适应新热带地区“inselbergs”的四种近缘凤梨科植物的遗传关系及繁殖策略变异:阿尔坎塔里亚凤梨(Alcantarea glaziouana)、女王阿尔坎塔里亚凤梨(A. regina)、膝曲阿尔坎塔里亚凤梨(A. geniculata)和帝王阿尔坎塔里亚凤梨(A. imperialis)(凤梨科) 。
Genetic relationships and variation in reproductive strategies in four closely related bromeliads adapted to neotropical 'inselbergs': Alcantarea glaziouana, A. regina, A. geniculata and A. imperialis (Bromeliaceae).
作者信息
Barbará Thelma, Martinelli Gustavo, Palma-Silva Clarisse, Fay Michael F, Mayo Simon, Lexer Christian
机构信息
Genetics Section, Jodrell Laboratory, Royal Botanic Gardens, Kew, Richmond, Surrey, UK.
出版信息
Ann Bot. 2009 Jan;103(1):65-77. doi: 10.1093/aob/mcn226.
BACKGROUND AND AIMS
Bromeliads (Bromeliaceae) adapted to rock outcrops or 'inselbergs' in neotropical rain forests have been identified as suitable plant models for studying population divergence and speciation during continental plant radiations. Little is known about genetic relationships and variation in reproductive strategies within and among inselberg-adapted species, yet knowledge of these parameters is important for understanding divergence processes and for conservation planning.
METHODS
Nuclear microsatellites were used to assess the role of clonal reproduction, estimate genetic diversity and explore genetic relationships and variation in reproductive strategies for a total of 15 populations of four closely related Alcantarea inselberg species in south-eastern Brazil: A. glaziouana, A. regina, A. geniculata and A. imperialis.
KEY RESULTS
Clonal propagation is frequent in coastal populations of A. glaziouana and A. regina, but absent in the high-altitude species A. geniculata and A. imperialis. Considerable variation in clonal diversity, gene diversity (H(e)), allelic richness, and Wright's inbreeding coefficient (F(IS)) exists within and between species of Alcantarea. A Bayesian analysis of coastal inselberg species indicated pronounced genetic structure. A neighbor-joining analysis grouped populations of each species together with moderate bootstrap support, except for the high altitude species A. imperialis.
CONCLUSIONS
The coastal inselberg species A. glaziouana and A. regina tend to propagate asexually via vegetative clonal growth, and both reproductive strategies and breeding systems vary greatly between populations and species of Alcantarea. The microsatellite data indicate a history of hybridization and reticulation involving the high-altitude species A. geniculata and A. imperialis in areas of co-occurrence. The results highlight the need to understand similarities and differences in reproductive strategies both within and between related species for conservation planning and as a basis for understanding evolutionary processes in tropical radiations.
背景与目的
凤梨科植物适应新热带雨林中的岩石露头或“inselbergs”,已被确定为研究大陆植物辐射过程中种群分化和物种形成的合适植物模型。对于适应inselbergs的物种内部和之间的遗传关系以及繁殖策略的变化了解甚少,但这些参数的知识对于理解分化过程和保护规划很重要。
方法
利用核微卫星评估克隆繁殖的作用,估计遗传多样性,并探索巴西东南部四种密切相关的Alcantarea inselberg物种(A. glaziouana、A. regina、A. geniculata和A. imperialis)共15个种群的遗传关系和繁殖策略的变化。
关键结果
克隆繁殖在A. glaziouana和A. regina的沿海种群中很常见,但在高海拔物种A. geniculata和A. imperialis中不存在。Alcantarea物种内部和之间在克隆多样性、基因多样性(H(e))、等位基因丰富度和赖特近交系数(F(IS))方面存在相当大的差异。对沿海inselberg物种的贝叶斯分析表明存在明显的遗传结构。除了高海拔物种A. imperialis外,邻接法分析将每个物种的种群聚集在一起,有适度的自展支持。
结论
沿海inselberg物种A. glaziouana和A. regina倾向于通过营养克隆生长进行无性繁殖,Alcantarea种群和物种之间的繁殖策略和育种系统差异很大。微卫星数据表明,在共存区域,高海拔物种A. geniculata和A. imperialis存在杂交和网状进化的历史。结果强调,为了保护规划以及作为理解热带辐射进化过程的基础,需要了解相关物种内部和之间繁殖策略的异同。
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