Frequency-dependent selection predicts patterns of radiations and biodiversity

Frequency-dependent selection predicts patterns of radiations and biodiversity

Most empirical studies support a decline in speciation rates through time, although evidence for constant speciation rates also exists. Declining rates have been explained by invoking pre-existing niches, whereas constant rates have been attributed to non-adaptive processes such as sexual selection...

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Bibliographic Details
Published in:PLoS computational biology Vol. 6; no. 8; p. e1000892
Main Authors: Melián, Carlos J, Alonso, David, Vázquez, Diego P, Regetz, James, Allesina, Stefano
Format: Journal Article
Language:English
Published: United States Public Library of Science 01-08-2010
Public Library of Science (PLoS)
Subjects:
Animals
Base Sequence - genetics
Biodiversity
Cichlidae
Cichlids - genetics
Computational Biology/Evolutionary Modeling
Confidence intervals
Ecology/Community Ecology and Biodiversity
Ecology/Theoretical Ecology
Evolution
Evolutionary Biology
Explosions
Finches - genetics
Freshwater
Genetic diversity
Genetic Speciation
Genomes
Hypotheses
Models, Genetic
Mutation
Natural selection
Origin of species
Radiogenetics
Random variables
Selection, Genetic
Trends
United States
Animals
Finches
Base Sequence
Genetic Speciation
Selection, Genetic
Models, Genetic
Biodiversity
Cichlids
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Summary:Most empirical studies support a decline in speciation rates through time, although evidence for constant speciation rates also exists. Declining rates have been explained by invoking pre-existing niches, whereas constant rates have been attributed to non-adaptive processes such as sexual selection and mutation. Trends in speciation rate and the processes underlying it remain unclear, representing a critical information gap in understanding patterns of global diversity. Here we show that the temporal trend in the speciation rate can also be explained by frequency-dependent selection. We construct a frequency-dependent and DNA sequence-based model of speciation. We compare our model to empirical diversity patterns observed for cichlid fish and Darwin's finches, two classic systems for which speciation rates and richness data exist. Negative frequency-dependent selection predicts well both the declining speciation rate found in cichlid fish and explains their species richness. For groups like the Darwin's finches, in which speciation rates are constant and diversity is lower, speciation rate is better explained by a model without frequency-dependent selection. Our analysis shows that differences in diversity may be driven by incipient species abundance with frequency-dependent selection. Our results demonstrate that genetic-distance-based speciation and frequency-dependent selection are sufficient to explain the high diversity observed in natural systems and, importantly, predict decay through time in speciation rate in the absence of pre-existing niches.
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Conceived and designed the experiments: DPV. Analyzed the data: CJM SA. Contributed reagents/materials/analysis tools: CJM DA JR SA. Wrote the paper: CJM DA DPV JR SA.
ISSN:1553-7358
1553-734X
1553-7358
DOI:10.1371/journal.pcbi.1000892