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A new species of Coloborhynchus (Pterosauria, Ornithocheiridae) from the mid-Cretaceous of North Africa. Cretaceous Research 95: 77.
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Razanandrongobe sakalavae,a gigantic mesoeucrocodylian from the Middle Jurassic of Madagascar, is the oldest known notosuchian. PeerJ 5: e3481.
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Overview of the discovery, distribution, and geological context ofSimosuchus clarki(Crocodyliformes: Notosuchia) from the Late Cretaceous of Madagascar. Journal of Vertebrate Paleontology 30: 4.
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A New Baurusuchid (Crocodyliformes, Mesoeucrocodylia) from the Late Cretaceous of Brazil and the Phylogeny of Baurusuchidae. PLoS ONE 6: e21916.
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The choanal anatomy of theSebecus icaeorhinusSimpson, 1937 and the variation of the palatine shape in notosuchians (Crocodyliformes, Mesoeucrocodylia). Journal of Paleontology 96: 1400.
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Evolution of the carnivorous dinosaurs during the Cretaceous: The evidence from Patagonia. Cretaceous Research 45: 174.
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Reassessment of the enigmatic crocodyliform "Goniopholis" paulistanus Roxo, 1936: Historical approach, systematic, and description by new materials. PLOS ONE 13: e0199984.
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A probable skeleton ofIsisfordia(Crocodyliformes) and additional crocodyliform remains from the Griman Creek Formation (Cenomanian, New South Wales, Australia). Journal of Paleontology 95: 351.
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A new neosuchian with Asian affinities from the Jurassic of northeastern Brazil. Naturwissenschaften 100: 835.
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A new crocodyliform from the middle Cretaceous Galula Formation, southwestern Tanzania. Journal of Vertebrate Paleontology 34: 576.
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Quantitatively assessing mekosuchine crocodile locomotion by geometric morphometric and finite element analysis of the forelimb. PeerJ 8: e9349.
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A review of the non‐semiaquatic adaptations of extinct crocodylomorphs throughout their fossil record. The Anatomical Record 308: 266.
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The evolution of bone ornamentation in Pseudosuchia: morphological constraints versus ecological adaptation. Biological Journal of the Linnean Society 121: 395.
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Climate constrains the evolutionary history and biodiversity of crocodylians. Nature Communications 6: .
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Reevaluation of the cranial osteology and phylogenetic position of the early crocodyliform Eopneumatosuchus colberti, with an emphasis on its endocranial anatomy. The Anatomical Record 305: 2557.
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A New Peirosaurid (Crocodyliformes, Mesoeucrocodylia) from the Upper Cretaceous of Patagonia, Argentina. Ameghiniana 53: 14.
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A new species ofAllodaposuchus(Eusuchia, Crocodylia) from the Maastrichtian (Late Cretaceous) of Spain: phylogenetic and paleobiological implications. PeerJ 3: e1171.
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A second peirosaurid crocodyliform from the Mid-Cretaceous Kem Kem Group of Morocco and the diversity of Gondwanan notosuchians outside South America. Royal Society Open Science 8: .
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Aquatic adaptation in the skull of carnivorous dinosaurs (Theropoda: Spinosauridae) and the evolution of aquatic habits in spinosaurids. Cretaceous Research 93: 275.
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An eye for an eye, a tooth for a tooth: Archosaurian teeth from the Açu Formation (Albian–Cenomanian), Potiguar Basin, Northeast Brazil. Cretaceous Research 129: 105005.
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The evolution of jaw mechanism and dental function in heterodont crocodyliforms. Historical Biology 26: 279.
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Biomechanical performance of the cranio‐mandibular complex of the small notosuchian Araripesuchus gomesii (Notosuchia, Uruguaysuchidae). The Anatomical Record 305: 2695.
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An early-diverging crocodylomorph from the early Norian (Late Triassic) of Texas demonstrates a wide distribution of early members across low-latitude Pangea. Journal of Vertebrate Paleontology 41: .
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New specimen of the enigmatic, Late Cretaceous crocodyliform Neuquensuchus universitas sheds light on the anatomy of the species. Cretaceous Research 83: 62.
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Evolutionary structure and timing of major habitat shifts in Crocodylomorpha. Scientific Reports 9: .
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New anatomical information on Araripesuchus buitreraensis with implications for the systematics of Uruguaysuchidae (Crocodyliforms, Notosuchia). Cretaceous Research 113: 104494.
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A new species of Araripesuchus with durophagous dentition increases the ecological disparity among uruguaysuchid crocodyliforms . Journal of Systematic Palaeontology 22: .
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O estudo dos répteis fósseis-cresce a contribuição da ciência brasileira. Ciência e Cultura 67: 32.
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The neuroanatomy and pneumaticity of Hamadasuchus (Crocodylomorpha, Peirosauridae) from the Cretaceous of Morocco and its paleoecological significance for altirostral forms. Journal of Anatomy 243: 374.
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Dinosaur Footprints and Other Ichnofauna from the Cretaceous Kem Kem Beds of Morocco. PLoS ONE 9: e90751.
