Fine-scale biogeography : tidal elevation strongly affects population genetic structure and demographic history in intertidal fishes
Date
2013
Journal Title
Journal ISSN
Volume Title
Publisher
University of California, eScholarship
Abstract
Numerous studies have demonstrated population genetic structuring in marine species, yet
few have investigated the effect of vertical zonation on gene flow and population structure. Here we use
three sympatric, closely related clinid species, Clinus cottoides, C. superciliosus and Muraenoclinus dor‐
salis, to test whether zonation on South African intertidal rocky shores affects phylogeographic patterns.
We show that the high‐shore restricted species has reduced gene flow and considerably higher FST val‐
ues (FST = 0.9) than the mid‐ and low‐shore species (FST < 0.14). Additionally, we provide evidence for
remarkably different demographic and evolutionary histories, ranging from extreme population bottle‐
necks to population persistence, which are probably linked to effective population size and habitat spe‐
cialisation. This study further highlights the need for a multispecies approach to unravel the biological
and evolutionary processes that drive extant population genetic patterns in marine species, as even
closely related species with similar life histories show highly variable results.
Description
CITATION: Von der Heyden, S., Gildenhuys, E., Bernardi, G. & Bowie, R. C. K. 2013. Fine-scale biogeography : tidal elevation strongly affects population genetic structure and demographic history in intertidal fishes. Frontiers of Biogeopraphy, 5(1):29-38.
The original publication is available at http://escholarship.org/uc/item/97x719zj
The original publication is available at http://escholarship.org/uc/item/97x719zj
Keywords
Clinidae -- Phylogeographic patterns, Marine biology, Molecular ecology -- Atlantic ocean, Population genetic structuring
Citation
Von der Heyden, S., Gildenhuys, E., Bernardi, G. & Bowie, R. C. K. 2013. Fine-scale biogeography : tidal elevation strongly affects population genetic structure and demographic history in intertidal fishes. Frontiers of Biogeopraphy, 5(1):29-38.