Multiple forms of selection shape reproductive isolation in a primate hybrid zone

Multiple forms of selection shape reproductive isolation in a primate hybrid zone

Speciation occurs when populations diverge and become reproductively isolated from each other. Natural selection is commonly accepted to play a large role in this process, and it has been widely assumed that reproductive isolation often results as a by‐product of divergence driven by adaptation in a...

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Bibliographic Details
Published in:Molecular ecology Vol. 28; no. 5; pp. 1056 - 1069
Main Authors: Baiz, Marcella D., Tucker, Priscilla K., Cortés‐Ortiz, Liliana
Format: Journal Article
Language:English
Published: England Blackwell Publishing Ltd 01-03-2019
Subjects:
admixture
Admixtures
Allopatry
Alouatta
Animals
Data processing
Differentiation
Divergence
Genetic Speciation
Genetics, Population
Genome - genetics
genomic clines
Genomics
Hybridization, Genetic - genetics
Hybrids
introgression
Loci
Natural selection
population genomics
Population structure
Populations
Primates - genetics
Primates - growth & development
Reproduction - genetics
Reproductive Isolation
Selection, Genetic - genetics
Speciation
Sympatry
Sympatry - genetics
population genomics
Alouatta
admixture
genomic clines
introgression
speciation
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Summary:Speciation occurs when populations diverge and become reproductively isolated from each other. Natural selection is commonly accepted to play a large role in this process, and it has been widely assumed that reproductive isolation often results as a by‐product of divergence driven by adaptation in allopatry. When such populations come into secondary contact, reinforcement can act to strengthen reproductive isolation, but the frequency and importance of this process are still unknown. Here, we explored genomic signatures of selection in allopatry and sympatry for loci associated with reproductive isolation using a natural primate hybrid zone. By analysing reduced‐representation sequencing data, we quantified admixture and population structure across a howler monkey hybrid zone and examined the relationship between locus‐specific differentiation and introgression. We detected extensive admixture that was mostly limited to the narrow contact zone. Loci with reduced introgression into the heterospecific genomic background (the pattern expected for loci associated with reproductive isolation due to selection against hybrids) were significantly more differentiated between allopatric parental populations than loci with neutral and increased introgression, supporting the hypothesis that reproductive isolation is a by‐product of divergence in allopatry. Further, loci with reduced introgression showed greater differentiation in sympatry than in allopatry, suggesting a role for reinforcement. Thus, our results reflect multiple forms of selection that have shaped reproductive isolation in this system. We conclude that reproductive isolation may have initially been driven by divergence in allopatry, but later reinforced by divergent selection in sympatry.
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M.D.B. designed the study, wrote the manuscript, performed laboratory work, analysed data and obtained funding. P.K.T. designed the study and wrote the manuscript. L.C.O. obtained funding, collected samples in conjunction with Mexican collaborators, designed the study and wrote the manuscript.
AUTHOR CONTRIBUTIONS
ISSN:0962-1083
1365-294X
DOI:10.1111/mec.14966