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Neurocranial anatomy of Paralligator (Neosuchia: Paralligatoridae) from the Upper Cretaceous of Mongolia. Zoological Journal of the Linnean Society 203: .
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Triassic–Jurassic mass extinction as trigger for the Mesozoic radiation of crocodylomorphs. Biology Letters 9: 20130095.
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Virtual reconstruction of the endocranial anatomy of the early Jurassic marine crocodylomorphPelagosaurus typus(Thalattosuchia). PeerJ 5: e3225.
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Repeated Evolution of Herbivorous Crocodyliforms during the Age of Dinosaurs. Current Biology 29: 2389.
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A New Eusuchian Crocodyliform with Novel Cranial Integument and Its Significance for the Origin and Evolution of Crocodylia. PLoS ONE 7: e30471.
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Osteology of a North American Goniopholidid (Eutretauranosuchus delfsi) and Palate Evolution in Neosuchia. American Museum Novitates 3783: 1.
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Multiple Lineages of Ancient CR1 Retroposons Shaped the Early Genome Evolution of Amniotes. Genome Biology and Evolution 7: 205.
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Morphology of the endocranial cavities of Campinasuchus dinizi (Crocodyliformes: Baurusuchidae) from the Upper Cretaceous of Brazil. Geobios 58: 1.
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Geology and paleontology of the Upper Cretaceous Kem Kem Group of eastern Morocco. ZooKeys 928: 1.
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Cranial Morphology of Theriosuchus sympiestodon (Mesoeucrocodylia, Atoposauridae) and the Widespread Occurrence of Theriosuchus in the Late Cretaceous of Europe. Journal of Paleontology 88: 444.
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A new Peirosauridae (Crocodyliformes, Notosuchia) from the Adamantina Formation (Bauru Group, Late Cretaceous), with a revised phylogenetic analysis of Sebecia. The Anatomical Record 308: 574.
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Reassessment of isolated reptilian teeth confirms the presence of ziphodont crocodylians during the Pliocene of New Guinea. Historical Biology : 1.
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Diversification events and the effects of mass extinctions on Crocodyliformes evolutionary history. Royal Society Open Science 2: 140385.
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Isolated teeth of Anhangueria (Pterosauria: Pterodactyloidea) from the Lower Cretaceous of Lightning Ridge, New South Wales, Australia. PeerJ 5: e3256.
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A species-level supertree of Crocodyliformes. Historical Biology 24: 598.
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First occurrence of the long-snouted crocodyliformTerminonaris(Pholidosauridae) from the Woodbine Formation (Cenomanian) of Texas. Journal of Vertebrate Paleontology 31: 712.
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Virtual reconstruction of the skull ofBernissartia fagesiiand current understanding of the neosuchian–eusuchian transition. Journal of Systematic Palaeontology 18: 1079.
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Juvenile notosuchian crocodiles from the La Buitrera Paleontological area with comments on qualitative ontogenetic characters. Historical Biology : 1.
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Morphology and diversity of the mandibular symphysis of archosauriforms. Geological Society, London, Special Publications 379: 555.
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Lunge feeding in early marine reptiles and fast evolution of marine tetrapod feeding guilds. Scientific Reports 5: .
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Vertebrate footprints from the Kem Kem beds (Morocco): A novel ichnological approach to faunal reconstruction. Palaeogeography, Palaeoclimatology, Palaeoecology 383-384: 52.
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A new brachyrostran with hypertrophied axial structures reveals an unexpected radiation of latest Cretaceous abelisaurids. Cretaceous Research 61: 209.
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The effects of skull flattening on suchian jaw muscle evolution. The Anatomical Record 305: 2791.
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An updated taxonomic revision of the species of Mourasuchus (Alligatoroidea, Caimaninae) . Historical Biology 36: 2677.
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Unexpected bite‐force conservatism as a stable performance foundation across mesoeucrocodylian historical diversity. The Anatomical Record 305: 2823.
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A new abelisaurid dinosaur from the Late Cretaceous of southern France: Palaeobiogeographical implications. Annales de Paléontologie 100: 63.
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A new metriorhynchoid (Crocodylomorpha, Thalattosuchia) from the Middle Jurassic of Oregon and the evolutionary timing of marine adaptations in thalattosuchian crocodylomorphs. Journal of Vertebrate Paleontology 35: e902846.
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ZooKeys 500: traditions and innovations hand-in-hand servicing our taxonomic community. ZooKeys 500: 1.
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Osteology ofRebbachisaurus garasbaeLavocat, 1954, a diplodocoid (Dinosauria, Sauropoda) from the early Late Cretaceous–aged Kem Kem beds of southeastern Morocco. Journal of Vertebrate Paleontology 35: e1000701.
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Why so many dipnoans? A multidisciplinary approach on the Lower Cretaceous lungfish record from Tunisia. Palaeogeography, Palaeoclimatology, Palaeoecology 449: 255.
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Evolutionary Integration and Modularity in the Archosaur Cranium. Integrative and Comparative Biology 59: 371.
