Prates Ivan, Melo-Sampaio Paulo Roberto, Drummond Leandro de Oliveira, Teixeira Mauro, Rodrigues Miguel Trefaut, Carnaval Ana Carolina
Department of Biology, City College of New York, New York, NY, USA; Graduate Center, City University of New York, New York, NY, USA.
Departamento de Vertebrados, Museu Nacional, Universidade Federal do Rio de Janeiro, Rio de Janeiro, RJ, Brazil.
Mol Phylogenet Evol. 2017 Aug;113:49-58. doi: 10.1016/j.ympev.2017.05.009. Epub 2017 May 11.
Data on species ranges and phylogenetic relationships are key in historical biogeographical inference. In South America, our understanding of the evolutionary processes that underlie biodiversity patterns varies greatly across regions. Little is known, for instance, about the drivers of high endemism in the southern montane region of the Atlantic Rainforest. In this region, former biogeographic connections with other South American ecosystems have been invoked to explain the phylogenetic affinities of a number of endemic taxa. This may also be the case of the montane anole lizards Anolis nasofrontalis and A. pseudotigrinus, known from few specimens collected more than 40years ago. We combine new genetic data with published sequences of species in the Dactyloa clade of Anolis to investigate the phylogenetic relationships of A. nasofrontalis and A. pseudotigrinus, as well as estimate divergence times from their closest relatives. Based on newly sampled and previously overlooked specimens, we provide a taxonomic re-description of those two taxa. Our phylogenetic analysis recovered six main clades within Dactyloa, five of which were previously referred to as species series (aequatorialis, heterodermus, latifrons, punctatus, roquet). A sixth clade clustered A. nasofrontalis and A. pseudotigrinus with A. dissimilis from western Amazonia, A. calimae from the Andes, A. neblininus from the Guiana Shield, and two undescribed Andean taxa. We therefore define a sixth species series within Dactyloa: the neblininus series. Close phylogenetic relationships between highly disjunct, narrowly-distributed anoles suggest that patches of suitable habitat connected the southern Atlantic Forest to western South America during the Miocene, in agreement with the age of former connections between the central Andes and the Brazilian Shield as a result of Andean orogeny. The data also support the view of recurrent evolution (or loss) of a twig anole-like phenotype in mainland anoles, in apparent association with the occurrence in montane settings. Our findings stress the value of complementary genetic sampling efforts across South American countries to advance studies of mainland anole taxonomy and evolution.
物种分布范围和系统发育关系的数据是历史生物地理学推断的关键。在南美洲,我们对构成生物多样性模式基础的进化过程的理解在不同地区差异很大。例如,对于大西洋雨林南部山区高特有性的驱动因素知之甚少。在该地区,曾有人援引其与其他南美生态系统的既往生物地理联系来解释一些特有类群的系统发育亲缘关系。山地安乐蜥属的纳氏安乐蜥(Anolis nasofrontalis)和拟虎安乐蜥(A. pseudotigrinus)可能也是这种情况,这两种蜥蜴仅在40多年前采集到的少量标本中有记录。我们将新的遗传数据与已发表的安乐蜥属指趾安乐蜥亚科(Dactyloa clade)物种序列相结合,以研究纳氏安乐蜥和拟虎安乐蜥的系统发育关系,并估计它们与其最近亲缘种的分化时间。基于新采集的以及之前被忽视的标本,我们对这两个类群进行了分类学重新描述。我们的系统发育分析在指趾安乐蜥亚科内识别出六个主要分支,其中五个分支之前被归为物种系列(赤道安乐蜥系列、异皮安乐蜥系列、宽额安乐蜥系列、斑点安乐蜥系列、罗氏安乐蜥系列)。第六个分支将纳氏安乐蜥、拟虎安乐蜥与来自亚马逊西部的异形安乐蜥(A. dissimilis)、来自安第斯山脉的卡利马安乐蜥(A. calimae)、来自圭亚那地盾的内布利纳安乐蜥(A. neblininus)以及两个未描述的安第斯类群聚在一起。因此,我们在指趾安乐蜥亚科内定义了第六个物种系列:内布利纳安乐蜥系列。分布高度分散、范围狭窄的安乐蜥之间密切的系统发育关系表明,在中新世期间,适宜栖息地斑块将南大西洋森林与南美洲西部连接起来,这与安第斯造山运动导致的安第斯山脉中部与巴西地盾之间既往连接的时代相符。这些数据还支持了大陆安乐蜥中类似细枝安乐蜥表型反复进化(或丧失)的观点,这显然与山地环境中的出现情况有关。我们的研究结果强调了在南美各国开展补充性遗传采样工作对于推进大陆安乐蜥分类学和进化研究的价值。
