Sinoconodon rigneyi Chinese spike tooth is an ancient mammaliamorph or early mammal depending on systematic approach that appears in the fossil record of China in the Sinemurian stage of the Early Jurassic period, about 193 million years ago While in many traits very similar to non-mammalian synapsids, it possessed a special, secondarily evolved jaw joint between the dentary and the squamosal bones, which had replaced the primitive tetrapod one between the articular and quadrate bones, a trait commonly used to define mammals 
Although the animal is closely related to Morganucodon, it is regarded as the most basal of the mammaliaforms It differed substantially from the more mammalian Morganucodon in its dental and growth habits Like other non-mammalian tetrapods, such as reptiles and amphibians, it was polyphyodont, replacing many of its teeth throughout its lifetime, and it seems to have grown slowly but continuously until its death Sinoconodon is thus less mammalian than early mammaliaforms like docodonts and morganucodonts  Even the smallest known individuals had already begun the teething cycle of the front teeth, and combined with a poorly ossified jaw, it very probably did not suckle The dentition of Sinoconodons can be arranged in a series of increasing lengths The combination of basal tetrapod and mammalian features makes it a unique transitional species There are simply no animals like it alive today
- 1 Taxonomy
- 11 Phylogeny 
- 2 Relationships
- 3 Description
- 31 Jaw and Skull
- 4 References
- 5 External links
Sinoconodon was named by Patterson and Olson in 1961 Its type is Sinoconodon rigneyi It was assigned to Triconodontidae by Patterson and Olson in 1961; to Triconodonta by Jenkins and Crompton in 1979; to Sinoconodontidae by Carroll in 1988; to Mammaliamorpha by Wible in 1991; to Mammalia by Luo and Wu in 1994; to Mammalia by Kielan-Jaworowska et al in 2004; and to Mammaliaformes by Luo et al in 2001 and Bi et al in 2014
Sinoconodon differs from all nonmammalian cynodonts in the presence of a promontorium, an enlarged anterior lamina, and the floor of the trigeminal glangliion Sinoconodon shares several derived characters with other mammals The most distinguished are the expansion of the brain vault in the parietal region, complete ossification of the medial wall of the orbit, a large dentary condyle, and a concave glenoid fossa in the squamosal These characters suggest that Sinoconodon and other mammals form a monophyletic group In addition, Sinoconodon developed some autapomorphic characters: a large occipital condyle; and, relative to skull length, postdentary bones more reduced in size than in the other known Liassic mammals These characters suggest that Sinoconodon is the sistergroup to a taxon that includes all other mammals because Sinoconodon lacks a number of diagnostic apomorphies shared by Morganucodon, Dinnetherium, and other mammals
The evolutionary transition to the mammalian type of jaw joint was associated with changes in body size, structure of the ear, structure of the skull, structure of the teeth, and, consequently, the type of diet that distinguishes mammals from other vertebrates Morganucodon can still be regarded as the best known of the earliest mammals The skull, lower jaw, and postcrania of this small mouse-sized mammal are well preserved and have provided the basis for many ideas of mammal origins
Sinoconodon presents morphological data that forces a modification of ideas of mammal origins based primarily on Morganucodon Sinoconodon is known only from the skull and lower jaws It is younger geologically than some Morganucodon, but Sinoconodon has many features which are more primitive than Morganucodon Particularly significant is the dentition of Sinoconodon, in which the postcanine tooth row consists of five multicuspid trenchant teeth with only the vestiges of cingula These teeth do not precisely occlude with one another They do not look like typical mammalian teeth, which do occlude precisely and have distinct cingula and cusps offset from a single longitudinal row Indeed precise occlusion is thought to have evolved very early in the evolution of mammals, in Morganucodon itself 
Jaw and Skull
A lack of morphological information makes it difficult to interpret the relationships of advanced cynodonts and early mammals To address this problem, skulls and dentition of Sinoconodon and Morganucodon were studied Among all known skull specimens of Sinoconodon, the smallest is a length of 14mm from the rostrum to the posterior end of the tooth row skull length estimated between 20 to 22mm Dental replacement in Sinoconodon is characterized by more than three replacements of the incisors, at least five replacements of the canines, and one replacement of the premolars and the posterior molars, as seen in many non-mammalian cynodonts The replacing the premolars and the anterior molars are permanently lost, enlarging the post canine diastema in the older specimens The single replacement of at least some posterior molars and the differentiation of premolars from molars may be a general condition in the stem group of mammals
