Revisión osteológica, análisis filogenético y paleocología de proterochampsidae (Reptilia-arcosauriformes)

Históricamente los proterochámpsidos han sido considerados parte del clado Arcosauriformes, entidad tradicionalmente monofilética que incluye especies desde el Pérmico Tardío a la actualidad, los “Proterosuchidae", Erythrosuchidae, Euparkeria capensis Broom y Archosauria. Los proterochámpsidos se distinguen del resto de los arcosauriformes por un cráneo muy deprimido, transversalmente expandido en el extremo posterior, hocico angosto y alargado longitudinalmente, narinas ubicadas sobre la línea media, ausencia del hueso postfrontal y presencia de un pie asimétrico. La familia Proterochampsidae se compone de cinco géneros triásicos registrados exclusivamente en Argentina y Brasil. En esta familia se incluyen las especies argentinas provenientes de la Formación Ischigualasto (Triásico Superior), Cuenca Ischigualasto-Villa Unión, Proterochampsa barrionuevoi Reig (PVSJ 77; PVSJ 606) y una nueva especie del género Chanaresuchus (PVSJ 567). Estos ejemplares se estudian detalladamente, siendo la primera descripción de los neurocráneos de ambas especies, así como la primer descripción de material poscraneano de Proterochampsa barrionuevoi. Con la información obtenida se realiza un análisis filogenético que incluye los proterochámpsidos diferenciados específicamente. Mediante este análisis se soporta la monofilia de los proterochámpsidos, la cual se sostiene con la sinapomorfía referida a la ausencia de dentículos en ambos lados de los dientes. También se presentan las siguientes relaciones internas del taxón: ((Chanaresuchus sp. nov. + C. bonapartei) + Gualosuchus reigi )+ (P. nodosa + P. barrionuevoi)) y se propone una nueva definición de la Familia Proterochampsidae. En el marco filogenéticamente controlado obtenido se proponen medidas de masa para los ejemplares estudiados y se infiere que los mismos debieron presentar la capacidad el estado de cinesis craneana Competente parcialmente cinético, rasgo compartido con algunos dinosaurios predadores. Tanto el análisis filogenético como el estudio paleoecológico realizado se verán complementados por futuros trabajos dirigidos a dilucidar la microanatomía, paleohistología, microestructura dentaria, así como la morfología de la cavidad encefálica en desarrollo.

Complete mitochondrial genome suggests diapsid affinities of turtles

Despite more than a century of debate, the evolutionary position of turtles (Testudines) relative to other amniotes (reptiles, birds, and mammals) remains uncertain. One of the major impediments to resolving this important evolutionary problem is the highly distinctive and enigmatic morphology of turtles that led to their traditional placement apart from diapsid reptiles as sole descendants of presumably primitive anapsid reptiles. To address this question, the complete (16,787-bp) mitochondrial genome sequence of the African side-necked turtle (Pelomedusa subrufa) was determined. This molecule contains several unusual features: a (TA)n microsatellite in the control region, the absence of an origin of replication for the light strand in the WANCY region of five tRNA genes, an unusually long noncoding region separating the ND5 and ND6 genes, an overlap between ATPase 6 and COIII genes, and the existence of extra nucleotides in ND3 and ND4L putative ORFs. Phylogenetic analyses of the complete mitochondrial genome sequences supported the placement of turtles as the sister group of an alligator and chicken (Archosauria) clade. This result clearly rejects the Haematothermia hypothesis (a sister-group relationship between mammals and birds), as well as rejecting the placement of turtles as the most basal living amniotes. Moreover, evidence from both complete mitochondrial rRNA genes supports a sister-group relationship of turtles to Archosauria to the exclusion of Lepidosauria (tuatara, snakes, and lizards). These results challenge the classic view of turtles as the only survivors of primary anapsid reptiles and imply that turtles might have secondarily lost their skull fenestration.

A new crocodilian from the Lower Cretaceous Crato Formation of north-eastern Brazil

A new mesosuchian crocoddian from the Nova Olinda Member of the Crato Formation (Lower Cretaceous, Aptian) of north-eastern Brazil is described. Susisuchus anatoceps gen. et sp. nov. is the first crocodillan to be reported from this formation. It is represented by an incomplete, partially articulated skeleton: the skull and mandible, partial postcranial axial skeleton, forelimbs and portions of the osteodermal skeleton. Preservation of soft tissues includes the skin surrounding both forelimbs and the digits of the right hand. The state of preservation of the specimen suggests that it was incorporated into the basin as a desiccated carcass. Susisuchus anatoceps is one of the oldest crocodilians with a eusuchian-type dorsal shield, comprising a tetraserial paravertebral shield and, either side of this, two sagittal rows of accessory osteoderms. It also possesses amphicoelous thoracic, lumbar and caudal vertebrae. This combination of postcranial features have never before been seen in a crocodilian and warrant the erection of a new family within Mesosuchia: Susisuchidae. Taxonomically, S. anatoceps is similar to a number of Lower Cretaceous mesosuchians previously considered to have given rise to eusuchians, most notably the Glen Rose crocodilian and a new, but as yet undescribed crocodillan from the Lower Cretaceous Winton Formation of western Queensland, Australia. Preliminary preparation of the Winton crocodilian indicates that it may belong to Susisuchidae, supporting the hypotheses of interchange between the vertebrate faunas of South America and Australia during the Lower Cretaceous.