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Sinodonty and Sundadonty

May 02, 2024

In anthropology, Sinodonty and Sundadonty are two patterns of features widely found in the dentitions of different East Asians. These patterns were identified by anthropologist Christy G. Turner II as being within the greater "Mongoloid dental complex".[1]

The combining forms Sino- and Sunda- refer to China and Sundaland, respectively, while -dont refers to teeth.

Proto-sundadonty hypothesis edit

Tsunehiko Hanihara (1993) believed that the dental features of Aboriginal Australians have the characteristic of high frequencies of "evolutionarily conservative characteristics," which he called the "proto-sundadont" pattern, as he believed that the dental pattern of Aboriginal Australians was ancestral to that of Southeast Asians.[2]

C.G Turner II shows with his analysis of 2016 that sundadonty is the proto-East Eurasian dental morphology and is not connected to the Australian dental morphology, rendering the term "proto-sundadont" inaccurate for the Australian dental morphology. He also shows that sinodonty is predominant in Native Americans.[3]

Super-Sinodont edit

Analysis on the Sinodonty and Sundadonty of New world groups by G.R. Sott et al. (2016) shows the distinction between East Asians is not nearly as dramatic as the difference between all Asians and all New World groups. Other researchers like Stojanowski et al., 2013; Stojanowski and Johnson, (2015) suggest New World groups may be neither Sinodont nor Sundadont and in most regards, could be viewed as super-Sinodont. A clear dental morphology not only ties New World groups to Asians, particularly northeast Asians, but it also exhibits a pattern largely consistent with the Beringian Standstill model (BSM) based on a Sinodont source population.[4]

Mongoloid dental complex edit

Turner defined the Sinodont and Sundadont dental complexes in contrast to a broader Mongoloid dental complex.[5] Hanihara defined the Mongoloid dental complex in 1966. In 1984, Turner separated the Mongoloid dental complex into the Sinodont and Sundadont dental complexes.[6]

Ryuta Hamada, Shintaro Kondo and Eizo Wakatsuki (1997) said, on the basis of dental traits, that Mongoloids are separated into sinodonts and sundadonts, which is supported by Christy G. Turner II (1989).[7][8]

Sundadont edit

Turner found the Sundadont pattern in the skeletal remains of Jōmon people of Japan, and in living populations of Taiwanese indigenous peoples, Filipinos, Indonesians, Borneans, and Malays.

In 1996, Rebecca Haydenblit of the Hominid Evolutionary Biology Research Group at Cambridge University did a study on the dentition of four Pre-Columbian era Mesoamerican populations and compared their data to other Eastern Eurasian populations.[9] She found that "Tlatilco", "Cuicuilco", "Monte Albán" and "Cholula" populations followed an overall Sundadont dental pattern "characteristic of Southeast Asia" rather than a Sinodont dental pattern "characteristic of Northeast Asia".[9]

Sinodont edit

Turner found the Sinodont pattern in the Han Chinese, in the inhabitants of Mongolia and eastern Siberia, in the Native Americans, and in the Yayoi people of Japan.

Sinodonty is a particular pattern of teeth characterized by the following features:

  • The upper first incisors and upper second incisors are shovel-shaped, and they are "not aligned with the other teeth".[10]
  • The upper first premolar has one root, and the lower first molar in Sinodonts has three roots (3RM1).[10][5]

Associated traits edit

The EDAR gene causes the Sinodont tooth pattern, and also affects hair texture,[11] jaw morphology,[12] and perhaps the nutritional profile of breast milk.[13]

Applicability edit

In the 1990s, Turner's dental morphological traits were frequently mentioned as one of three new tools for studying origins and migrations of human populations. The other two were linguistic methods such as Joseph Greenberg's mass comparison of vocabulary or Johanna Nichols's statistical study of language typology and its evolution, and genetic studies pioneered by Cavalli-Sforza.[original research?]

Today, the largest number of references to Turner's work are from discussions of the origin of Paleo-Amerindians and modern Native Americans, including the Kennewick Man controversy. Turner found that the dental remains of both ancient and modern Amerindians are more similar to each other than they are to dental complexes from other continents, but that the Sinodont patterns of the Paleo-Amerindians identify their ancestral homeland as north-east Asia. Some later studies[which?] have questioned this and found Sundadont features in some American peoples.

