@ARTICLE{TreeBASE2Ref22934,
author = {J Jaime Z??iga-Vega and Spencer J Ingley and Peter John Unmack and Jerald B Johnson},
title = {Do freshwater ecoregions and continental shelf width predict patterns of historical gene flow in the freshwater fish Poecilia butleri?},
year = {2014},
keywords = {continental shelf width ? freshwater ecoregions ? phylogeography ? Poeciliidae ? vicariance},
doi = {},
url = {http://},
pmid = {},
journal = {Biological Journal of the Linnean Society},
volume = {},
number = {},
pages = {},
abstract = {We examined historical patterns of gene flow in the freshwater fish Poecilia butleri in western Mexico. We tested the hypothesis that the boundaries between four freshwater ecological communities (ecoregions) might have limited the movement of P. butleri because changes in species compositions might restrict establishment between adjacent ecoregions, even in situations where a physical barrier is absent. Hence, we predicted that boundaries between ecoregions should correspond to phylogeographic breaks in P. butleri. We also tested the hypothesis that the width of the continental shelf affected historical gene flow in P. butleri because a broad continental shelf provides a greater opportunity for rivers to coalesce during historical episodes of low sea levels as opposed to a narrow continental shelf that should restrict the potential for gene flow among adjacent rivers. Hence, we predicted greater amounts of historical gene flow among neighbouring river basins in the region of western Mexico where the continental shelf is wider, whereas in the region where the continental shelf is narrower we expected to detect limited levels of historical gene flow. We analyzed mtDNA sequence data (cytochrome b) taken from 264 individuals of P. butleri collected from 34 locations distributed across four different ecoregions in western Mexico. To examine patterns of phylogenetic diversification and historical gene flow in P. butleri we employed several analytical approaches, including traditional tree-based phylogenetic analyses (likelihood and parsimony), haplotype network reconstruction, analyses of molecular variance (AMOVA), and spatial analysis of molecular variance (SAMOVA). We found genetic breaks coinciding with two out of three different ecoregion boundaries, suggesting limited historical gene flow. In addition to different species compositions between these adjacent ecoregions, geological features such as the Trans-Mexican Volcanic Belt and the mountainous topography in southwestern Mexico likely contributed to these observed genetic breaks. In contrast, no genetic break was evident between two other ecoregions, a result that partially rejects our first hypothesis. Several results were consistent with our second hypothesis. Changes in the width of the continental shelf in western Mexico are associated with the observed patterns of historical gene flow. Our results indicate that the interaction among multiple geological and biological factors affect the spatial patterns of genetic diversity of widespread freshwater species.}
}
Citation for Study 15469
Citation title:
"Do freshwater ecoregions and continental shelf width predict patterns of historical gene flow in the freshwater fish Poecilia butleri?".
Study name:
"Do freshwater ecoregions and continental shelf width predict patterns of historical gene flow in the freshwater fish Poecilia butleri?".
This study is part of submission 15469
(Status: Published).
Citation
Z??iga-vega J.J., Ingley S.J., Unmack P.J., & Johnson J.B. 2014. Do freshwater ecoregions and continental shelf width predict patterns of historical gene flow in the freshwater fish Poecilia butleri?. Biological Journal of the Linnean Society, .
Authors
-
Z??iga-vega J.J.
-
Ingley S.J.
-
Unmack P.J.
-
Johnson J.B.
Abstract
We examined historical patterns of gene flow in the freshwater fish Poecilia butleri in western Mexico. We tested the hypothesis that the boundaries between four freshwater ecological communities (ecoregions) might have limited the movement of P. butleri because changes in species compositions might restrict establishment between adjacent ecoregions, even in situations where a physical barrier is absent. Hence, we predicted that boundaries between ecoregions should correspond to phylogeographic breaks in P. butleri. We also tested the hypothesis that the width of the continental shelf affected historical gene flow in P. butleri because a broad continental shelf provides a greater opportunity for rivers to coalesce during historical episodes of low sea levels as opposed to a narrow continental shelf that should restrict the potential for gene flow among adjacent rivers. Hence, we predicted greater amounts of historical gene flow among neighbouring river basins in the region of western Mexico where the continental shelf is wider, whereas in the region where the continental shelf is narrower we expected to detect limited levels of historical gene flow. We analyzed mtDNA sequence data (cytochrome b) taken from 264 individuals of P. butleri collected from 34 locations distributed across four different ecoregions in western Mexico. To examine patterns of phylogenetic diversification and historical gene flow in P. butleri we employed several analytical approaches, including traditional tree-based phylogenetic analyses (likelihood and parsimony), haplotype network reconstruction, analyses of molecular variance (AMOVA), and spatial analysis of molecular variance (SAMOVA). We found genetic breaks coinciding with two out of three different ecoregion boundaries, suggesting limited historical gene flow. In addition to different species compositions between these adjacent ecoregions, geological features such as the Trans-Mexican Volcanic Belt and the mountainous topography in southwestern Mexico likely contributed to these observed genetic breaks. In contrast, no genetic break was evident between two other ecoregions, a result that partially rejects our first hypothesis. Several results were consistent with our second hypothesis. Changes in the width of the continental shelf in western Mexico are associated with the observed patterns of historical gene flow. Our results indicate that the interaction among multiple geological and biological factors affect the spatial patterns of genetic diversity of widespread freshwater species.