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A new species ofBorealosuchus(Crocodyliformes, Eusuchia) from the Late Cretaceous–early Paleogene of New Jersey. Journal of Vertebrate Paleontology 32: 105.
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Paleohistological inferences of thermometabolic regimes in Notosuchia (Pseudosuchia: Crocodylomorpha) revisited. Paleobiology 49: 342.
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How to date a crocodile: estimation of neosuchian clade ages and a comparison of four time‐scaling methods. Palaeontology 65: .
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Skull Anatomy of the Bizarre Crocodylian Mourasuchus nativus (Alligatoridae, Caimaninae). The Anatomical Record 296: 227.
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Variation in the pelvic and pectoral girdles of Australian Oligo–Miocene mekosuchine crocodiles with implications for locomotion and habitus. PeerJ 5: e3501.
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The “mid”-Cretaceous (Lower Cenomanian) Continental Vertebrates of Gara Samani, Algeria. Sedimentological Framework and Palaeodiversity. Frontiers in Earth Science 10: .
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Baurusuchid crocodyliforms as theropod mimics: clues from the skull and appendicular morphology ofStratiotosuchus maxhechti(Upper Cretaceous of Brazil). Zoological Journal of the Linnean Society 163: S37.
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A new Berriasian species ofGoniopholis(Mesoeucrocodylia, Neosuchia) from England, and a review of the genus. Zoological Journal of the Linnean Society 163: S66.
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Cranial morphology of Morrinhosuchus luziae (Crocodyliformes, Notosuchia) from the Upper Cretaceous of the Bauru Basin, Brazil. Cretaceous Research 86: 41.
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The Mesozoic Biogeographic History of Gondwanan Terrestrial Vertebrates: Insights from Madagascar's Fossil Record. Annual Review of Earth and Planetary Sciences 47: 519.
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1st Symposium on the evolution of crocodyliforms. Zoological Journal of the Linnean Society 163: S1.
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A New Global Palaeobiogeographical Model for the Late Mesozoic and Early Tertiary. Systematic Biology 61: 553.
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A new Theriosuchus-like crocodyliform from the Maastrichtian of Romania. Cretaceous Research 100: 24.
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A newMourasuchus(Alligatoroidea, Caimaninae) from the late Miocene of Venezuela, the phylogeny of Caimaninae and considerations on the feeding habits ofMourasuchus. PeerJ 5: e3056.
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A peirosaurid mandible from the Albian–Cenomanian (Lower Cretaceous) of Algeria and the taxonomic content of Hamadasuchus (Crocodylomorpha, Peirosauridae). Papers in Palaeontology 9: .
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A new species of vocalizing crocodyliform (Notosuchia, Sphagesauridae) from the Late Cretaceous of Brazil. Historical Biology : 1.
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New Crocodyliform specimens from Recôncavo-Tucano Basin (Early Cretaceous) of Bahia, Brazil. Anais da Academia Brasileira de Ciências 91: .
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Mesozoic dinosaurs from Brazil and their biogeographic implications. Anais da Academia Brasileira de Ciências 83: 23.
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A new species of Comahuesuchus Bonaparte, 1991 (Crocodyliformes: Notosuchia) from the Upper Cretaceous of Neuquén, Lake Barreales, Patagonia, Argentina. Anais da Academia Brasileira de Ciências 95: .
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Morphofunctional Analysis of the Quadrate of Spinosauridae (Dinosauria: Theropoda) and the Presence of Spinosaurus and a Second Spinosaurine Taxon in the Cenomanian of North Africa.. PLOS ONE 11: e0144695.
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What's in an Outgroup? The Impact of Outgroup Choice on the Phylogenetic Position of Thalattosuchia (Crocodylomorpha) and the Origin of Crocodyliformes. Systematic Biology 64: 621.
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A new paralligatorid (Crocodyliformes, Neosuchia) from the mid-Cretaceous of Jilin Province, northeastern China. Cretaceous Research 129: 105018.
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New theropod dinosaur remains from the Upper Cretaceous of the Kem Kem Group (Eastern Morocco) clarify spinosaurid morphology. Zoological Journal of the Linnean Society 202: .
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Caipirasuchus paulistanus, a new sphagesaurid (Crocodylomorpha, Mesoeucrocodylia) from the Adamantina Formation (Upper Cretaceous, Turonian–Santonian), Bauru Basin, Brazil. Journal of Vertebrate Paleontology 31: 1255.
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A New Notosuchian from the Late Cretaceous of Brazil and the Phylogeny of Advanced Notosuchians. PLoS ONE 9: e93105.
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The firstCaipirasuchus(Mesoeucrocodylia, Notosuchia) from the Late Cretaceous of Minas Gerais, Brazil: new insights on sphagesaurid anatomy and taxonomy. PeerJ 6: e5594.
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An Enigmatic Small Neosuchian Crocodyliform from the Woodbine Formation of Texas. The Anatomical Record 303: 801.
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Survival of Theriosuchus (Mesoeucrocodylia: Atoposauridae) in a Late Cretaceous archipelago: a new species from the Maastrichtian of Romania. Naturwissenschaften 97: 845.
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