A study done by Stojonowski et al in 2015 found a "significant interobserver error" in the earlier studies and their statistical analysis of matched wear and morphology scores suggests trait downgrading for some traits.[14]

See also edit

References edit

  1. ^ G. Richard Scott, Christy G. Turner, (2000). The Anthropology of Modern Human Teeth: Dental Morphology and Its Variation in Recent Human Populations. Cambridge University Press. ISBN 0521784530
  2. ^ Hanihara, Tsunehiko. (1993). Craniofacial Features of Southeast Asians and Jomonese: A Reconsideration of Their Microevolution Since the Late Pleistocene. Anthropological Science, 101(1). Page 26. Retrieved March 8, 2018, from link to the PDF document.
  3. ^ Pilloud, Marin; Heim, Kelly; Schmitz, Kirk; Paul, Kathleen (2018). "Sinodonty, Sundadonty, and the Beringian Standstill model: Issues of timing and migrations into the New World". Quaternary International. 466: 233. Bibcode:2018QuInt.466..233S. doi:10.1016/j.quaint.2016.04.027.
  4. ^ Pilloud, Marin; Heim, Kelly; Schmitz, Kirk; Paul, Kathleen (2018). "Sinodonty, Sundadonty, and the Beringian Standstill model: Issues of timing and migrations into the New World". Quaternary International. 466: 233. Bibcode:2018QuInt.466..233S. doi:10.1016/j.quaint.2016.04.027.
  5. ^ a b Scott, R.G. (1997). Encyclopedia of Human Biology. Second Edition. Volume 3. Pages 175-190. Retrieved December 14, 2016, from link.
  6. ^ Díaz, E. et al. (2014). Frequency and variability of dental morphology in deciduous and permanent dentition of a Nasa indigenous group in the municipality of Morales, Cauca, Colombia. In Colombia Médica, 45(1). Pages 15–24. Retrieved December 14, 2016, from link.
  7. ^ Hamada, Ryuta, Kondo, Shintaro & Wakatsuki, Eizo. (1997). Odontometrical Analysis of Filipino Dentition. The Journal of Showa University Dental Society, 17. Page 197. Retrieved March 8, 2018, from link to the PDF document.
  8. ^ SAO/NASA Astrophysics Data System. Teeth and Prehistory in Asia. Retrieved March 9, 2018, from link to the web page.
  9. ^ a b Haydenblit, Rebeca (June 1996). "Dental variation among four prehispanic Mexican populations". American Journal of Physical Anthropology. 100 (2): 225–246. doi:10.1002/(SICI)1096-8644(199606)100:2<225::AID-AJPA5>3.0.CO;2-W.
  10. ^ a b Kimura, R. et al. (2009). A Common Variation in EDAR Is a Genetic Determinant of Shovel-Shaped Incisors. In American Journal of Human Genetics, 85(4). Page 528. Retrieved December 24, 2016, from link.
  11. ^ Kamberov YG, Wang S, Tan J, Gerbault P, Wark A, Tan L, Yang Y, Li S, Tang K, Chen H, Powell A, Itan Y, Fuller D, Lohmueller J, Mao J, Schachar A, Paymer M, Hostetter E, Byrne E, Burnett M, McMahon AP, Thomas MG, Lieberman DE, Jin L, Tabin CJ, Morgan BA, Sabeti PC (Feb 2013). "Modeling recent human evolution in mice by expression of a selected EDAR variant". Cell. 152 (4): 691–702. doi:10.1016/j.cell.2013.01.016. PMC 3575602. PMID 23415220.
  12. ^ Adhikari, K.; Fuentes-Guajardo, M.; Quinto-Sánchez, M.; Mendoza-Revilla, J.; Chacón-Duque, J. C.; Acuña-Alonzo, V.; Gómez-Valdés, J. (2016). "A genome-wide association scan implicates DCHS2, RUNX2, GLI3, PAX1 and EDAR in human facial variation". Nature Communications. 7: 11616. Bibcode:2016NatCo...711616A. doi:10.1038/ncomms11616. PMC 4874031. PMID 27193062.
  13. ^ Lozovschi, Alexandra (24 April 2018). "Ancient Teeth Reveal Breastfeeding-Related Gene Helped Early Americans Survive The Ice Age [Study]". Inquisitr. Retrieved 25 April 2018.
  14. ^ Stojanowski, Christopher M.; Johnson, Kent M. (March 2015). "Observer error, dental wear, and the inference of new world sundadonty". American Journal of Physical Anthropology. 156 (3): 349–362. doi:10.1002/ajpa.22653. ISSN 1096-8644. PMID 25363296.
 
