Devey Dion S, Bateman Richard M, Fay Michael F, Hawkins Julie A
Jodrell Laboratory, Royal Botanic Gardens Kew, Richmond, Surrey TW9 3DS, UK.
Ann Bot. 2009 Aug;104(3):483-95. doi: 10.1093/aob/mcp039. Epub 2009 Feb 26.
A recent phylogenetic study based on multiple datasets is used as the framework for a more detailed examination of one of the ten molecularly circumscribed groups identified, the Ophrys fuciflora aggregate. The group is highly morphologically variable, prone to phenotypic convergence, shows low levels of sequence divergence and contains an unusually large proportion of threatened taxa, including the rarest Ophrys species in the UK. The aims of this study were to (a) circumscribe minimum resolvable genetically distinct entities within the O. fuciflora aggregate, and (b) assess the likelihood of gene flow between genetically and geographically distinct entities at the species and population levels.
Fifty-five accessions sampled in Europe and Asia Minor from the O. fuciflora aggregate were studied using the AFLP genetic fingerprinting technique to evaluate levels of infraspecific and interspecific genetic variation and to assess genetic relationships between UK populations of O. fuciflora s.s. in Kent and in their continental European and Mediterranean counterparts.
The two genetically and geographically distinct groups recovered, one located in England and central Europe and one in south-eastern Europe, are incongruent with current species delimitation within the aggregate as a whole and also within O. fuciflora s.s. Genetic diversity is higher in Kent than in the rest of western and central Europe.
Gene flow is more likely to occur between populations in closer geographical proximity than those that are morphologically more similar. Little if any gene flow occurs between populations located in the south-eastern Mediterranean and those dispersed throughout the remainder of the distribution, revealing a genetic discontinuity that runs north-south through the Adriatic. This discontinuity is also evident in other clades of Ophrys and is tentatively attributed to the long-term influence of prevailing winds on the long-distance distribution of pollinia and especially seeds. A cline of gene flow connects populations from Kent and central and southern Europe; these individuals should therefore be considered part of an extensive meta-population. Gene flow is also evident among populations from Kent, which appear to constitute a single metapopulation. They show some evidence of hybridization, and possibly also introgression, with O. apifera.
最近一项基于多个数据集的系统发育研究被用作框架,以更详细地研究已确定的十个分子界定类群之一,即蜂兰聚群(Ophrys fuciflora aggregate)。该类群在形态上高度可变,易于出现表型趋同,序列分歧水平较低,并且包含异常高比例的受威胁分类群,包括英国最稀有的蜂兰物种。本研究的目的是:(a)在蜂兰聚群内界定出最小可分辨的遗传上不同的实体;(b)评估在物种和种群水平上,遗传和地理上不同的实体之间基因流动的可能性。
使用AFLP遗传指纹技术研究了从欧洲和小亚细亚采集的55份蜂兰聚群样本,以评估种下和种间遗传变异水平,并评估英国肯特郡的狭义蜂兰(O. fuciflora s.s.)种群与其欧洲大陆和地中海对应种群之间的遗传关系。
所恢复的两个遗传和地理上不同的类群,一个位于英格兰和中欧,另一个位于东南欧,这与整个聚群以及狭义蜂兰内当前的物种界定不一致。肯特郡的遗传多样性高于西欧和中欧其他地区。
地理距离较近的种群之间比形态上更相似的种群之间更有可能发生基因流动。地中海东南部的种群与分布在其他地区的种群之间几乎没有基因流动,这揭示了一条贯穿亚得里亚海的南北向遗传间断。这种间断在蜂兰的其他分支中也很明显,并初步归因于盛行风对花粉块尤其是种子远距离传播的长期影响。一条基因流动渐变群连接了肯特郡与中欧和南欧的种群;因此,这些个体应被视为一个广泛的集合种群的一部分。肯特郡的种群之间也存在明显的基因流动,它们似乎构成了一个单一的集合种群。它们显示出与熊蜂兰(O. apifera)杂交甚至可能渐渗的一些证据。
