Repeated colonization and hybridization in Lake Malawi cichlids

Repeated colonization and hybridization in Lake Malawi cichlids

Through adaptive radiation, ancestral species rapidly diversify into multiple species with different ecological adaptations. The haplochromine cichlid fishes of the East African Great Lakes are considered classic examples of adaptive radiation, but our understanding of the evolutionary origins of th...

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Bibliographic Details
Published in:Current biology Vol. 21; no. 3; pp. R108 - R109
Main Authors: Joyce, Domino A., Lunt, David H., Genner, Martin J., Turner, George F., Bills, Roger, Seehausen, Ole
Format: Journal Article
Language:English
Published: England Elsevier Inc 08-02-2011
Subjects:
adaptive radiation
Africa
alleles
Amplified Fragment Length Polymorphism Analysis
ancestry
Animal Migration
Animals
Bayes Theorem
Cichlidae
Cichlids - genetics
Cichlids - physiology
DNA, Mitochondrial - chemistry
genetic markers
Hybridization, Genetic
indigenous species
introgression
mitochondrial DNA
monophyly
nuclear genome
Phylogeny
Rivers
Lake Malawi
Great Lakes
Africa
North America, Great Lakes
Africa, Nyasa L
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Summary:Through adaptive radiation, ancestral species rapidly diversify into multiple species with different ecological adaptations. The haplochromine cichlid fishes of the East African Great Lakes are considered classic examples of adaptive radiation, but our understanding of the evolutionary origins of these radiations has been limited by inadequate taxonomic and genomic sampling [1,2]. Perhaps the largest of these radiations is from Lake Malawi, estimated to contain between 500 and 800 endemic species. Surprisingly, its monophyly — the origin from a single ancestral species — has never been critically tested. This is because river populations which could have seeded the radiation, with one very limited exception [3], have never been included in phylogenetic reconstructions. Moreover, phylogenies have relied heavily on mitochondrial DNA (mtDNA), which can be a misleading phylogenetic marker for species capable of hybridization [4,5] because its non-recombining nature means that transfer to other species can occur via asymmetric introgression and ‘allele surfing’[6]. Here, we used broad taxonomic sampling and nuclear DNA markers with wide genomic coverage and find that the Lake Malawi radiation is not monophyletic, but instead contains genetic material from divergent riverine ancestors indicating multiple invasions and hybridization.
Bibliography:http://dx.doi.org/10.1016/j.cub.2010.11.029
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ISSN:0960-9822
1879-0445
DOI:10.1016/j.cub.2010.11.029