Combining Phylogenomics and Fossils in Higher-Level Squamate Reptile Phylogeny: Molecular Data Change the Placement of Fossil Taxa

Wiens, John J.; Kuczynski, Caitlin A.; Townsend, Ted M.; Reeder, Tod W.; Mulcahy, Daniel G.; Sites, Jack W.

doi:10.1093/sysbio/syq048

Cited by 210 publications

(226 citation statements)

References 48 publications

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“…Higher-level relationships within squamates are still not resolved, with a conflict between morphology based trees (e.g., Estes et al, 1988;Conrad, 2008;Gauthier et al, 2012) and those based on molecular or combined data sets (e.g., Townsend et al, 2004;Vidal and Hedges, 2005;Wiens et al, 2006Wiens et al, , 2010Wiens et al, , 2012Conrad et al, 2010;Müller et al, 2011). However, most of these analyses support the monophyly of the same major squamate groups: Iguania, Gekkota, Dibamidae, Scincoidea, Anguimorpha, Serpentes, and Lacertiformes, the latter clade encompassing Amphisbaenia in molecular (e.g., Townsend et al, 2004;Wiens et al, 2012) and combined evidence (Wiens et al, 2006(Wiens et al, , 2010Müller et al, 2011) trees, but not those derived from morphology alone (e.g., Estes et al, 1988;Conrad, 2008;Gauthier et al, 2012). Gauthier et al (2012) use the alternative name Lacertoidea for this clade but previous authors (e.g., Estes et al, 1988;Conrad, 2008) applied Lacertoidea to a larger clade that included xantusiids, a group now more often placed with scincoids (e.g., Vicario et al, 2003;Gauthier et al, 2012;Wiens et al, 2012).…”

Section: Methodsmentioning

confidence: 99%

Lizards and amphisbaenians (Reptilia, Squamata) from the late Eocene of Sossís (Catalonia, Spain)

Bolet

Evans

2013

Palaeontologia Electronica

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A new diverse late Eocene lizard and amphisbaenian assemblage from the classical mammal locality of Sossís (Catalonia, Spain) is described. It represents the first Paleogene lizard assemblage from Spain and the first late Eocene lizard locality from the Iberian Peninsula. The family-level composition of the assemblage replicates that of other contemporaneous European localities, with the presence of iguanians, geckos, lacertids, scincids, cordyliforms, amphisbaenians, anguines, and glyptosaurines. Many of these families still occur in Catalonia, but the presence of thermophilic taxa like iguanians and cordyliforms are indicative of warmer conditions during the Eocene. The closest faunal match is with the contemporaneous French localities of the Phosphorites du Quercy. Sossís and other newly recovered Paleogene Spanish squamate assemblages have the potential to contribute to an understanding of patterns of faunal interchange between different Paleogene bioprovinces, complementing existing data on mammals.

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Section: Methodsmentioning

confidence: 99%

Lizards and amphisbaenians (Reptilia, Squamata) from the late Eocene of Sossís (Catalonia, Spain)

Bolet

Evans

2013

Palaeontologia Electronica

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“…The general homology hypotheses proposed previously using the more inclusive groups Actinistia, Dipnoi, Amphibia, Reptilia, and Mammalia have been applied in this work. The characters that were found to be the most variable were optimized in recent phylogenies for lepidosauria based on morphology using parsimony (Conrad, 2008) and molecular data with Bayesian inference (Wiens et al, 2010). Optimization was done in WinClada (Nixon, 1999) using slow and fast optimization functions.…”

Section: Methodsmentioning

confidence: 99%

“…1) have been considered part of the adductor externus mandibulae complex in previous (Conrad, 2008) and (D) multigene analysis (Wiens et al, 2010). Black circles indicate nonhomplasious changes.…”

Section: Superficial Lateral Muscles: Lao and Raomentioning

confidence: 99%

Jaw Adductor Muscles across Lepidosaurs: A Reappraisal

Daza

Diogo

Johnston

et al. 2011

The Anatomical Record

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The exact homologies of tetrapod jaw muscles remain unresolved, and this provides a barrier for phylogenetic analysis and tracing character evolution. Here, lepidosaur jaw muscles are surveyed using direct examination of species from 23 families and published descriptions of species from 10 families. A revised nomenclature is applied according to proposed homologies with Latimeria. Among lepidosaurs, variation was found in many aspects of jaw muscle anatomy. The superficial layers mm. levator and retractor anguli oris (LAO and RAO) are present in Sphenodon but not all squamates. The external jaw adductor muscles universally present in lepidosaurs are homologous with the main adductor muscle, A2, of Latimeria and include four layers: superficialis (A2-SUP), medialis (A2-M), profundus (A2-PRO), and posterior (A2-PVM). The A2-SUP appears divided in Agamidae, Gekkota, Xantusiidae, and Varanidae. The A2-M is layered lateromedial in lizards but anteroposterior in snakes. The names pseudotemporalis (PS) and pterygomandibularis (PTM) are recommended for subdivisions of the internal adductors of reptiles and amphibians, because the homology of this muscle with the A3 0 and A3 00 of Latimeria remains inconclusive. The intramandibularis of lepidosaurs and Latimeria (A-x) are homologous. The distribution of six jaw muscle characters was found to plot more parsimoniously on phylogenies based on morphological rather than and molecular data. Character mapping indicates that Squamata presents reduction in the divisions of the A2-M, Scincoidea presents reduction or loss of LAO, and two apomorphic features are found for the Gekkota. Anat Rec, 294:1765Rec, 294: -1782Rec, 294: , 2011. V V C 2011 Wiley-Liss, Inc.Key words: Lizard; jaw muscles; skull; Sphenodon; Squamata

