Bauriids
Bauriidae is an extinct family of therocephalian therapsids. Bauriids were the latest-surviving group of therocephalians after the Permian–Triassic extinction event, going extinct in the Middle Triassic. They are among the most advanced eutherocephalians and possess several mammal-like features such as a secondary palate and wide postcanine teeth at the back of the jaws (analogous to mammalian molars). Unlike other therocephalians, bauriids were herbivorous. They were also smaller than earlier members of the group. Two subfamilies are classified within Bauriidae: Nothogomphodontinae and Bauriinae. Description Bauriids have a dentition characteristic of herbivores with the exception of ''Nothogomphodon''. There are four incisors on either side of the upper jaw. Like other therocephalians, bauriids have moderately enlarged canines. The postcanine teeth behind the canines are broad. The postcanines of the upper and lower jaw fit tightly together as an adaptation to processing plant ...
[...More Info...]       [...Related Items...]     OR:     [Wikipedia]   [Google]   [Baidu]  

Microgomphodon
''Microgomphodon'' is an extinct genus of therocephalian therapsid from the Middle Triassic of South Africa and Namibia. Currently only one species of ''Microgomphodon'', ''M. oligocynus'', is recognized. With fossils present in the ''Cynognathus'' Assemblage Zone (CAZ) of the Burgersdorp Formation in South Africa and Omingonde Formation of Namibia and ranging in age from late Olenekian to Anisian, it is one of the most geographically and temporally widespread therocephalian species. Moreover, its occurrence in the upper Omigonde Formation of Namibia makes ''Microgomphodon'' the latest-surviving therocephalian. ''Microgomphodon'' is a member of the family Bauriidae and a close relative of ''Bauria'', another South African bauriid from the CAZ. Like other bauriids, it possesses several mammal-like features such as a secondary palate and broad, molar-like postcanine teeth, all of which evolved independently from mammals. Description ''Microgomphodon'' has a short snout and large ...
[...More Info...]       [...Related Items...]     OR:     [Wikipedia]   [Google]   [Baidu]  

Nothogomphodon
''Nothogomphodon'' is a genus of therocephalian therapsids. It is classified within the family Bauriidae and placed within its own subfamily, Nothogomphodontinae. Description ''Nothogomphodon'' was unusual among therocephalians for its sectorial dentition, a feature it shared with cynodont The cynodonts () (clade Cynodontia) are a clade of eutheriodont therapsids that first appeared in the Late Permian (approximately 260 mya), and extensively diversified after the Permian–Triassic extinction event. Cynodonts had a wide variety ...s and which would have allowed it to shear meat more effectively. Species There are two described species of ''Nothogomphodon'': ''N. danilovi'' and ''N. sanjiaoensis''. ''N. danilovi'' is the types species and is known from Russia, while ''N. sanjiaoensis'' is known from China. ''N. sanjiaoensis'' can be distinguished from ''N. danilovi'' by its ovate canine base and distinct gap between the canine and the first postcanine tooth. References ...
[...More Info...]       [...Related Items...]     OR:     [Wikipedia]   [Google]   [Baidu]  

Nothogomphodontinae
''Nothogomphodon'' is a genus of therocephalian therapsids. It is classified within the family Bauriidae and placed within its own subfamily, Nothogomphodontinae. Description ''Nothogomphodon'' was unusual among therocephalians for its sectorial dentition, a feature it shared with cynodont The cynodonts () (clade Cynodontia) are a clade of eutheriodont therapsids that first appeared in the Late Permian (approximately 260 mya), and extensively diversified after the Permian–Triassic extinction event. Cynodonts had a wide variety ...s and which would have allowed it to shear meat more effectively. Species There are two described species of ''Nothogomphodon'': ''N. danilovi'' and ''N. sanjiaoensis''. ''N. danilovi'' is the types species and is known from Russia, while ''N. sanjiaoensis'' is known from China. ''N. sanjiaoensis'' can be distinguished from ''N. danilovi'' by its ovate canine base and distinct gap between the canine and the first postcanine tooth. References ...
[...More Info...]       [...Related Items...]     OR:     [Wikipedia]   [Google]   [Baidu]  

