment of commercial plantations.
在以前没有相关生物存在的地区,人类携带的病原体的引入和随之而来的入侵是非常明显的。在已经存在相关但不同种群或密切相关的隐种的地区,入侵过程就更难理清了。在这项研究中,研究了桉树叶病原体 Teratosphaeria nubilosa 在其澳大利亚本土范围内的种群结构,包括商业种植园和原生林。从其分布范围内收集了 521 个分离物,使用 8 个微卫星标记进行了特征描述,共产生了 112 个多基因座单倍型(MLHs)。结构中进行的种群多变量和贝叶斯分析显示出三个遗传上隔离的群体(A、B 和 C),没有证据表明群体之间存在重组或杂交,即使它们在同一个种植园中同时出现。ITS(n=32)、β-微管蛋白(n=32)和 27 个匿名基因座(n=16)的 DNA 序列数据与微卫星数据一致,表明 T. nubilosa 应被视为一个种复合体。遗传多样性模式为病原体在澳大利亚的西澳大利亚州和新南威尔士州的生物入侵提供了证据,并帮助揭示了病原体从澳大利亚到新西兰、巴西和乌拉圭的入侵模式。在原生林和商业种植园中收集的病原体种群没有观察到明显的遗传差异。这强调了在商业种植园建立苗圃时进行卫生处理对获得苗圃苗木的重要性。