The skull experienced indeterminate growth while the teeth were being replaced in adult specimens The dental replacement of Sinoconodon could be interpreted as an intermediate stage in the character evolution from the primitive pattern of polyphyodont replacement seen in most cynodonts to the derived diphyodont replacement of mammals From the polypyodont replacement and the substantial growth of the adult skulls of Sinoconodon, it is inferred tat this taxon lacked the lactation and determinate growth of living mammals
In other aspects Sinoconodon is more primitive; precise post-canine occlusion is lacking, the mandibular symphysis is deep, the jaw articulation lies below a line projected through the apices of the teeth, the pterygoparoccipital foramen is large and the post-canine teeth cannot be divided into molars and premolars The jaw articulation and braincase of Sinoconodon are compared with those of the two cynodont therapsids Probainognathus and Thrinaxodon It is concluded that in the transition from therapsid to mammal the medial surface of the groove in the squamosal housing the quadrate was lost and, as a result, in Sinoconodon, Morganucodon and Dinnetherium the hollow medial surface of the quadrate abutted directly against the paroccipital process Morganucodon are more closely related to the crown group than is Sinoconodon due to the upper and lower molars have one-to-one occlusal relationship and the opposing molars develop wear facets from this precise deal occlusion Morganucodon are also more similar to the crown mammalian group than Sinoconodon in a number of features of the cranio-mandibular joint, a longer cocker canal, and a slightly larger cranial capacity
- ^ Paleofilecom net, info "Taxonomic lists- Mammals" Retrieved 30 December 2015
- ^ Pepper, wwwprehistoric-wildlifecom, Darren "Sinoconodon" wwwprehistoric-wildlifecom Retrieved 2018-05-21
- ^ Lucas, Spencer 2001 Chinese Fossil Vertebrates New York: Columbia University Press pp 130–150 ISBN 0231084838
- ^ a b Kielan-Jaworowska, Z; Luo, ZX; Cifelli, RL 2004 Mammals from the Age of Dinosaurs Columbia University Press Chapter 4 ISBN 9780231119184
- ^ Luo, Z-X 2005 Encyclopedia of Geology Elsevier pp 527–534 ISBN 9780123693969
- ^ Luo, ZX; Kielan-Jaworowska, Z; Cifelli, RL 2002 "In quest for a phylogeny of Mesozoic mammals" Acta Palaeontologica Polonica 47 1: 1–78
- ^ Close, Roger A; Friedman, Matt; Lloyd, Graeme T; Benson, Roger BJ 2015-08 "Evidence for a Mid-Jurassic Adaptive Radiation in Mammals" Current Biology 25 16: 2137–2142 doi:101016/jcub201506047 ISSN 0960-9822 Check date values in: |date= help
- ^ a b Mammals of the Mesozoic: The least mammal-like mammals
- ^ a b c CROMPTON, A W; SUN, AI-LIN 1985-10 "Cranial structure and relationships of the Liassic mammal Sinoconodon" Zoological Journal of the Linnean Society 85 2: 99–119 doi:101111/j1096-36421985tb01500x ISSN 0024-4082 Check date values in: |date= help
- ^ "PBDB" paleobiodborg Retrieved 2018-05-21
- ^ a b Close, Roger A; Friedman, Matt; Lloyd, Graeme T; Benson, Roger BJ 2015 "Evidence for a mid-Jurassic adaptive radiation in mammals" Current Biology 25 16: 2137–2142 doi:101016/jcub201506047 PMID 26190074
- ^ Cifelli, Richard; Hurum, Jørn Harald; Borsuk-Białynicka, Magdalena; Luo, Zhexi; Kaim, Andrzej 2015 "Zofia Kielan-Jaworowska 1925–2015" Acta Palaeontologica Polonica 60 doi:104202/app001832015 ISSN 0567-7920
- ^ Jenkins, Ian 1996-07 "N C Fraser & H D Sues eds 1995 In the Shadow of the Dinosaurs Early Mesozoic Tetrapods x + 435 pp Cambridge, New York, Port Chester, Melbourne, Sydney: Cambridge University Press Price £5000, US $8995 hard covers ISBN 0 521 45242 2" Geological Magazine 133 04: 502 doi:101017/s0016756800007706 ISSN 0016-7568 Check date values in: |date= help
- ^ a b Zofia, Kielan-Jaworowska, 2004 Mammals from the age of dinosaurs : origins, evolution, and structure Cifelli, Richard, Luo, Zhe-Xi New York: Columbia University Press ISBN 0231119186 OCLC 55535025
- ^ a b Crompton, Alfred W; Luo, Zhexi 1993 Mammal Phylogeny New York, NY: Springer New York pp 30–44 ISBN 9781461573838
- ^ Luo, Zhexi; Crompton, Alfred W 1994-09-07 "Transformation of the quadrate incus through the transition from non-mammalian cynodonts to mammals" Journal of Vertebrate Paleontology 14 3: 341–374 doi:101080/02724634199410011564 ISSN 0272-4634
- Mammaliformes from Palaeos
|This prehistoric mammal-related article is a stub You can help Wikipedia by expanding it|
|This article related to the Triassic period is a stub You can help Wikipedia by expanding it|
Sinoconodon Information about
Sinoconodon viewing the topic.
There are excerpts from wikipedia on this article and video
Our site has a system which serves search engine function.
You can search all data in our system with above button which written "What did you look for? "
Welcome to our simple, stylish and fast search engine system.
We have prepared this method why you can reach most accurate and most up to date knowladge. The search engine that developed for you transmits you to the latest and exact information with its basic and quick system.
You can find nearly everything data which found from internet with this system.