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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
1

Sequencing three crocodilian genomes to illuminate the evolution of archosaurs and amniotes

St John, John, Braun, Edward, Isberg, Sally, Miles, Lee, Chong, Amanda, Gongora, Jaime, Dalzell, Pauline, Moran, Christopher, Bed'Hom, Bertrand, Abzhanov, Arkhat, Burgess, Shane, Cooksey, Amanda, Castoe, Todd, Crawford, Nicholas, Densmore, Llewellyn, Drew, Jennifer, Edwards, Scott, Faircloth, Brant, Fujita, Matthew, Greenwold, Matthew, Hoffmann, Federico, Howard, Jonathan, Iguchi, Taisen, Janes, Daniel, Khan, Shahid, Kohno, Satomi, de Koning, AP Jason, Lance, Stacey, McCarthy, Fiona, McCormack, John January 2012 (has links)
The International Crocodilian Genomes Working Group (ICGWG) will sequence and assemble the American alligator (Alligator mississippiensis), saltwater crocodile (Crocodylus porosus) and Indian gharial (Gavialis gangeticus) genomes. The status of these projects and our planned analyses are described.
2

Borealosuchus (Crocodylia) from the early Campanian Mooreville chalk reveals new insights into the late Cretaceous fauna of Alabama and the origin of Crocodylian lineages

McCormack, Larkin 01 May 2019 (has links)
Borealosuchus is a significant genus as it is considered either a basal crocodylian or close outgroup. A new species identified from the early Campanian Mooreville Chalk of Alabama is one of the oldest known crocodylians and extends the stratigraphic range of Borealosuchus from the Maastrichtian minimally into the early Campanian. It co-occurs with the giant alligatoroid Deinosuchus in deposits formed in a marginal marine setting with fluvial input. Its age, along with the phylogenetic position of Borealosuchus, renders this material critical for understanding the morphological conditions and relationships at the root of Crocodylia. The most complete specimen consists of partial cranial, mandibular, and postcranial remains preserving a unique combination of characters including a short dentary symphysis, splenial participation in the symphysis, lack of discrete concavity on the angular dorsal margin for an external mandibular fenestra, and bipartite ventral osteoderms. The external mandibular fenestra was either absent or very small, raising questions about the ancestral condition for this structure in Crocodylia. The new species is, surprisingly, closer phylogenetically to more derived species of Borealosuchus, including B. wilsoni, B. threeensis, and B. acutidentatus, than to B. sternbergii and B. formidabilis. This creates many range extensions and ghost lineages in the clade and suggests substantial unsampled diversity within Borealosuchus. Additional mandibular material from the Santonian Eutaw Formation may be referable to this new species, further increasing its stratigraphic range. A specimen consisting of a partial post-cranial skeleton from the Mooreville Chalk is significantly larger than the holotype of the new species, and is referable to Borealosuchus sp., but is too incomplete for more precise referral. These newly described specimens provide additional information about the faunal assemblages of Alabama during the Late Cretaceous and have broader implications because they are some of the earliest crocodylian material known. Indeed, the Eutaw material appears to be the oldest known occurrence of Crocodylia.
3

An actualistic and phylogenetic approach to identifying and interpreting crocodylian bite marks

