Your search keyword '"Hupehsuchus"' showing total 6 results

1. A new specimen ofHupehsuchus nanchangensisYoung, 1972 (Diapsida, Hupehsuchia) from the Triassic of Hubei, China

Author

Xingsheng Jin, Sheng-Xiao Gu, Tamaki Sato, Li-Jun Zhao, and Xiao-Chun Wu

Subjects

010506 paleontology, biology, Morphology (biology), 010502 geochemistry & geophysics, biology.organism_classification, 01 natural sciences, Paleontology, Type (biology), Hupehsuchus, General Agricultural and Biological Sciences, China, Hupehsuchia, Geology, 0105 earth and related environmental sciences

Abstract

Hupehsuchus nanchangensis has been known from five specimens from the Triassic of China since its type was found in 1972. However, our knowledge of its morphology is still limited because of the po...

Published

2015

2. Lunge feeding in early marine reptiles and fast evolution of marine tetrapod feeding guilds

Author

Da-Yong Jiang, Andrea Tintori, Xiao-hong Chen, Long Cheng, Olivier Rieppel, and Ryosuke Motani

Subjects

Aquatic Organisms, Physiological, Early Triassic, Article, stomatognathic system, Hupehsuchus, Tetrapod (structure), Animals, Adaptation, Life Below Water, Predator, Ecosystem, Phylogeny, Trophic level, Multidisciplinary, Extinction, biology, Ecology, Fossils, Whales, Reptiles, Paleontology, social sciences, Feeding Behavior, biology.organism_classification, Adaptation, Physiological, Biological Evolution, humanities, Other Physical Sciences, Marine reptile, Predatory Behavior, Biochemistry and Cell Biology, Rorqual

Abstract

Traditional wisdom holds that biotic recovery from the end-Permian extinction was slow and gradual and was not complete until the Middle Triassic. Here, we report that the evolution of marine predator feeding guilds and their trophic structure, proceeded faster. Marine reptile lineages with unique feeding adaptations emerged during the Early Triassic (about 248 million years ago), including the enigmatic Hupehsuchus that possessed an unusually slender mandible. A new specimen of this genus reveals a well-preserved palate and mandible, which suggest that it was a rare lunge feeder as also occurs in rorqual whales and pelicans. The diversity of feeding strategies among Triassic marine tetrapods reached their peak in the Early Triassic, soon after their first appearance in the fossil record. The diet of these early marine tetrapods most likely included soft-bodied animals that are not preserved as fossils. Early marine tetrapods most likely introduced a new trophic mechanism to redistribute nutrients to the top 10 m of the sea, where the primary productivity is highest. Therefore, a simple recovery to a Permian-like trophic structure does not explain the biotic changes seen after the Early Triassic.

Published

2015

3. A New Specimen of Carroll's Mystery Hupehsuchian from the Lower Triassic of China

Author

Olivier Rieppel, Da-Yong Jiang, Long Cheng, Ryosuke Motani, Xiao-hong Chen, and Raia, Pasquale

Subjects

China, food.ingredient, Axial skeleton, General Science & Technology, Science, Manus, Ribs, food, Genus, Forelimb, Hupehsuchus, medicine, Animals, Hupehsuchia, Phylogeny, Multidisciplinary, biology, Fossils, Parahupehsuchus, Reptiles, Anatomy, biology.organism_classification, Spine, Hindlimb, Skull, medicine.anatomical_structure, Medicine, Research Article

Abstract

A new specimen of an enigmatic hupehsuchian genus is reported. The genus was first recognized by Robert L. Carroll and Zhi-ming Dong in 1991, who refrained from naming it because of the poor quality of the only specimen known at the time. After more than two decades, we finally report a second specimen of this genus, which remained unprepared until recently. The new specimen preserves most of the skeleton except the skull, allowing us to erect a new genus and species, Eretmorhipis carrolldongi. The new species shares many characters with Parahupehsuchus longus, including the strange axial skeleton that forms a bony body tube. However, the body tube is short in the new species, being limited to the pectoral region. The vertebral count and limb morphology considerably differ between the new species and P. longus. The forelimb of E. carrolldongi is markedly larger than its hind limb as in Hupehsuchus nanchangensis but unlike in P. longus. The new species is unique among hupehsuchians in a list of features. It has manual and pedal digits that spread radially, forming manus and pes that are almost as wide as long. The third-layer elements of the dermal armor are unusually large, spanning four vertebral segments, yet there are substantial gaps among them. With the addition of the unique paddle, it is now clear that Hupehsuchia had diverse forelimb morphologies spanning from paddles to flippers, unlike ichthyopterygians that were taxonomically more diverse yet only had flippers.

