Testing the genetic predictions of a biogeographical model in a dominant endemic Eastern Pacific coral (Porites panamensis) using a genetic seascape approach

The coral fauna of the Eastern Tropical Pacific (ETP) is depauperate and peripheral; hence, it has drawn attention to the factors allowing its survival. Here, we use a genetic seascape approach and ecological niche modeling to unravel the environmental factors correlating with the genetic variation...

Full description

Saved in:
Bibliographic Details
Published in:Ecology and evolution 2013-10, Vol.3 (12), p.4070-4091
Main Authors: Saavedra‐Sotelo, Nancy C., Calderon‐Aguilera, Luis E., Reyes‐Bonilla, Héctor, Paz‐García, David A., López‐Pérez, Ramón A., Cupul‐Magaña, Amilcar, Cruz‐Barraza, José A., Rocha‐Olivares, Axayácatl
Format: Article
Language:English
Subjects:
Abundance
Continental margins
Deoxyribonucleic acid
Differentiation
Dispersal
DNA
DNA structure
Ecological niche modeling
Ecological niches
Ecology
Environment models
Environmental degradation
Environmental factors
Funding
Gene sequencing
Genetic diversity
genetic structure
Geographical distribution
Geography
hermatypic coral
Hypotheses
MaxEnt
Niches
Nucleotide sequence
Original Research
Populations
Porites
Porites panamensis
Relative abundance
relaxed Abundant Center Hypothesis
seascape genetics
Substrates
Survival
Citations: Items that this one cites
Items that cite this one
Online Access:Get full text
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:The coral fauna of the Eastern Tropical Pacific (ETP) is depauperate and peripheral; hence, it has drawn attention to the factors allowing its survival. Here, we use a genetic seascape approach and ecological niche modeling to unravel the environmental factors correlating with the genetic variation of Porites panamensis, a hermatypic coral endemic to the ETP. Specifically, we test if levels of diversity and connectivity are higher among abundant than among depauperate populations, as expected by a geographically relaxed version of the Abundant Center Hypothesis (rel‐ACH). Unlike the original ACH, referring to a geographical center of distribution of maximal abundance, the rel‐ACH refers only to a center of maximum abundance, irrespective of its geographic position. The patterns of relative abundance of P. panamensis in the Mexican Pacific revealed that northern populations from Baja California represent its center of abundance; and southern depauperate populations along the continental margin are peripheral relative to it. Genetic patterns of diversity and structure of nuclear DNA sequences (ribosomal DNA and a single copy open reading frame) and five alloenzymatic loci partially agreed with rel‐ACH predictions. We found higher diversity levels in peninsular populations and significant differentiation between peninsular and continental colonies. In addition, continental populations showed higher levels of differentiation and lower connectivity than peninsular populations in the absence of isolation by distance in each region. Some discrepancies with model expectations may relate to the influence of significant habitat discontinuities in the face of limited dispersal potential. Environmental data analyses and niche modeling allowed us to identify temperature, water clarity, and substrate availability as the main factors correlating with patterns of abundance, genetic diversity, and structure, which may hold the key to the survival of P. panamensis in the face of widespread environmental degradation. We test genetic patterns of Porites panamensis predicted by a geographically relaxed version of the Abundant Center Hypothesis (rel‐ACH) using a genetic seascape approach. Patterns of genetic diversity and structure of nuclear DNA sequences (ribosomal DNA and a single copy Open Reading Frame) and five alloenzymatic loci partially agreed with rel‐ACH predictions. Some discrepancies with model expectations may relate to the influence of significant habitat discont
ISSN:2045-7758
2045-7758
DOI:10.1002/ece3.734