DNA barcoding of Phymaturus lizards reveals conflicts in species delimitation within the patagonicus clade

DEBANDI, G; CORBALAN, V; A OJEDA; SCOLARO, J.A

JOURNAL OF HERPETOLOGY

SOC STUDY AMPHIBIANS REPTILES

Lugar: Salt Lake City; Año: 2016 vol. 50 p. 654 - 666

0022-1511

Under the DNA Barcode initiative, we used the mitochondrial locus cytochrome c oxidase I (COI) to test if this molecular marker would reliably distinguish among lizard species of the patagonicus clade of Phymaturus. Using 18 described species and two populations of unidenfied species, we calculated intra- and inter-population genetic distances for all operational taxonomic units (OTU) and performed phylogenetic reconstructions using maximum parsimony and maximum likelihood. We identified different species that share the same barcode index number (BIN). Only 12 of the 18 previously described species were recovered, and one candidate species from the new population. By comparing our results with published morphological and molecular phylogenies as well as previous debates, we propose possible explanations for this. In some cases (such as the group with the same BIN formed by P. spurcus, P. spectabilis, P. excelsus, and P. agilis), where the identity of the species was previously debated by other authors, we suggest that the low genetic distances could be attributable to the presence of one species with high polymorphism. On the other hand, in geographically-isolated species such as the group formed by P. payuniae and P. nevadoi, the group formed by P. somuncurensis and P. ceii, and the group formed by P. indistinctus and P. videlai, the topology of the phylogenetic trees indicates that the low genetic distances (also found by other authors analyzing cytochrome b) could be attributable to shared ancestral polymorphism resulting from incomplete lineage sorting.