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May 02, 2024
sinodonty, sundadonty, this, article, multiple, issues, please, help, improve, discuss, these, issues, talk, page, learn, when, remove, these, template, messages, this, article, needs, attention, from, expert, anthropology, specific, problem, lacks, descriptio. This article has multiple issues Please help improve it or discuss these issues on the talk page Learn how and when to remove these template messages This article needs attention from an expert in anthropology The specific problem is it lacks a description of sundadonty See the talk page for details WikiProject Anthropology may be able to help recruit an expert June 2014 This article needs to be updated Please help update this article to reflect recent events or newly available information September 2020 Learn how and when to remove this message In anthropology Sinodonty and Sundadonty are two patterns of features widely found in the dentitions of different East Asians These patterns were identified by anthropologist Christy G Turner II as being within the greater Mongoloid dental complex 1 The combining forms Sino and Sunda refer to China and Sundaland respectively while dont refers to teeth Contents 1 Proto sundadonty hypothesis 2 Super Sinodont 3 Mongoloid dental complex 3 1 Sundadont 3 2 Sinodont 3 2 1 Associated traits 4 Applicability 5 See also 6 ReferencesProto sundadonty hypothesis editTsunehiko Hanihara 1993 believed that the dental features of Aboriginal Australians have the characteristic of high frequencies of evolutionarily conservative characteristics which he called the proto sundadont pattern as he believed that the dental pattern of Aboriginal Australians was ancestral to that of Southeast Asians 2 C G Turner II shows with his analysis of 2016 that sundadonty is the proto East Eurasian dental morphology and is not connected to the Australian dental morphology rendering the term proto sundadont inaccurate for the Australian dental morphology He also shows that sinodonty is predominant in Native Americans 3 Super Sinodont editAnalysis on the Sinodonty and Sundadonty of New world groups by G R Sott et al 2016 shows the distinction between East Asians is not nearly as dramatic as the difference between all Asians and all New World groups Other researchers like Stojanowski et al 2013 Stojanowski and Johnson 2015 suggest New World groups may be neither Sinodont nor Sundadont and in most regards could be viewed as super Sinodont A clear dental morphology not only ties New World groups to Asians particularly northeast Asians but it also exhibits a pattern largely consistent with the Beringian Standstill model BSM based on a Sinodont source population 4 Mongoloid dental complex editTurner defined the Sinodont and Sundadont dental complexes in contrast to a broader Mongoloid dental complex 5 Hanihara defined the Mongoloid dental complex in 1966 In 1984 Turner separated the Mongoloid dental complex into the Sinodont and Sundadont dental complexes 6 Ryuta Hamada Shintaro Kondo and Eizo Wakatsuki 1997 said on the basis of dental traits that Mongoloids are separated into sinodonts and sundadonts which is supported by Christy G Turner II 1989 7 8 Sundadont edit Turner found the Sundadont pattern in the skeletal remains of Jōmon people of Japan and in living populations of Taiwanese indigenous peoples Filipinos Indonesians Borneans and Malays In 1996 Rebecca Haydenblit of the Hominid Evolutionary Biology Research Group at Cambridge University did a study on the dentition of four Pre Columbian era Mesoamerican populations and compared their data to other Eastern Eurasian populations 9 She found that Tlatilco Cuicuilco Monte Alban and Cholula populations followed an overall Sundadont dental pattern characteristic of Southeast Asia rather than a Sinodont dental pattern characteristic of Northeast Asia 9 Sinodont edit Turner found the Sinodont pattern in the Han Chinese in the inhabitants of Mongolia and eastern Siberia in the Native Americans and in the Yayoi people of Japan Sinodonty is a particular pattern of teeth characterized by the following features The upper first incisors and upper second incisors are shovel shaped and they are not aligned with the other teeth 10 The upper first premolar has one root and the lower first molar in Sinodonts has three roots 3RM1 10 5 Associated traits edit The EDAR gene causes the Sinodont tooth pattern and also affects hair texture 11 jaw morphology 12 and perhaps the nutritional profile of breast milk 13 Applicability editIn the 1990s Turner s dental morphological traits were frequently mentioned as