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“…Feduccia (2013) claims that phylogenetic systematics is a nonfunctional methodology that is incapable of producing evolutionarily realistic hypotheses and points out that many morphology-based hypotheses have been overturned by molecular data (Feduccia 2013:3). While it is true that some phylogenetic hypotheses for deep relationships within living birds have been affected and sometimes overturned by the addition of molecular sequence data, the majority of morphology-based hypotheses have been substantiated by analysis of molecular data and the combination of morphological and molecular data is a valuable strategy for inferring relationships among extant and extinct organisms (e.g., Wiens 2009, Wiens et al 2010. Additionally, some molecular hypotheses for vertebrate relationships turn out to be unfounded, with either morphology or further molecular analysis providing more compelling alternatives (e.g., whales; Milinkovitch et al 1993).…”

Section: Theoretical and Methodological Misunderstandingsmentioning

confidence: 99%

Rhetoric vs. reality: A commentary on “Bird Origins Anew” by A. Feduccia

Smith

Chiappe

Clarke

et al. 2015

The Auk

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Birds are maniraptoran theropod dinosaurs. The evidence supporting the systematic position of Avialae as a derived clade within Dinosauria is voluminous and derived from multiple independent lines of evidence. In contrast, a paucity of selectively chosen data weakly support, at best, alternative proposals regarding the origin of birds and feathers. Opponents of the theory that birds are dinosaurs have frequently based their criticisms on unorthodox interpretations of paleontological data and misrepresentation of phylogenetic systematic methods. Moreover, arguments against the nested position of Avialae in Dinosauria have often conflated the logically distinct questions of avian origins, the evolution of flight, and the phylogenetic distribution of feathers. Motivated by a Perspectives article with numerous factual inaccuracies that recently appeared in The Auk, we provide a review of the full complement of facts pertaining to the avian origins debate and address the misplaced criticisms raised in that opinion paper. Keywords: evolution of flight, evolution of feathers, evolution of birds, Avialae, maniraptoran theropod dinosaurs, phylogenetic systematics Retórica vs. Realidad: Un comentario sobre ''Bird Origins Anew'' por A. Feduccia, Auk 130:1-12 RESUMEN Las aves son dinosaurios terópodos maniraptores. La evidencia que sustenta la posición sistemática de Avialae como un clado derivado dentro de Dinosauria es voluminosa y se deriva de múltiples líneas independientes de evidencia. En contraste, sólo escasos datos elegidos selectivamente sustentan débilmente propuestas alternativas sobre el origen de las aves y las plumas. Los opositores de la teoría de que las aves son dinosaurios frecuentemente han basado sus críticas en interpretaciones no ortodoxas de los datos paleontológicos y en la tergiversación de los métodos de la sistemática filogenética. Además, los argumentos en contra de la posición anidada de Avialae dentro de Dinosauria han confundido la distinción lógica de las preguntas sobre los orígenes de las aves, la evolución del vuelo y la distribución filogenética de las plumas. Motivados por un artículo de Perspectivas que apareció recientemente en The Auk con numerosas imprecisiones fácticas, presentamos una revisión del conjunto completo de hechos relacionados con el debate sobre el origen de la aves y abordamos las críticas equivocadas que se presentan en dicho artículo de opinión. Palabras clave: Avialae, dinosaurios terópodos maniraptores, evolución de las aves, evolución de las plumas, evolución del vuelo, sistemática filogenética Q 2015 American Ornithologists' Union.

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Combining Phylogenomics and Fossils in Higher-Level Squamate Reptile Phylogeny: Molecular Data Change the Placement of Fossil Taxa

Cited by 210 publications

References 48 publications

Lizards and amphisbaenians (Reptilia, Squamata) from the late Eocene of Sossís (Catalonia, Spain)

Lizards and amphisbaenians (Reptilia, Squamata) from the late Eocene of Sossís (Catalonia, Spain)

Jaw Adductor Muscles across Lepidosaurs: A Reappraisal

Rhetoric vs. reality: A commentary on “Bird Origins Anew” by A. Feduccia

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