| Article ID | Journal | Published Year | Pages | File Type |
|---|---|---|---|---|
| 5919427 | Molecular Phylogenetics and Evolution | 2014 | 6 Pages |
â¢AFLPs resolve the phylogeny of Lake Tanganyika's benthic deepwater cichlid lineage.â¢The recently proposed tribe Greenwoodochromini is nested within the Limnochromini.â¢The Limnochromini underwent rapid initial radiation into eco-morphologically distinct lineages.â¢Large phylogenetic distances between outgroup and ingroup taxa cause random outgroup effects.
Phylogenetic analyses of rapid radiations are particularly challenging as short basal branches and incomplete lineage sorting complicate phylogenetic inference. Multilocus data of presence-absence polymorphisms such as obtained by AFLP genotyping overcome some of the difficulties, but also present their own intricacies. Here we analyze >1000 AFLP markers to address the evolutionary history of the Limnochromini, a cichlid fish lineage endemic to Lake Tanganyika, and to test for potential effects of outgroup composition on tree topology. The data support previous mitochondrial evidence on the tribe's taxonomy by confirming the polyphyly of the genus Limnochromis and - in contradiction to a recent taxonomic revision - nesting the genus Greenwoodochromis within the Limnochromini. Species relationships suggest that ecological segregation occurred during the rapid basal radiation of the Limnochromini. The large phylogenetic distance between candidate outgroup taxa and the Limnochromini radiation caused random outgroup effects. Bootstrap support for ingroup nodes was lower in outgroup-rooted than in midpoint-rooted trees, and root positions and ingroup tree topologies varied in response to the composition of the outgroup. These observations suggest that the predisposition for homoplastic evolution makes AFLP-based phylogenetic analyses particularly susceptible to random biases introduced by too-distant outgroup taxa.
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