Ordosiodon
''Ordosiodon'' is an extinct genus of therocephalian therapsids from the Early Triassic of China. It includes two species, ''O. lincheyuensis'' and ''O. youngi''. ''O. lincheyuensis'', the type species, was named by Chinese paleontologist C. C. Young (Yang Zhongjian) in 1961 on the basis of a partial lower jaw. The jaw was discovered by a petroleum survey team in October 1958 from the Lower Ermaying Formation in Shanxi Province, which dates back to the Olenekian stage. Young named the genus after the Ordos Desert, the region where the jaw was found. ''Ordosiodon'' was originally identified as a type of diademodontid by Young (diademodontids are herbivorous cynodonts that are much more closely related to mammals than are therocephalians). Young noted several unusual features of ''Ordosiodon'' that set it apart from diademodontids, including the lack of a diastema or gap in the teeth, the lack of molar-like sectorial teeth at the back of the jaw, conical caniniform teeth, and relat ...
[...More Info...]       [...Related Items...]     OR:     [Wikipedia]   [Google]   [Baidu]  

Traversodontoides
''Traversodontoides'' is an extinct genus of therocephalian therapsid Therapsida is a major group of eupelycosaurian synapsids that includes mammals, their ancestors and relatives. Many of the traits today seen as unique to mammals had their origin within early therapsids, including limbs that were oriented more ...s. References Bauriids Therocephalia genera Prehistoric synapsids of Asia Fossil taxa described in 1974 Taxa named by Yang Zhongjian {{paleo-therapsid-stub ...
[...More Info...]       [...Related Items...]     OR:     [Wikipedia]   [Google]   [Baidu]  

Hazhenia
''Hazhenia'' is an extinct genus of therocephalian therapsids from the Early Triassic of China, of which ''Hazhenia concava'' is the only species. ''Hazhenia'' was named in 1981 from the Heshanggou Formation in the Ordos Desert of Inner Mongolia. It lived during the Olenekian Age of the Early Triassic, about 247 million years ago. ''Hazhenia'' belongs to a group of therocephalians called Baurioidea and possesses many mammal-like features such as cusped teeth and a secondary palate, both of which evolved independently in baurioids. Within Baurioidea it is most closely related to the genus '' Ordosiodon'', which is also known from Inner Mongolia but comes from the slightly younger Ermaying Formation. Both genera were once placed in the family Ordosiidae, but as the name is preoccupied by a family of Cambrian trilobites, it is no longer valid. ''Hazhenia'' is known from a single skull that was discovered by a group from the Institute of Vertebrate Paleontology and Paleoanthropolog ...
[...More Info...]       [...Related Items...]     OR:     [Wikipedia]   [Google]   [Baidu]  

Bauria
''Bauria'' is an extinct genus of the suborder Therocephalia that existed during the Early and MiddleTriassic period, around 246-251 million years ago. It belonged to the family Bauriidae. ''Bauria'' was probably a carnivore or insectivore. It lived in South Africa, specifically in the Burgersdorp Formation in South Africa. ''Bauria'' was named by Robert Broom in 1909 and found at Winnaarsbaken, South Africa. The first species Broom discovered, ''Bauria cynops'', was a reasonably complete skull, but according to the first description somewhat poorly preserved, and apparently equally poorly prepared. Five other specimens were later found at different points in time, with mostly skulls being found. Only two species of ''Bauria'' are known, with the most recent one, ''Bauria robusta'', being discovered by J. W. Kitching in 1955 in the Burghersdorp district However, a 2013 study proposed that '' Microgomphodon oligocynus'' and ''Bauria cynops'' are recognized as the only vali ...
[...More Info...]       [...Related Items...]     OR:     [Wikipedia]   [Google]   [Baidu]  