Drumheller-Horton, Stephanie Katarina 01 December 2012 (has links)
Bite marks provide direct evidence of trophic interactions, feeding behavior, and inter- or intraspecific conflict in the fossil record. However, their utility as a source of taphonomic and paleoecologic data requires differentiation from traces left by other processes. Since the 19th century, taphonomists have often relied on actualistic observations of modern bite marks and feeding behaviors in order to identify diagnostic traces and patterns. A recent increase in interest in taphonomic research has resulted in a large body of work describing patterns of bite marks from many different clades. Most research has been focused on mammalian taxa, but a smaller number of non-mammalian groups, including crocodylians, have also drawn interest. Crocodylians are taphonomic agents who consume and modify bones, often depositing them in the active depositional systems in which they live. However, actualistic observations of crocodylian bite marks have been limited to forensic case studies and surveys of two taxa: Crocodylus niloticus and Crocodylus porosus. Both surveys utilized captive animals, which often exhibit atypical morphologies that may bias ensuing bite mark datasets. In order to address this issue, a 2D morphometric analysis of Alligator mississippiensis crania from captive and wild specimens was performed. A principal component analysis and a canonical variates analysis revealed some statistically significant differences between the two groups, while crossvalidation had mixed resuts. An ANCOVA test of the covariance of centroid size and origin against shape (principal component scores) revealed that the effects of ontogeny introduced a stronger signal than captivity. This implies that while using captive crocodylians in fine scale analyses should be avoided, they are suitable for gross scale research, such as bite mark analyses. To explore crocodylian bite mark patterns in greater depth, a large scale survey of traces left by A. mississippiensis was performed. Bite mark types on samples taken from individual feedings were discussed in light of vital statistics and collection protocols. Bite mark types on samples taken from group feedings were classified by location and orientation on bone and type. The results were compared to pre-existing crocodylian datasets with regards to potentially diagnostic traits: bisected marks, hook scores, and a lack of furrows. Bisected marks were found in rates similar to those seen in C. niloticus, and rates of hook scoring and bone breakage were higher. These traces were present in higher rates than those reported in C. porosus. Furrows were identified, but rare. Finally, a survey of bite marks from 21 of the 23 generally recognized species of extant crocodylians was performed to better characterize marks found across Crocodylia and to test methods for synthesizing taphonomic datasets. Bite marks were identified, and specimens were then coded for presence or absence of mark subscores. Attempts to find statistical correlation between mark types, animal vital statistics, and sample collection protocol were unsuccessful. Mapping bite mark character states on a eusuchian phylogeny successfully predicted the presence of bisected marks in previously published, extinct taxa. Predictions for clades that may have created multiple subscores, striated marks, and extensive crushing were also generated. Inclusion of fossil bite marks which have been positively associated with extinct species allow this method to be projected beyond the crown group. The results of this study indicate that phylogenies can and should be explored further for use as predictive tools in a taphonomic framework.
4

The early history of character evolution in alligatoroids

Cossette, Adam Patrick 01 August 2018 (has links)
This project seeks to explore, name, and describe some of the earliest known members of Alligatoroidea. Explorations of Bottosaurus harlani and Deinosuchus reveal that early in their evolutionary history alligatoroids had attained bauplans that are highly divergent from the ancestral condition in both body size and morphology. Bottosaurus harlani preserves aspects of the skull table – including constricted supratemporal fenestrae, a linear frontoparietal suture, and a large trapezoidal dorsal supraoccipital exposure – that are similar to those of caimans. Optimal trees from phylogenetic analysis recover B. harlani in three different positions; as a sister either to the modern dwarf caimans (Paleosuchus), or either living species of Paleosuchus. That a substantial stratigraphic gap separates B. harlani from both species of Paleosuchus, which first appears in the Miocene, along with low character and nodal support raises questions about this relationship. However, should the relationships recovered here be true, Bottosaurus harlani would be the oldest known caiman. The taxon indicates that morphologies common to modern caimans date to the earliest record of the clade. In addition to the enigmatic B. harlani, the Campanian giant Deinosuchus was re-evaluated as part of this project. Recent consensus has been that the three named species of Deinosuchus (D. hatcheri, D. riograndensis, and D. rugosus) represent a single, widely ranging species. Newly-collected material from the Big Bend region of western Texas and increased sampling of the lineage from throughout North America allowed for a review of species-level systematics of Deinosuchus and helped refine its phylogenetic placement among crocodylians. Deinosuchus from western and eastern North America can be consistently differentiated and represent different species. As a result of the lack of diagnostic characters in the very incomplete holotype specimen, the name Deinosuchus is restricted to D. hatcheri. To encompass specimens formerly included in Deinosuchus a new genus, Deinosuchoides, is erected. In addition to naming a new genus, the holotype specimen for Deinosuchus rugosus is determined to be undiagnostic to species level and is therefore a nomen dubium. A new species, Deinosuchoides schwimmeri, is erected upon a cranial specimen from Mississippi. The snout of Deinosuchoides is very long and wide. Almost invariably, crocodylian snouts are either long or wide, but not both. In addition to the unusually long and wide snout, the skull table of this taxon bears hallmarks found in species of other long-snouted taxa such as Tomistoma and Gavialis. To explore the variability of the crocodylian skull table a morphometric analysis was conducted with the inclusion of fossil taxa. As the skull table is robust and likely to be recovered in the paleontological record this element was an ideal fit for a morphometric study. In addition to establishing the morphospace occupation of fossil taxa, the morphometric analysis found considerable overlap in morphospace between Alligatoroidea and Crocodyloidea – the overlap between these groups may be the product of shared ancestry. Additionally, similarities exist in the ecologies of these groups as evidenced by shared snout shape categories. This project finds association between skull table shape and snout length. As such, plotting isolated skull tables in morphospace, may indicate snout length and thus ecology of fossil taxa. When landmarks representing the supratemporal fenestrae are included in the analysis Gavialoidea is broadly separated from the other groups in morphospace. It has been long hypothesized that the size of the supratemporal fenestrae reflect the length of the snout as a result of jaw musculature attaching to their medial margins. However, this relationship is not as straightforward as previously hypothesized; the snouts of the crocodyloids Tomistoma and Euthecodon may exceed the length of the snout in gavialoids but their supratemporal fenestrae are proportionally smaller. This study suggests that a phylogenetic constraint on the size of the supratemporal fenestrae may be present in crocodyloids. In addition to exploring morphospace occupation, allometric trajectories of all extant taxa with available ontogenetic sequences were explored. The smallest extant taxa (O. tetraspis, P. palpebrosus, and P. trigonatus) demonstrate allometric trajectories that plot alongside the juveniles of the other taxa in this analysis. This may suggest that the small sizes of the skull tables in these species were achieved through paedomorphosis, or the maintenance of juvenile morphologies into adulthood.
5