Published

2015

4. A Small Short-Necked Hupehsuchian from the Lower Triassic of Hubei Province, China

Author

Da-Yong Jiang, Olivier Rieppel, Xiao-hong Chen, Long Cheng, Ryosuke Motani, and Farke, Andrew A

Subjects

China, General Science & Technology, Science, Physiological, Genus, Hupehsuchus, medicine, Animals, Body Size, Adaptation, Hupehsuchia, Nanchangosaurus, Phylogeny, Multidisciplinary, biology, Skull roof, Fossils, Skull, Neurosciences, Biology and Life Sciences, Paleontology, Reptiles, Anatomy, biology.organism_classification, Adaptation, Physiological, medicine.anatomical_structure, Taxon, Sister group, Earth Sciences, Cervical Vertebrae, Medicine, Research Article

Abstract

Hupehsuchia is a group of enigmatic Triassic marine reptiles that is known exclusively from two counties in Hubei Province, China. One of the common features of the group was a modestly long neck with nine to ten cervical vertebrae. We report a new species of Hupehsuchia, Eohupehsuchus brevicollis gen. et sp. nov., which for the first time shows a short neck in this group, with six cervicals. The configuration of the skull roof in Eohupehsuchus is also unique among Hupehsuchia, with narrow frontals and posteriorly shifted parietals, warranting recognition of a new species. The taxon superficially resembles Nanchangosaurus in retaining hupehsuchian plesiomorphies, such as low neural spines and small body size. However, its limbs are well-developed, unlike in Nanchangosaurus, although the latter genus is marginally larger in body length. Thus, the individual is unlikely to be immature. Also, Eohupehsuchus shares a suite of synapomorphies with Hupehsuchus, including the second and third layers of dermal ossicles above the dorsal neural spines. A phylogenetic analysis suggests that the new species is not the most basal hupehsuchian despite its short neck, and instead forms the sister taxon of Hupehsuchidae. Until recently, Hupehsuchia contained only two monotypic genera. Now there are at least four genera among Hupehsuchia, and the undescribed diversity is even higher. The left forelimb of the only specimen is incomplete, ending with broken phalanges distally. The breakage could only have occurred pre-burial. The individual may have been attacked by a predator and escaped, given that scavenging is unlikely.

Published

2014

5. The enigmatic marine reptile nanchangosaurus from the lower triassic of Hubei, China and the phylogenetic affinities of Hupehsuchia

Author

Olivier Rieppel, Xiao-hong Chen, Long Cheng, Da-Yong Jiang, Ryosuke Motani, and Dodson, Peter

Subjects

China, Aquatic Organisms, General Science & Technology, Physiological, Science, Hupehsuchus, Animals, Adaptation, Hupehsuchia, Nanchangosaurus, Phylogeny, Taxonomy, Multidisciplinary, biology, Ecology, Fossils, Biology and Life Sciences, Paleontology, Reptiles, Helveticosaurus, biology.organism_classification, Adaptation, Physiological, Spine, Taxon, Sister group, Evolutionary biology, Marine reptile, Earth Sciences, Medicine, Paleobiology, Ichthyopterygia, Research Article

Abstract

The study of the holotype and of a new specimen of Nanchangosaurus suni (Reptilia; Diapsida; Hupehsuchia) revealed a suite of hitherto unrecognized characters. For example, Nanchangosaurus has bipartite neural spines and its vertebral count is nearly identical to that of Hupehsuchus. It differs from the latter in having poorly developed forelimbs despite the advanced ossification in the rest of the skeleton. Other differences all pertain to hupehsuchian plesiomorphies retained in Nanchangosaurus, such as low neural spines. The relationship of Hupehsuchia within Diapsida was analyzed based on a data matrix containing 41 taxa coded for 213 characters, of which 18 were identified as aquatic adaptations from functional inferences. These aquatic adaptations may be vulnerable to the argumentation of character homology because expectation for homoplasy is high. There is an apparent incongruence between phylogenetic signals from aquatic adaptations and the rest of the data, with aquatic adaptations favoring all marine reptiles but Helveticosaurus to form a super-clade. However, this super-clade does not obtain when aquatic adaptations were deleted, whereas individual marine reptile clades are all derived without them. We examined all possible combinations of the 18 aquatic adaptations (n = 262143) and found that four lineages of marine reptiles are recognized almost regardless of which of these features were included in the analysis: Hupehsuchia-Ichthyopterygia clade, Sauropterygia-Saurosphargidae clade, Thalattosauria, and Helveticosaurus. The interrelationships among these four depended on the combination of aquatic adaptations to be included, i.e., assumed to be homologous a priori by bypassing character argumentation. Hupehsuchia always appeared as the sister taxon of Ichthyopterygia.

Published

2014

6. Unusual extensions of the neural spines in two ichthyosaurs from the Lower Jurassic of Holzmaden

Author

C. McGowan

Subjects

Paleontology, biology, Marine reptile, Ontogeny, Hupehsuchus, General Earth and Planetary Sciences, biology.organism_classification, Geology, Natural (archaeology)

Abstract

Some unusual extensions of the neural spines are reported for two ichthyosaurs from the Lower Jurassic of Germany. These processes are similar to those recently reported for the enigmatic marine reptile Hupehsuchus, from the Middle Triassic of China. There are insufficient data to determine whether the ichthyosaurian processes are homologous with those of Hupehsuchus, nor whether they represent ancestral features that were normally suppressed during ontogeny. The possibility that the processes are artificial rather than natural cannot be discounted.

Published

1992