Population Genetic Diversity in the Australian 'Seascape': A Bioregion Approach

Genetic diversity within species may promote resilience to environmental change, yet little is known about how such variation is distributed at broad geographic scales. Here we develop a novel Bayesian methodology to analyse multi-species genetic diversity data in order to identify regions of high o...

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Bibliographic Details
Published in:PloS one 2015-09, Vol.10 (9), p.e0136275-e0136275
Main Authors: Pope, Lisa C, Riginos, Cynthia, Ovenden, Jennifer, Keyse, Jude, Blomberg, Simon P
Format: Article
Language:English
Subjects:
Aquatic Organisms - genetics
Australia
Bayes Theorem
Bayesian analysis
Biodiversity
Biogeography
Coastal zone
Data processing
Ecology
Economic analysis
Environmental aspects
Environmental changes
Equator
Evolution
Fisheries
Genetic analysis
Genetic aspects
Genetic diversity
Genetic research
Genetic Variation
Geographical distribution
Geography
Hypotheses
Latitude
Marine animals
Marine conservation
Mathematical models
Model testing
Models, Statistical
Mutation
Phylogenetics
Population
Population (statistical)
Population genetics
Population statistics
R&D
Regression analysis
Research & development
Species
Species diversity
Statistical analysis
Statistical models
Trends
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Summary:Genetic diversity within species may promote resilience to environmental change, yet little is known about how such variation is distributed at broad geographic scales. Here we develop a novel Bayesian methodology to analyse multi-species genetic diversity data in order to identify regions of high or low genetic diversity. We apply this method to co-distributed taxa from Australian marine waters. We extracted published summary statistics of population genetic diversity from 118 studies of 101 species and > 1000 populations from the Australian marine economic zone. We analysed these data using two approaches: a linear mixed model for standardised data, and a mixed beta-regression for unstandardised data, within a Bayesian framework. Our beta-regression approach performed better than models using standardised data, based on posterior predictive tests. The best model included region (Integrated Marine and Coastal Regionalisation of Australia (IMCRA) bioregions), latitude and latitude squared. Removing region as an explanatory variable greatly reduced model performance (delta DIC 23.4). Several bioregions were identified as possessing notably high genetic diversity. Genetic diversity increased towards the equator with a 'hump' in diversity across the range studied (-9.4 to -43.7°S). Our results suggest that factors correlated with both region and latitude play a role in shaping intra-specific genetic diversity, and that bioregion can be a useful management unit for intra-specific as well as species biodiversity. Our novel statistical model should prove useful for future analyses of within species genetic diversity at broad taxonomic and geographic scales.
ISSN:1932-6203
1932-6203
DOI:10.1371/journal.pone.0136275