Revize zástupců rodu Diplocynodon [Diapsida, Crocodylia] z území České republiky. / Review of representatives of the genus Diplocynodon [Diapsida, Crocodylia] from Czech Republic

Chroust, Milan January 2016 (has links)
The genus Diplocynodon is a basal alligatoroid with a range of endemic distribution in Europe. The oldest known founds are from Late Palaeocen and the youngest known founds are from Late Miocene. Fossils of this specimen are known also from the Czech republic. In the Master thesis were collected more than 600 founds, mostly fragmentary. In the collections of University of Vienna was found almost complete skull of probably genus Diplocynodon darwini from the Czech republic. The main goal of Master thesis is to make a complexe catalogue of Diplocynodon material from the Czech republic. Key words: Crocodylia, Diplocynodon, Czech republic
6

Anatomy, Evolution, and Functional Significance of Cephalic Vasculature in Archosauria

Sedlmayr, Jayc Clinton 02 August 2002 (has links)
No description available.
7

Revisão sistemática do gênero Mourasuchus (Alligatoroidea, Caimaninae), com comentários sobre filogenia, biogeografia e paleoecologia de Caimaninae / Systematic revision of the Mourasuchus genus (Alligatoroidea, Caimaninae), with comments on the phylogeny, biogeography and paleoecology of Caimaninae