Keywords
continental shelf width ? freshwater ecoregions ? phylogeography ? Poeciliidae ? vicariance
External links
About this resource
- Canonical resource URI:
http://purl.org/phylo/treebase/phylows/study/TB2:S15469
- Other versions:
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- Show BibTeX reference
@ARTICLE{TreeBASE2Ref22934,
author = {J Jaime Z??iga-Vega and Spencer J Ingley and Peter John Unmack and Jerald B Johnson},
title = {Do freshwater ecoregions and continental shelf width predict patterns of historical gene flow in the freshwater fish Poecilia butleri?},
year = {2014},
keywords = {continental shelf width ? freshwater ecoregions ? phylogeography ? Poeciliidae ? vicariance},
doi = {},
url = {http://},
pmid = {},
journal = {Biological Journal of the Linnean Society},
volume = {},
number = {},
pages = {},
abstract = {We examined historical patterns of gene flow in the freshwater fish Poecilia butleri in western Mexico. We tested the hypothesis that the boundaries between four freshwater ecological communities (ecoregions) might have limited the movement of P. butleri because changes in species compositions might restrict establishment between adjacent ecoregions, even in situations where a physical barrier is absent. Hence, we predicted that boundaries between ecoregions should correspond to phylogeographic breaks in P. butleri. We also tested the hypothesis that the width of the continental shelf affected historical gene flow in P. butleri because a broad continental shelf provides a greater opportunity for rivers to coalesce during historical episodes of low sea levels as opposed to a narrow continental shelf that should restrict the potential for gene flow among adjacent rivers. Hence, we predicted greater amounts of historical gene flow among neighbouring river basins in the region of western Mexico where the continental shelf is wider, whereas in the region where the continental shelf is narrower we expected to detect limited levels of historical gene flow. We analyzed mtDNA sequence data (cytochrome b) taken from 264 individuals of P. butleri collected from 34 locations distributed across four different ecoregions in western Mexico. To examine patterns of phylogenetic diversification and historical gene flow in P. butleri we employed several analytical approaches, including traditional tree-based phylogenetic analyses (likelihood and parsimony), haplotype network reconstruction, analyses of molecular variance (AMOVA), and spatial analysis of molecular variance (SAMOVA). We found genetic breaks coinciding with two out of three different ecoregion boundaries, suggesting limited historical gene flow. In addition to different species compositions between these adjacent ecoregions, geological features such as the Trans-Mexican Volcanic Belt and the mountainous topography in southwestern Mexico likely contributed to these observed genetic breaks. In contrast, no genetic break was evident between two other ecoregions, a result that partially rejects our first hypothesis. Several results were consistent with our second hypothesis. Changes in the width of the continental shelf in western Mexico are associated with the observed patterns of historical gene flow. Our results indicate that the interaction among multiple geological and biological factors affect the spatial patterns of genetic diversity of widespread freshwater species.}
}
- Show RIS reference
TY - JOUR
ID - 22934
AU - Z??iga-Vega,J Jaime
AU - Ingley,Spencer J
AU - Unmack,Peter John
AU - Johnson,Jerald B
T1 - Do freshwater ecoregions and continental shelf width predict patterns of historical gene flow in the freshwater fish Poecilia butleri?
PY - 2014
KW - continental shelf width ? freshwater ecoregions ? phylogeography ? Poeciliidae ? vicariance
UR - http://dx.doi.org/
N2 - We examined historical patterns of gene flow in the freshwater fish Poecilia butleri in western Mexico. We tested the hypothesis that the boundaries between four freshwater ecological communities (ecoregions) might have limited the movement of P. butleri because changes in species compositions might restrict establishment between adjacent ecoregions, even in situations where a physical barrier is absent. Hence, we predicted that boundaries between ecoregions should correspond to phylogeographic breaks in P. butleri. We also tested the hypothesis that the width of the continental shelf affected historical gene flow in P. butleri because a broad continental shelf provides a greater opportunity for rivers to coalesce during historical episodes of low sea levels as opposed to a narrow continental shelf that should restrict the potential for gene flow among adjacent rivers. Hence, we predicted greater amounts of historical gene flow among neighbouring river basins in the region of western Mexico where the continental shelf is wider, whereas in the region where the continental shelf is narrower we expected to detect limited levels of historical gene flow. We analyzed mtDNA sequence data (cytochrome b) taken from 264 individuals of P. butleri collected from 34 locations distributed across four different ecoregions in western Mexico. To examine patterns of phylogenetic diversification and historical gene flow in P. butleri we employed several analytical approaches, including traditional tree-based phylogenetic analyses (likelihood and parsimony), haplotype network reconstruction, analyses of molecular variance (AMOVA), and spatial analysis of molecular variance (SAMOVA). We found genetic breaks coinciding with two out of three different ecoregion boundaries, suggesting limited historical gene flow. In addition to different species compositions between these adjacent ecoregions, geological features such as the Trans-Mexican Volcanic Belt and the mountainous topography in southwestern Mexico likely contributed to these observed genetic breaks. In contrast, no genetic break was evident between two other ecoregions, a result that partially rejects our first hypothesis. Several results were consistent with our second hypothesis. Changes in the width of the continental shelf in western Mexico are associated with the observed patterns of historical gene flow. Our results indicate that the interaction among multiple geological and biological factors affect the spatial patterns of genetic diversity of widespread freshwater species.
L3 -
JF - Biological Journal of the Linnean Society
VL -
IS -
ER -