Antecosuchus
''Antecosuchus'' is an extinct genus of bauriid therocephalians. See also * List of therapsids This list of therapsids is an attempt to create a comprehensive listing of all genera that have ever been included in the Therapsida excluding mammals and purely vernacular terms. The list includes all commonly accepted genera, but also genera tha ... References Bauriids Middle Triassic synapsids Extinct animals of Russia Fossil taxa described in 1973 Taxa named by Leonid Petrovich Tatarinov Therocephalia genera {{paleo-therapsid-stub ...
[...More Info...]       [...Related Items...]     OR:     [Wikipedia]   [Google]   [Baidu]  

Bauriinae
Bauriinae is an extinct subfamily of therocephalian therapsids. It is one of two subdivisions of the family Bauriidae Bauriidae is an extinct family of therocephalian therapsids. Bauriids were the latest-surviving group of therocephalians after the Permian–Triassic extinction event, going extinct in the Middle Triassic. They are among the most advanced euther ..., the other being Nothogomphodontinae. References Bauriids Permian first appearances Permian extinctions Prehistoric animal subfamilies Tetrapod subfamilies {{paleo-Therapsid-stub ...
[...More Info...]       [...Related Items...]     OR:     [Wikipedia]   [Google]   [Baidu]  

Eutherocephalia
Eutherocephalia ("true beast head") is an extinct clade of advanced therocephalian therapsids. Eutherocephalians are distinguished from the lycosuchids and scylacosaurids, two early therocephalian families. While lycosuchids and scyalosaurids became extinct by the end of the Permian period, eutherocephalians survived the Permian–Triassic extinction event. The group eventually became extinct in the Middle Triassic. Characteristics The Eutherocephalians evolved several mammal-like traits through convergent evolution with Cynodontia. Among those traits were the loss of palatine teeth and the reduction of the parietal eye. The latter organ is instrumental in thermoregulation among lizards and snakes, indicating both eutherocephalians and cynodonts were evolving toward a more active, homeothermic lifestyle, though the eye never fully disappeared in the eutherocephalians. Classification The clade Eutherocephalia contains the majority of therocephalians, yet the phylogenetic rela ...
[...More Info...]       [...Related Items...]     OR:     [Wikipedia]   [Google]   [Baidu]  

Basal (phylogenetics)
In phylogenetics, basal is the direction of the ''base'' (or root) of a phylogenetic tree#Rooted tree, rooted phylogenetic tree or cladogram. The term may be more strictly applied only to nodes adjacent to the root, or more loosely applied to nodes regarded as being close to the root. Note that extant taxa that lie on branches connecting directly to the root are not more closely related to the root than any other extant taxa. While there must always be two or more equally "basal" clades sprouting from the root of every cladogram, those clades may differ widely in taxonomic rank, Phylogenetic diversity, species diversity, or both. If ''C'' is a basal clade within ''D'' that has the lowest rank of all basal clades within ''D'', ''C'' may be described as ''the'' basal taxon of that rank within ''D''. The concept of a 'key innovation' implies some degree of correlation between evolutionary innovation and cladogenesis, diversification. However, such a correlation does not make a given ca ...
[...More Info...]       [...Related Items...]     OR:     [Wikipedia]   [Google]   [Baidu]  

Sister Taxon
In phylogenetics, a sister group or sister taxon, also called an adelphotaxon, comprises the closest relative(s) of another given unit in an evolutionary tree. Definition The expression is most easily illustrated by a cladogram: Taxon A and taxon B are sister groups to each other. Taxa A and B, together with any other extant or extinct descendants of their most recent common ancestor (MRCA), form a monophyletic group, the clade AB. Clade AB and taxon C are also sister groups. Taxa A, B, and C, together with all other descendants of their MRCA form the clade ABC. The whole clade ABC is itself a subtree of a larger tree which offers yet more sister group relationships, both among the leaves and among larger, more deeply rooted clades. The tree structure shown connects through its root to the rest of the universal tree of life. In cladistic standards, taxa A, B, and C may represent specimens, species, genera, or any other taxonomic units. If A and B are at the same taxonomi ...
[...More Info...]       [...Related Items...]     OR:     [Wikipedia]   [Google]   [Baidu]