Cidade, Giovanne Mendes 09 June 2015 (has links)
Mourasuchus (Alligatoroidea, Caimaninae) é um táxon extinto de crocodilianos restrito ao Cenozoico da América do Sul. Representa um dos grupos de crocodilianos mais peculiares de todos os tempos, devido ao formato longo, largo e achatado de seu rostro (lembrando o bico de um pato) entre outras características. Apesar dessas peculiaridades, relativamente poucos trabalhos foram feitos sobre esse grupo. A maioria das descrições morfológicas dos fósseis do gênero são sucintas e breves, incluindo as dos holótipos de duas das quatro espécies a ele assinaladas: M. amazonensis e M. arendsi. Do mesmo modo, as diagnoses das quatro espécies também se mostram sucintas. Poucas também são as análises filogenéticas realizadas com Mourasuchus a maioria das quais, porém, recupera Orthogenysuchus olseni, do Eoceno dos Estados Unidos, como táxon-irmão de Mourasuchus, gerando um impasse biogeográfico. Além disso, a maneira exata pela qual Mourasuchus se alimentava, fazendo uso de seu peculiar rostro bico de pato, bem como seus itens alimentares, ainda não foram plenamente esclarecidos, ainda que algumas teorias tenham sido propostas na literatura. Assim, este trabalho se propôs a: oferecer uma re-descrição dos holótipos de M. amazonensis e M. arendsi; revisar as diagnoses das espécies e do próprio gênero; realizar uma análise filogenética investigando as relações das espécies entre si e do gênero, como um todo, em Caimaninae; investigar a relação de Orthogenysuchus olseni como táxon-irmão de Mourasuchus; elucidar o modo de forrageio e os itens alimentares consumidos pelo grupo. As re-análises das diagnoses das espécies revelaram que duas delas constituem, na verdade, espécies não-válidas, enquanto a análise de um novo material craniano descrito neste trabalho (MCNC-PAL-110-72V) revelou a existência de uma nova espécie de Mourasuchus, fazendo com que este trabalho reconheça três espécies válidas para o gênero. A análise filogenética revelou M. atopus como o táxon mais basal, enquanto M. amazonensis e a nova espécie proposta formam um clado mais derivado. Orthogenysuchus olseni não foi recuperado como táxon-irmão de Mourasuchus em nenhuma das análises, mas seu posicionamento ainda dentro de Caimaninae faz com que impasses biogeográficos permaneçam. Este trabalho defende que Mourasuchus coletava presas em grande quantidade usando a musculatura da parte de baixo de seu rostro uma alimentação coletora enquanto ainda não há evidências de que esses animais fariam uma filtração da massa alimentar coletada. É possível, também, que tal hábito tenha evoluído a partir do hábito alimentar durófago exibido por Caimaninae basais, especialmente o gênero Gnatosuchus. / Mourasuchus (Alligatoroidea, Caimaninae) is an extinct crocodilian taxon restricted to the Cenozoic of South America. It represents one of the most peculiar crocodilian groups of all time, due to the long, wide, flattened shape of its rostrum (resembling the beak of a duck), among other features. Regardless these peculiarities, relatively few works have been done about this group. Most of morphological descriptions of the fossils belonging to this genus are shot and brief, including those of two from the four species assigned to it: M. amazonensis and M. arendsi. Similarly, the diagnoses of all the four species are also very brief. The phylogenetic analyses involving Mourasuchus are also very few most of them, however, recover Orthogenysuchus olseni, from the Eocene of the United States, as Mourasuchus sister-taxon, creating a biogeographically problematic scenario. Furthermore, the exact way by which Mourasuchus feed itself, using its peculiar beak of duck rostrum, as well as its prey items, are yet to be determined, even though some proposals have already been made in the literature. As such, this work had the following objectives: offer a redescription of the holotypes of M. amazonensis and M. arendsi; re-evaluate the diagnoses of Mourasuchus species and the genus itself; perform a phylogenetic analysis to evaluate the relationships between Mourasuchus species and of this group, as a whole, within Caimaninae; evaluate the position of Orthogenysuchus olseni as a sister-taxon of Mourasuchus; elucidate the foraging tactics and the prey items consumed by this group. The re-evaluation of the diagnoses of the species revealed that two are in reality non-valid species, while the analysis of a new cranial material described in this work (MCNC-PAL-110-72V) revealed the existence of a new species of Mourasuchus, taking this work to recognize the existence of three valid species for the genus. The phylogenetic analysis recovered M. atopus as the basalmost taxon, while M. amazonensis and the new species proposed in this work form a more derived clade. Orthogenysuchus olseni was not recovered as a Mourasuchus sister-taxon in any of the analyses made, but its position still within Caimaninae maintains biogeographically problematic scenarios in this clade. This work defends that Mourasuchus collected a high number of prey items using the musculature between the lower jaws a collecting foraging tactic while there is still no evidence that these animals could perform a straining of the entire concentration of food it collected. It is possible, as well, that such habit may have evolved from the durophagous feeding habit of some basal Caimaninae, especially Gnatosuchus.
8

Evolution of Neotropical biodiversity : phylogeny, ecology, and biogeography of Mesoeucrocodylia (Vertebrata Crocodyliformes) from the Miocene of Peruvian Amazonia / Evolution de la biodiversité néotropicale : phylogénie, écologie et biogéographie des Mesoeucrocodylia (Vertebrata Crocodyliformes) du Miocène de l'Amazonie péruvienne

