A journey on plate tectonics sheds light on European crayfish phylogeography.

Autor: Pârvulescu, Lucian1 lucian.parvulescu@e-uvt.ro, Pérez‐Moreno, Jorge L.2, Panaiotu, Cristian3, Drăguț, Lucian4, Schrimpf, Anne5, Popovici, Ioana‐Diana1,5, Zaharia, Claudia6, Weiperth, András7, Gál, Blanka7,8, Schubart, Christoph D.9, Bracken‐Grissom, Heather2
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Zdroj: Ecology & Evolution (20457758). Feb2019, Vol. 9 Issue 4, p1957-1971. 15p.
Abstrakt: Crayfish can be used as model organisms in phylogeographic and divergence time studies if reliable calibrations are available. This study presents a comprehensive investigation into the phylogeography of the European stone crayfish (Austropotamobius torrentium) and includes samples from previously unstudied sites. Two mitochondrial markers were used to reveal evolutionary relationships among haplogroups throughout the species' distributional range and to estimate the divergence time by employing both substitution rates and geological calibration methods. Our haplotype network reconstruction and phylogenetic analyses revealed the existence of a previously unknown haplogroup distributed in Romania's Apuseni Mountains. This haplogroup is closely related to others that are endemic in the Dinarides, despite their vast geographical separation (~600 km). The separation is best explained by the well‐dated tectonic displacement of the Tisza–Dacia microplate, which started in the Miocene (~16 Ma) and possibly carried part of the A. torrentium population to the current location of the Apuseni Mountains. This population may thus have been isolated from the Dinarides for a period of ca. 11 m.y. by marine and lacustrine phases of the Pannonian Basin. The inclusion of this geological event as a calibration point in divergence time analyses challenges currently accepted crayfish evolutionary time frames for the region, constraining the evolution of this area's crayfish to a much earlier date. We discuss why molecular clock calibrations previously employed to date European crayfish species divergences should therefore be reconsidered. We surprisingly encountered an entirely unknown haplogroup (APU) of A. torrentium restricted to a small geographical area of the Apuseni Mountains, which happens to be more closely related to those endemic to the Dinarides despite their vast geographical separation (~600 km). The pattern observed is well explained by the tectonic displacement of the Tisza–Dacia microplate and is thus thought to be a direct consequence of it. This Miocene tectonic movement (~16 Ma) is very well dated and as such provides an excellent calibration point for divergence dating analyses of south and central European organisms, and closely related species elsewhere. [ABSTRACT FROM AUTHOR]
Databáze: GreenFILE
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