Substratum karstificability, dispersal and genetic structure in a strictly subterranean beetle

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Please use this identifier to cite or link to this item: http://hdl.handle.net/11703/120393
Title: Substratum karstificability, dispersal and genetic structure in a strictly subterranean beetle
Authors: Rizzo, Valeria
Sánchez-Fernández, David
Alonso, Rocío
Pastor, Josep
Ribera, Ignacio
Contributors: Consorci del Museu de Ciències Naturals de Barcelona
Issue Date: 4-Aug-2017
Keywords: Beetles
Round fungus beetles
Sedimentary rocks
Cave animals
Genètica animal
Spatial coverage: Barcelona
Access to document: http://hdl.handle.net/2072/377626
Citation: Journal of biogeography, Volume 44, Issue 11 (Nov. 2017), p. 2527-2538
Publisher: Wiley
Extent: 28 p.
Abstract: Aim The deep subterranean environment is an ideal system to test the effect of physical constraints on the ecology and evolution of species, as it is very homogeneous and with simple communities. We studied the effect of substratum karstificability in the dispersal of the strictly subterranean Troglocharinus ferreri (Reitter) (Coleoptera, Leiodidae) by comparing the genetic diversity and structure of populations in limestone (more soluble) and dolostone (less soluble) in the same karstic system. Location Troglocharinus ferreri is only known from c. 100 vertical shafts in an area of <500 km2 SW of Barcelona (Spain). Methods We sequenced mitochondrial and nuclear markers of a representative sample to identify main lineages within T. ferreri and estimate their temporal origin, and used mitochondrial data of 129 specimens from 41 caves to reconstruct their demographic history and estimate dispersal among caves. Results Troglocharinus ferreri diverged from its sister in the Early Pliocene, with an initial divergence of the sampled populations in the Early Pleistocene. The best demographic model was a constant population size with a fast population increase in the middle Pleistocene. The ancestral population was likely in limestone, with a probability of transition from limestone to dolostone triple to that from dolostone to limestone, suggesting a higher permeability of limestone to the transit of individuals. Populations in dolostone caves had lower gene flow between them and a stronger isolation by distance, although the low genetic variability for the studied markers and the lower abundance of dolostone caves decreased the statistical power of the analyses. Main conclusions Our results point to the physical characteristic of the substratum as a determinant of dispersal and gene flow, potentially conditioning the long‐term evolution of subterranean biodiversity.
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