Salas-Gismondi, Rodolfo 14 December 2015 (has links)
L’Amazonie occidentale héberge une biodiversité actuelle foisonnante. Si l’évolution des biomes tropicaux de basse altitude est mal documentée dans le temps profond, il semble que le Miocène ait été une période clé pour l’émergence des écosystèmes amazoniens modernes. Une phase majeure de surrection des Andes a en effet provoqué la mise en place du drainage actuel de l’Amazone au Miocène supérieur (10,5 millions d’années). Pour mieux connaître les modalités de l’émergence de la biodiversité néotropicale actuelle, acquérir une meilleure connaissance des biomes proto-amazoniens – antérieurs au Miocène supérieur – est donc crucial. Malheureusement, le registre fossile correspondant était jusqu’à présent très restreint, en particulier pour les vertébrés. En analysant l’évolution, l’écologie et la biogéographie de mésoeucrocodiliens fossiles (caïmans, gavials et sébécidés) découverts dans de nouvelles localités d’Amazonie péruvienne, le présent mémoire permet de dépeindre un épisode clé de la vie foisonnante de la “proto-Amazonie” occidentale au Miocène. La faune de crocodiles des gisements de la région d’Iquitos (13-10 Ma), au Nord-est du Pérou, représente à la fois la plus grande diversité taxonomique (sept espèces associées) et la plus grande variété de morphotypes du rostre connues pour une communauté donnée de crocodyliformes (actuels-fossiles). L’hétérogénéité dmorphologique correspondante recouvre la majeure partie du morpho-espace connu pour l’ensemble des crocodyliformes, ce qui reflète les influences conjointes d’une évolution à long terme, d’une grande abondance/variété de ressources alimentaires, et d’une ségrégation de niches dans un écosystème complexe. Outre les caïmans géants Purussaurus et Mourasuchus, tous les autres crocodiliens sont des taxons nouveaux, parmi lesquels un caïman basal—Gnatusuchus pebasensis—présentant une mandibule massive et en forme de pelle, des dents antérieures proclives et postérieures globuleuses, ainsi qu’un diastème de type « mammalien ». Cette espèce très particulière constitue un exemple extrême d’une radiation évolutive de petits caïmans durophages, associée à l’apogée des mollusques proto-amazoniens, au sein du méga-système humide Pebas. Le seul crocodilien longirostre de cette communauté est le gavialoïde le plus basal du bassin amazonien, crucial pour la reconstitution de l’écologie et du morphotype ancestraux des Gavialoidea. Une fois inclus dans des analyses phylogénétiques-morphométriques, ce nouveau taxon permet de démontrer que le patron longirostre des gavialoïdes sud-américains et indiens résulte d’une évolution convergente, dans des habitats fluviatiles.Situées à la périphérie du biome pébasien et contemporaines des assemblages d’Iquitos (fin du Miocène moyen), les localités de l’Arche de Fitzcarrald correspondent à une influence plus marquée des Andes, en termes d’environnements. Cette faune de crocodiliens inclut des sébécidés (Sebecosuchia) au crâne comprimé latéralement et des gavials dérivés et aux yeux proéminents (Gavialoidea), associés à divers caïmans (Mourasuchus, Purussaurus, Paleosuchus et Eocaiman). La composition de cet assemblage suggère la prédominance de milieux terrestres et fluviatiles dans cette région. Le contraste est fort avec la région d’Iquitos, où les faunes de crocodiles, hautement endémiques, apparaissent plutôt liées à l’existence de marécages dysoxiques typiques du méga-système Pebas. La mise en place du système de drainage transcontinental amazonien au début du Miocène supérieur a entrainé la disparition du système Pebas et le déclin de ces faunes crocodiliennes proto-amazoniennes, remplacées par des communautés dominées par des caïmans plus généralistes (notamment Caiman et Melanosuchus) et des gavials très longirostres. Plus généralement, l’essor, la persistance, puis le déclin de ces écosystèmes aquatiques miocènes à forte productivité a laissé une empreinte durable – et encore perceptible – sur