Same place, different stories: Disparate evolutionary trends of mygalomorph spiders from the Peripampasic orogenic arc

CALATAYUD-MASCARELL ARNAU; FERRETTI NELSON; ENGUÍDANOS ALBA; ARNEDO MIQUEL

JOURNAL OF BIOGEOGRAPHY

WILEY-BLACKWELL PUBLISHING, INC

Lugar: Londres; Año: 2022 p. 1 - 14

0305-0270

Aim: Comparative phylogeography aims to unravel similarities in the population structure and evolutionary processes undergone by co-distributed taxa, under the assumption that they will have experienced the same geoclimatic events. However, small differences in functional traits, particularly those related to dispersal abilities, may translate into incongruent evolutionary histories. Here, we used a sequence target multi-locus approach to infer and compare the phylogeographical patterns of three sympatric mygalomorph spiders in the Argentinean Peripampasic orogenic arc.Location: The mountainous systems of central and northern Argentina.Taxon: Acanthogonatus centralis, Grammostola vachoni and Plesiopelma longisternale (Araneae: Mygalomorphae).Methods: We inferred mitochondrial gene trees (16S+L1+nad1) and nuclear (ITS2) networks of three species of mygalomorph spiders from one hundred and fifty-nine individuals by using Bayesian and Maximum likelihood approaches, and estimated divergence times in a Bayesian framework. Based on our time-stamped gene trees, we reconstructed ancestral areas using the Bayesian Binary MCMC method.Results: Deeply divergent and highly geographically structured populations, isolated since the Late Miocene to mid Pliocene, were obtained in the pycnothelid Acanthogonatus centralis. Conversely, the theraphosids Plesiopelma longisternale and Grammostola vachoni showed slightly divergent and poorly geographically structured populations, tracing back to the Late Pliocene to Early Pleistocene. Main conclusions: We propose that differences in dispersion rates and time of colonization between the theraphosids and the pycnothelid species led to divergent lineage history despite common environmental conditions. We corroborate the key role played by the Plio-Pleistocene geoclimatic events in shaping the present-day diversity of mygalomorph spiders along the Peripampasic orogenic arc. Additionally, we uncovered potentially overlooked species diversity within G. vachoni.