Department of Biology, Wesleyan University, Middletown, CT 06459, USA.
Appl Environ Microbiol. 2010 Mar;76(5):1349-58. doi: 10.1128/AEM.01988-09. Epub 2010 Jan 4.
Microbial ecologists and systematists are challenged to discover the early ecological changes that drive the splitting of one bacterial population into two ecologically distinct populations. We have aimed to identify newly divergent lineages ("ecotypes") bearing the dynamic properties attributed to species, with the rationale that discovering their ecological differences would reveal the ecological dimensions of speciation. To this end, we have sampled bacteria from the Bacillus subtilis-Bacillus licheniformis clade from sites differing in solar exposure and soil texture within a Death Valley canyon. Within this clade, we hypothesized ecotype demarcations based on DNA sequence diversity, through analysis of the clade's evolutionary history by Ecotype Simulation (ES) and AdaptML. Ecotypes so demarcated were found to be significantly different in their associations with solar exposure and soil texture, suggesting that these and covarying environmental parameters are among the dimensions of ecological divergence for newly divergent Bacillus ecotypes. Fatty acid composition appeared to contribute to ecotype differences in temperature adaptation, since those ecotypes with more warm-adapting fatty acids were isolated more frequently from sites with greater solar exposure. The recognized species and subspecies of the B. subtilis-B. licheniformis clade were found to be nearly identical to the ecotypes demarcated by ES, with a few exceptions where a recognized taxon is split at most into three putative ecotypes. Nevertheless, the taxa recognized do not appear to encompass the full ecological diversity of the B. subtilis-B. licheniformis clade: ES and AdaptML identified several newly discovered clades as ecotypes that are distinct from any recognized taxon.
微生物生态学家和系统学家面临着一个挑战,需要发现导致一个细菌种群分裂成两个具有明显生态差异的种群的早期生态变化。我们的目标是识别具有物种属性的新分歧谱系(“生态型”),其理由是发现它们的生态差异将揭示物种形成的生态维度。为此,我们从位于死亡谷峡谷内的不同太阳辐射和土壤质地的地点采集了芽孢杆菌-地衣芽孢杆菌群中的细菌。在这个群中,我们根据 DNA 序列多样性假设生态型划分,通过 ES 和 AdaptML 分析该群的进化历史。划分的生态型在与太阳辐射和土壤质地的关联上存在显著差异,表明这些以及相关的环境参数是新的芽孢杆菌生态型生态分歧的维度之一。脂肪酸组成似乎对温度适应的生态型差异有贡献,因为那些具有更多适应温暖环境的脂肪酸的生态型更频繁地从太阳辐射更大的地点分离出来。芽孢杆菌-地衣芽孢杆菌群中被认可的种和亚种与 ES 划分的生态型几乎相同,只有少数情况下,一个被认可的分类单元最多可分为三个假定的生态型。然而,被认可的分类单元似乎并没有包含芽孢杆菌-地衣芽孢杆菌群的全部生态多样性:ES 和 AdaptML 识别出几个新发现的谱系为与任何已认可的分类单元都不同的生态型。