la biodiversité amazonienne. / Under the influential role of the Andean range, western Amazonia developed distinctive environmental conditions that ultimately led to divergent, higher biodiversity within the Neotropics. Although this intimate geologic-biotic interaction might have produced similar phenomena in the past, our knowledge about the tropical biotic evolution occurring in close proximity to these rapid growing mountains is poorly documented in the deep time. A pivotal time interval for the emergence of the modern Amazonian ecosystems occurred during the Miocene, when major Andean uplift remodeled the landscape of the foreland basin and fostered the onset of the Amazon River System, at about 10.5 million years ago. Proto-Amazonian biotas just prior to this episode are integral to understanding origins of Neotropical biodiversity, yet vertebrate fossil evidence was extraordinarily rare thus far. By studying the evolution, ecology, and biogeography of fossil mesoeucrocodylians (caimans, gharials, and sebecids) documented in new rich paleontological sites of eastern Peru, this research provides a snapshot of the florishing Miocene life of western proto-Amazonia. The crocodylian assemblage of the Iquitos bonebeds (middle-late Miocene transition) is extraordinary in representing both the highest taxonomic diversity (with up to seven associated species) and the widest range of snout morphotypes ever recorded in any crocodyliform community, recent or extinct. The heterogeneity of snout shapes at the Peruvian Miocene localities covers most of the morphospace range known for the entire crocodyliform clade reflecting the combined influences of long-term evolution, resource abundance and variety, and niche partitioning in a complex ecosystem, with no recent equivalent. Besides the large-bodied Purussaurus and Mourasuchus, all other crocodylians in Iquitos are new taxa, including a stem caiman—Gnatusuchus pebasensis—bearing a massive shovel-shaped mandible, procumbent anterior and globular posterior teeth, and a mammal-like diastema. This unusual species is an extreme exemplar of a radiation of small caimans with crushing dentitions recording peculiar feeding strategies correlated with a peak in proto-Amazonian molluscan diversity and abundance, deep in the so-called Pebas Mega-Wetland System. The sole long-snouted crocodylian in this community is the basalmost gavialoid of the Amazonian basin, a critical taxon that offers evidence for accurately reconstructing the ancestral anatomy and ecology of this clade. Including this new species in phylogenetic-morphometric analyses suggests that the evolution of the similar rostral pattern between South American and Indian gavialoids results from parallel evolution in riverine habitats. As part of the same prevailing Pebas biome, Fitzcarrald localities correspond to coeval paleoenvironments closer to the Andean influence (13-12 Ma). This fauna includes deep-snouted sebecids (Sebecosuchia) and advanced gavialoids (Gavialoidea) with protruding eyes, associated with a wide array of caimans (Mourasuchus, Purussaurus, Paleosuchus et Eocaiman), and further suggesting the presence of terrestrial settings and fluvially-dominated ecosystems. On the other hand, the highly endemic Iquitos faunas evolved within the dysoxic marshes and swamps typical of the long-lived Pebas Mega-Wetland System (early–early late Miocene) and declined with the inception of the transcontinental Amazon drainage, favoring diversification of longirostrine crocodylians and more modern generalist-feeding caimans. Indeed, the end of the Pebas Mega-Wetland System notably resulted in the reduction of the phylogenetic and morphotypical mesoeucrocodylian proto-Amazonian diversity, designating the beginning of the modern Amazonian faunas. The rise and demise of distinctive, highly productive aquatic ecosystems substantially influenced evolution of Amazonian biodiversity hotspots of crocodylians and other organisms throughout the Neogene.
9

