Pozzi Luca, Disotell Todd R, Bearder Simon K, Karlsson Johan, Perkin Andrew, Gamba Marco
Department of Anthropology, University of Texas at San Antonio, San Antonio, Texas, USA,
Department of Anthropology, New York University, New York, New York, USA.
Folia Primatol (Basel). 2019;90(5):279-299. doi: 10.1159/000496972. Epub 2019 Aug 15.
Describing primate biodiversity is one of the main goals in primatology. Species are the fundamental unit of study in phylogeny, behaviour, ecology and conservation. Identifying species boundaries is particularly challenging for nocturnal taxa where only subtle morphological variation is present. Traditionally, vocal signals have been used to identify species within nocturnal primates: species-specific signals often play a critical role in mate recognition, and they can restrict gene flow with other species. However, little research has been conducted to test whether different "acoustic forms" also represent genetically distinct species. Here, we investigate species boundaries between two putative highly cryptic species of Eastern dwarf galagos (Paragalago cocosand P. zanzibaricus). We combined vocal and genetic data: molecular data included the complete mitochondrial cytochrome b gene (1,140 bp) for 50 samples across 11 localities in Kenya and Tanzania, while vocal data comprised 221 vocalisations recorded across 8 localities. Acoustic analyses showed a high level of correct assignation to the putative species (approx. 90%), while genetic analyses identified two separate clades at the mitochondrial level. We conclude that P. cocos and P. zanzibaricus represent two valid cryptic species that probably underwent speciation in the Late Pliocene while fragmented in isolated populations in the eastern forests.
描述灵长类生物多样性是灵长类学的主要目标之一。物种是系统发育、行为、生态和保护研究的基本单位。对于仅存在细微形态变异的夜行性类群而言,识别物种界限极具挑战性。传统上,声音信号被用于识别夜行性灵长类动物中的物种:物种特异性信号通常在配偶识别中发挥关键作用,并且它们可以限制与其他物种的基因流动。然而,很少有研究测试不同的“声学形式”是否也代表基因上不同的物种。在这里,我们研究了两种假定的高度隐秘的东非倭丛猴(Paragalago cocos和P. zanzibaricus)之间的物种界限。我们结合了声音和基因数据:分子数据包括来自肯尼亚和坦桑尼亚11个地点的50个样本的完整线粒体细胞色素b基因(1140 bp),而声音数据包括在8个地点记录的221次发声。声学分析显示对假定物种的正确分类率很高(约90%),而基因分析在线粒体水平上识别出两个独立的分支。我们得出结论,P. cocos和P. zanzibaricus代表两个有效的隐秘物种,它们可能在上新世晚期经历了物种形成,同时在东部森林的孤立种群中分化。