one of three new tools for studying origins and migrations of human populations The other two were linguistic methods such as Joseph Greenberg s mass comparison of vocabulary or Johanna Nichols s statistical study of language typology and its evolution and genetic studies pioneered by Cavalli Sforza original research Today the largest number of references to Turner s work are from discussions of the origin of Paleo Amerindians and modern Native Americans including the Kennewick Man controversy Turner found that the dental remains of both ancient and modern Amerindians are more similar to each other than they are to dental complexes from other continents but that the Sinodont patterns of the Paleo Amerindians identify their ancestral homeland as north east Asia Some later studies which have questioned this and found Sundadont features in some American peoples A study done by Stojonowski et al in 2015 found a significant interobserver error in the earlier studies and their statistical analysis of matched wear and morphology scores suggests trait downgrading for some traits 14 See also editAinu people Australo Melanesians Austronesian peoples Malay race Odontometrics Shovel shaped incisorsReferences edit G Richard Scott Christy G Turner 2000 The Anthropology of Modern Human Teeth Dental Morphology and Its Variation in Recent Human Populations Cambridge University Press ISBN 0521784530 Hanihara Tsunehiko 1993 Craniofacial Features of Southeast Asians and Jomonese A Reconsideration of Their Microevolution Since the Late Pleistocene Anthropological Science 101 1 Page 26 Retrieved March 8 2018 from link to the PDF document Pilloud Marin Heim Kelly Schmitz Kirk Paul Kathleen 2018 Sinodonty Sundadonty and the Beringian Standstill model Issues of timing and migrations into the New World Quaternary International 466 233 Bibcode 2018QuInt 466 233S doi 10 1016 j quaint 2016 04 027 Pilloud Marin Heim Kelly Schmitz Kirk Paul Kathleen 2018 Sinodonty Sundadonty and the Beringian Standstill model Issues of timing and migrations into the New World Quaternary International 466 233 Bibcode 2018QuInt 466 233S doi 10 1016 j quaint 2016 04 027 a b Scott R G 1997 Encyclopedia of Human Biology Second Edition Volume 3 Pages 175 190 Retrieved December 14 2016 from link Diaz E et al 2014 Frequency and variability of dental morphology in deciduous and permanent dentition of a Nasa indigenous group in the municipality of Morales Cauca Colombia In Colombia Medica 45 1 Pages 15 24 Retrieved December 14 2016 from link Hamada Ryuta Kondo Shintaro amp Wakatsuki Eizo 1997 Odontometrical Analysis of Filipino Dentition The Journal of Showa University Dental Society 17 Page 197 Retrieved March 8 2018 from link to the PDF document SAO NASA Astrophysics Data System Teeth and Prehistory in Asia Retrieved March 9 2018 from link to the web page a b Haydenblit Rebeca June 1996 Dental variation among four prehispanic Mexican populations American Journal of Physical Anthropology 100 2 225 246 doi 10 1002 SICI 1096 8644 199606 100 2 lt 225 AID AJPA5 gt 3 0 CO 2 W a b Kimura R et al 2009 A Common Variation in EDAR Is a Genetic Determinant of Shovel Shaped Incisors In American Journal of Human Genetics 85 4 Page 528 Retrieved December 24 2016 from link Kamberov YG Wang S Tan J Gerbault P Wark A Tan L Yang Y Li S Tang K Chen H Powell A Itan Y Fuller D Lohmueller J Mao J Schachar A Paymer M Hostetter E Byrne E Burnett M McMahon AP Thomas MG Lieberman DE Jin L Tabin CJ Morgan BA Sabeti PC Feb 2013 Modeling recent human evolution in mice by expression of a selected EDAR variant Cell 152 4 691 702 doi 10 1016 j cell 2013 01 016 PMC 3575602 PMID 23415220 Adhikari K Fuentes Guajardo M Quinto Sanchez M Mendoza Revilla J Chacon Duque J C Acuna Alonzo V Gomez Valdes J 2016 A genome wide association scan implicates DCHS2 RUNX2 GLI3 PAX1 and EDAR in human facial variation Nature Communications 7 11616 Bibcode 2016NatCo 711616A doi 10 1038 ncomms11616 PMC 4874031 PMID 27193062 Lozovschi Alexandra 24 April 2018 Ancient Teeth Reveal Breastfeeding Related Gene Helped Early Americans Survive The Ice Age Study Inquisitr Retrieved 25 April 2018 Stojanowski Christopher M Johnson Kent M March 2015 Observer error dental wear and the inference of new world sundadonty American Journal of Physical Anthropology 156 3 349 362 doi 10 1002 ajpa 22653 ISSN 1096 8644 PMID 25363296 nbsp Wikimedia Commons has media related to Sinodonty and Sundadonty Retrieved from https en wikipedia org w index php title Sinodonty and Sundadonty amp oldid 1210516426, wikipedia, wiki, book, books, library,

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