Reconstructing ancient Mediterranean crossroads inDeronectesdiving beetles (original) (raw)

2016, Journal of Biogeography

Aim To reconstruct the evolutionary history of a genus of freshwater beetle with a pan-Mediterranean distribution, to test classic hypotheses which proposed a Miocene origin for groups with high biodiversity in the Iberian and Anatolian peninsulas. Location Mediterranean basin. Methods We sequenced four mitochondrial and one nuclear gene from 51 specimens of 30 of the ca. 60 extant species of Deronectes (Dytiscidae), all typical of mid-mountain streams from North Africa and Iberia over most of Europe to the Middle East. We used Maximum Likelihood, Bayesian probabilities with an a priori evolutionary rate and a Dispersal-Extinction-Cladogenesis model to reconstruct their biogeographical history. Results Deronectes has two major lineages which originated in the mid Miocene; one including mostly eastern and another mainly western and central Mediterranean species. From these two areas range expansions, mainly at the end of the Miocene and beginning of the Pliocene, resulted in the many species groups and some of the extant species of the genus. Most of the current diversity and distributions are, however, of Plio-Pleistocene origin, particularly in widespread European species. Main conclusions In line with traditional hypotheses, we found an ancient division between eastern and western Mediterranean lineages of Deronectes, likely resulting from the isolation of Europe west of the Alps from the Balkans and Anatolia during the earlymiddle Miocene. The history of the genus was strongly influenced by major geological and climatic events , with successive cycles of fragmentation and subsequent eastward and westward range expansions, resulting in a steady accumulation of species across the basin. Most of these range movements took place through the north side of the Mediterranean, with only local displacements in the south during the Messinian and a recent (Pleistocene) colonization of the Italian peninsula, which remained largely submerged through most of the genus' evolutionary history.