@article {7516, title = {Phylogeny and biogeography of cichlid fishes (Teleostei : Perciformes : Cichlidae)}, journal = {Cladistics}, volume = {20}, number = {6}, year = {2004}, note = {PDFTimes Cited: 3ArticleEnglishCited References Count: 89896wq}, month = {DEC}, pages = {501-517}, abstract = {Family level molecular phylogenetic analyses of cichlid fishes have generally suffered from a limited number of characters and/or poor taxonomic sampling across one or more major geographic assemblage, and therefore have not provided a robust test of early intrafamilial diversification. Herein we use both nuclear and mitochondrial nucleotide characters and direct optimization to reconstruct a phylogeny for cichlid fishes. Representatives of major cichlid lineages across all geographic assemblages are included, as well as nearly twice the number of characters as any prior family-level study. In a strict consensus of 81 equally most-parsimonious hypotheses, based on the simultaneous analysis of 2222 aligned nucleotide characters from two mitochondrial and two nuclear genes, four major subfamilial lineages are recovered with strong support. Etroplinae, endemic to Madagascar (Paretroplus) and southern Asia (Etroplus), is recovered as the sister taxon to the remainder of Cichlidae. Although the South Asian cichlids are monophyletic, the Malagasy plus South Asian lineages are not. The remaining Malagasy lineage, Ptychochrominae, is monophyletic and is recovered as the sister group to a clade comprising the African and Neotropical cichlids. The African (Pseudocrenilabrinae) and Neotropical (Cichlinae) lineages are each monophyletic in this reconstruction. The use of multiple molecular markers, from both mitochondrial and nuclear genes, results in a phylogeny that in general exhibits strong support, notably for early diversification events within Cichlidae. Results further indicate that Labroidei is not monophyletic, and that the sister group to Cichlidae may comprise a large and diverse assemblage of percomorph lineages. This hypothesis may at least partly explain why morphological studies that have attempted to place Cichlidae within Percomorpha, or that have tested cichlid monophyly using only "labroid" lineages, have met with only limited success. (c) The Willi Hennig Society 2004.}, keywords = {biogeography, direct optimization, dna, evolution, fishes, phylogeny, poy}, url = {://000226965400001}, author = {Sparks, J. S. and Smith, W. L.} } @article {7499, title = {Mitochondrial intergenic spacer in fairy basslets (Serranidae: Anthiinae) and the simultaneous analysis of nucleotide and rearrangement data}, journal = {American Museum Novitates}, volume = {3652}, year = {2009}, note = {PDF}, pages = {1-10}, keywords = {dna rearrangement, molecular characters, mtDNA, poy}, author = {Smith, W. L. and Smith, K. R. and Wheeler, W. C.} } @article {7500, title = {Polyphyly of the mail-cheeked fishes (Teleostei : Scorpaeniformes): evidence from mitochondrial and nuclear sequence data}, journal = {Molecular Phylogenetics and Evolution}, volume = {32}, number = {2}, year = {2004}, note = {PDFTimes Cited: 8ReviewEnglishCited References Count: 118838ry}, month = {AUG}, pages = {627-646}, abstract = {Mitochondrial and nuclear DNA sequence data for 105 acanthomorph taxa are analyzed to address questions of scorpaeniform monophyly and relationships. The combination of 3425 aligned base pairs from the mitochondrial small subunit rDNA (12S), large subunit rDNA (16S), and tRNA-Val and the nuclear large subunit rDNA (28S), histone H3, and TMO-4c4 loci are analyzed. Representatives of all scorpaeniform suborders and 32 of 36 scorpaeniform families are included with most suborders represented by multiple species. In addition to 69 scorpaeniform taxa, 36 outgroup taxa, including representatives of most families previously conjectured to be related to the Scorpaeniformes, are analyzed due to serious concerns of scorpaeniform monophyly. The traditionally recognized scorpaeniform fishes are recovered as polyphyletic, The 13 representatives of the Atheriniformes, Blennioidei, Gasterosteoidei, Grammatidae, Notothenioidei, Percidae, Trichodontidae, and Zoarcoidei included in the analysis are all nested within the least inclusive clade that includes all traditionally recognized scorpaeniforms. The scorpaenoid lineage is widely polyphyletic, and its intrarelationships differed significantly from previous hypotheses. The cottoid lineage is paraphyletic with only the presence of the Trichodontidae, as the sister-taxon of the Cottoidei, disrupting the traditional subordinal hypothesis of relationships. (C) 2004 Elsevier Inc. All rights reserved.}, keywords = {direct optimization, evolution, mtDNA, nuDNA, phylogenetics, poy, taxonomy}, url = {://000222732000016}, author = {Smith, W. L. and Wheeler, W. C.} }