Mitochondrial lineages or discrete species? Assessing diversity within Timon tangitanus (Lacertidae) using mitochondrial and nuclear DNA sequences

Abstract

Abstract Identification of extremely high levels of mitochondrial DNA (mtDNA) sequence divergence within reptiles from North Africa is commonplace. This high divergence often compares with interspecific levels among widely accepted species, leading to the hypothesis of the occurrence of species complexes. Indeed, in many examples, data from nuclear markers support such taxonomic recognition. Such is the case of two recently recognized ocellated lizard species of the genus Timon, T. nevadensis, from Spain, and T. kurdistanicus, from the Middle East, which both showed notable genetic differentiation from their sister taxa. In North Africa, highly divergent mtDNA lineages of Timon tangitanus were previously identified but not corroborated with nuclear markers. Here we expand geographic sampling across the range of Timon tangitanus and complement mtDNA sequences with data from nuclear markers (MC1R and ACM4). We identify four divergent mtDNA lineages, at a level similar to some reptile species. However, the nuclear markers show limited differentiation and lack of lineage sorting. This and some other recent assessments within reptiles discourage the use of mtDNA data alone as a proxy for taxonomic units, demonstrating once more the need for integrative taxonomic approaches.