Revisão sistemática do gênero Mourasuchus (Alligatoroidea, Caimaninae), com comentários sobre filogenia, biogeografia e paleoecologia de Caimaninae / Systematic revision of the Mourasuchus genus (Alligatoroidea, Caimaninae), with comments on the phylogeny, biogeography and paleoecology of Caimaninae

Giovanne Mendes Cidade 09 June 2015 (has links)
Mourasuchus (Alligatoroidea, Caimaninae) é um táxon extinto de crocodilianos restrito ao Cenozoico da América do Sul. Representa um dos grupos de crocodilianos mais peculiares de todos os tempos, devido ao formato longo, largo e achatado de seu rostro (lembrando o bico de um pato) entre outras características. Apesar dessas peculiaridades, relativamente poucos trabalhos foram feitos sobre esse grupo. A maioria das descrições morfológicas dos fósseis do gênero são sucintas e breves, incluindo as dos holótipos de duas das quatro espécies a ele assinaladas: M. amazonensis e M. arendsi. Do mesmo modo, as diagnoses das quatro espécies também se mostram sucintas. Poucas também são as análises filogenéticas realizadas com Mourasuchus a maioria das quais, porém, recupera Orthogenysuchus olseni, do Eoceno dos Estados Unidos, como táxon-irmão de Mourasuchus, gerando um impasse biogeográfico. Além disso, a maneira exata pela qual Mourasuchus se alimentava, fazendo uso de seu peculiar rostro bico de pato, bem como seus itens alimentares, ainda não foram plenamente esclarecidos, ainda que algumas teorias tenham sido propostas na literatura. Assim, este trabalho se propôs a: oferecer uma re-descrição dos holótipos de M. amazonensis e M. arendsi; revisar as diagnoses das espécies e do próprio gênero; realizar uma análise filogenética investigando as relações das espécies entre si e do gênero, como um todo, em Caimaninae; investigar a relação de Orthogenysuchus olseni como táxon-irmão de Mourasuchus; elucidar o modo de forrageio e os itens alimentares consumidos pelo grupo. As re-análises das diagnoses das espécies revelaram que duas delas constituem, na verdade, espécies não-válidas, enquanto a análise de um novo material craniano descrito neste trabalho (MCNC-PAL-110-72V) revelou a existência de uma nova espécie de Mourasuchus, fazendo com que este trabalho reconheça três espécies válidas para o gênero. A análise filogenética revelou M. atopus como o táxon mais basal, enquanto M. amazonensis e a nova espécie proposta formam um clado mais derivado. Orthogenysuchus olseni não foi recuperado como táxon-irmão de Mourasuchus em nenhuma das análises, mas seu posicionamento ainda dentro de Caimaninae faz com que impasses biogeográficos permaneçam. Este trabalho defende que Mourasuchus coletava presas em grande quantidade usando a musculatura da parte de baixo de seu rostro uma alimentação coletora enquanto ainda não há evidências de que esses animais fariam uma filtração da massa alimentar coletada. É possível, também, que tal hábito tenha evoluído a partir do hábito alimentar durófago exibido por Caimaninae basais, especialmente o gênero Gnatosuchus. / Mourasuchus (Alligatoroidea, Caimaninae) is an extinct crocodilian taxon restricted to the Cenozoic of South America. It represents one of the most peculiar crocodilian groups of all time, due to the long, wide, flattened shape of its rostrum (resembling the beak of a duck), among other features. Regardless these peculiarities, relatively few works have been done about this group. Most of morphological descriptions of the fossils belonging to this genus are shot and brief, including those of two from the four species assigned to it: M. amazonensis and M. arendsi. Similarly, the diagnoses of all the four species are also very brief. The phylogenetic analyses involving Mourasuchus are also very few most of them, however, recover Orthogenysuchus olseni, from the Eocene of the United States, as Mourasuchus sister-taxon, creating a biogeographically problematic scenario. Furthermore, the exact way by which Mourasuchus feed itself, using its peculiar beak of duck rostrum, as well as its prey items, are yet to be determined, even though some proposals have already been made in the literature. As such, this work had the following objectives: offer a redescription of the holotypes of M. amazonensis and M. arendsi; re-evaluate the diagnoses of Mourasuchus species and the genus itself; perform a phylogenetic analysis to evaluate the relationships between Mourasuchus species and of this group, as a whole, within Caimaninae; evaluate the position of Orthogenysuchus olseni as a sister-taxon of Mourasuchus; elucidate the foraging tactics and the prey items consumed by this group. The re-evaluation of the diagnoses of the species revealed that two are in reality non-valid species, while the analysis of a new cranial material described in this work (MCNC-PAL-110-72V) revealed the existence of a new species of Mourasuchus, taking this work to recognize the existence of three valid species for the genus. The phylogenetic analysis recovered M. atopus as the basalmost taxon, while M. amazonensis and the new species proposed in this work form a more derived clade. Orthogenysuchus olseni was not recovered as a Mourasuchus sister-taxon in any of the analyses made, but its position still within Caimaninae maintains biogeographically problematic scenarios in this clade. This work defends that Mourasuchus collected a high number of prey items using the musculature between the lower jaws a collecting foraging tactic while there is still no evidence that these animals could perform a straining of the entire concentration of food it collected. It is possible, as well, that such habit may have evolved from the durophagous feeding habit of some basal Caimaninae, especially Gnatosuchus.
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Aspectos biomecânicos e morfofuncionais do esqueleto apendicular de Prestosuchus Chiniquensis (Archosaurua : Pseudosucha) e suas implicações para a locomoção

Liparini, Alexandre January 2011 (has links)
O estudo das estruturas osteológicas e da musculatura a estas relacionadas permite compreender, em animais extintos, a evolução dos traços associados aos seus hábitos locomotores, especialmente se este estudo considerar os seus representantes atuais, a fim de se estabelecer as relações de homologia e analogia entre as estruturas comparadas e suas respectivas funções inferidas. Além disso, em uma análise biomecânica de espécies fósseis, deve-se considerar, mesmo que de forma aproximada, a massa corporal como atributo fundamental. Prestosuchus chiniquensis é uma espécie extinta de arcossauro terrestre relacionada à linhagem dos crocodilos atuais. Para testar as hipóteses de hábitos locomotores deste táxon, foi feita a reconstrução muscular da coxa do espécime UFRGS-PV-0629-T, com base nas descrições musculares de aves e crocodilos. Observou-se que o conjunto muscular considerado em P. chiniquensis, de uma forma geral, é bastante semelhante ao dos representantes atuais. Dos dezesseis grupos musculares da coxa avaliados, treze foram reconhecidos como presentes e homólogos entre os dois grupos de arcossauros viventes comparados, de modo que a reconstrução destes músculos, no exemplar fóssil analisado, se mostrou a opção mais parcimoniosa, envolvendo o menor número de passos evolutivos. Por outro lado, a morfologia da cintura pélvica e dos membros posteriores confere uma disposição distinta dos locais de origem e inserção desta musculatura, com possível alteração das linhas de ação dos mesmos. Por fim, a comparação com formas arcossaurianas extintas e atuais mostrou uma condição basal mantida para a morfologia do fêmur e a flexão do joelho, enquanto a morfologia do púbis e do ísquio – e a origem da musculatura a eles associada – revelou um padrão derivado. Paralelamente, diversas metodologias para a estimativa da massa de formas extintas foram aplicadas e comparadas, com o intuito de realizar inferências biomecânicas para o hábito locomotor de P. chiniquensis. O espécime considerado, com 4,5 m de comprimento total, apresentou uma massa média estimada de 400 kg, a qual, em conjunto com a morfologia geral dos ossos dos membros posteriores, se mostrou compatível com um hábito locomotor subcursorial, além de uma postura preferencialmente mesógrada e quadrúpede. Contudo, devido ao caráter generalista inferido – permitindo uma ampla gama de posturas admissíveis – foi sugerida uma estratégia de caça por emboscada, na qual P. chiniquensis adotaria uma postura bípede e ortógrada, que poderia conferir à espécie vantagens, tal como uma maior velocidade em relação à postura usual. / Studying osteological structures and its associated musculature may help to understand the evolution of locomotor traits in extinct animals, especially if this study considers their extant relatives, in order to set up homologies and analogies between the compared structures and their inferred functions. Furthermore, in a biomechanical analysis of the fossil record one should consider the estimated body mass as a fundamental attribute. Prestosuchus chiniquensis is an extinct species of terrestrial archosaur related to extant crocodiles. To test different hypotheses related to the locomotion of this taxon, the muscular reconstruction of the thigh of the specimen UFRGS-PV-0629-T was realized, based on the muscular descriptions of extant birds and crocodiles. It was observed that the main muscular groups considered for the reconstruction of P. chiniquensis were similar in birds and crocodiles in a general manner. Among sixteen muscular groups of the thigh that were analyzed, thirteen were recognized as present and homolog to both extant groups of archosaurs, so that the reconstruction of those muscles in the analyzed fossil specimen showed to be the most parsimonious option, involving the least number of evolutionary steps. On the other hand, the morphological particularities of the pelvic girdle and the hindlimbs gave a distinct arrangement for the origin and insertion sites of this musculature, possibly changing their line of actions. Finally, the comparison between extinct and extant archosaurs showed a basal condition sustained in some aspects, such as the morphology of the femur and the flexion of the knee, though, other aspects were considered as derived, such as the morphology of the pubis and ischium, and their associated muscle origins. At the same time, different methodologies for estimating body mass of fossil specimens were applied, and compared in order to make biomechanical inferences of the locomotors habits of P. chiniquensis. The specimen considered, approximately 4.5 m long (15 ft), presented an estimated mass of 400 kg (around 880 lbs), which, with the general morphology of the hindlimbs, were consistent with a subcursorial locomotor habit, with a preferential “semi-improved” and quadruped posture. However, due to the generalist character inferred for P. chiniquensis – which permitted a wide range of feasible postures – an ambush hunting strategy, with a biped and totally improved posture, may be admitted, possibly conferring some advantages, such as higher speeds, if compared to usual postures.

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