Simian shelf

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The simian shelf is a bony thickening on the front of the ape mandible. [1] Its function is to reinforce the jaw, [2] though it also has the effect of considerably reducing the movement of the tongue by restricting the area available for muscles. [3]

Contents

Humans are the only primates to have protruding chins, though some fossils of early humans show evidence of a simian shelf. [4]

Evolution of the simian shelf

In Maboko Island (1988), the lower jaw of a Kenyapithecus was found, and it provides signs of the simian shelf evolution in modern apes. [5] Where the simian shelf is present, the bottom teeth will be leaning forward. This happened to be a unique feature of the Kenyapithecus leading there to be a link between the two. This sign of evolution was identified as shown through the lower incisors that lean forward and are known to be used to break hard objects. The lower incisors were concluded to be an adaptive feature as it was an adaptation for "hard object feeding including... large mandible... and upper incisors". [6] Although the forward leaning lower incisors began to show up less in apes, the simian shelf still remained: "[it] was retained by most large bodied genera and served as a preadaptation for the evolution of broad lower incisors in living great apes". [5] The simian shelf found in chimpanzees is not found in modern humans. It was found in a study that the human chin has no true purpose because the simian shelf in chimpanzees is to protect the jaw from the stress of eating and/or chewing. [7] The human speech mechanism also played a role in the evolution or disappearance of the simian shelf. Changes in the jaw such as "widening of the mandibular arch, loss of the simian shelf, and development of the chin" allowed for the development of the speech mechanism. [8] This suggests that the simian shelf was no longer found in modern humans due to the changes that occurred due to the development of speech.

Study: "Fetal and infant growth patterns of the mandibular symphysis in modern humans and chimpanzees"

There is a study published by Michael Coquerelle, et al. that targets the study of the mandibular symphysis in the fetal and infant growth of chimpanzees. The mandibular symphysis consists of the external portion of the mandible, and the symphysis refers to the line seen between the two bones found in the middle of the mandible that appear during the fetal and infant stages. [9] In the fetal chimpanzees, the study showed that the mandibular symphysis is "anteriorly inclined". [10] It then begins to have "an increasingly vertical orientation up until birth". [11] The study has shown that the shiftings that occur are due to the simian shelf becoming repositioned. [11] The shifting that occurs with the simian shelf may show that "the suprahyoid muscles have a significant influence on the anterior growth of the symphysis". [10] The mandibular symphysis in this case is also compared to that of the fetal and infant humans. As stated in the study, both, the human and chimpanzee, start out with a v-shaped mandible during the fetal stages, but the chimpanzee mandible remains in that v-shape leading to the development of the simian shelf. [10] The forming of the simian shelf occurs due to the "basal symphysis [being] modified" as a result of the v-shape being maintained past the fetal stage. [10]

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Maxilla Upper jaw bone

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<i>Meganthropus</i> Hominin fossil

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<i>Gigantopithecus</i> Genus of primate

Gigantopithecus is an extinct genus of ape from the Early to Middle Pleistocene of southern China, represented by one species, Gigantopithecus blacki. Potential identifications have also been made in Thailand, Vietnam, and Indonesia. The first remains of Gigantopithecus, two third molar teeth, were identified in a drugstore by anthropologist Ralph von Koenigswald in 1935, who subsequently described the ape. In 1956, the first mandible and more than 1,000 teeth were found in Liucheng, and numerous more remains have since been found in at least 16 sites. Only teeth and four mandibles are known currently, and other skeletal elements were likely consumed by porcupines before they could fossilise. Gigantopithecus was once argued to be a hominin, a member of the human line, but it is now thought to be closely allied with orangutans, classified in the subfamily Ponginae.

Prognathism Protrusion of the upper or lower human jaw

Prognathism is a positional relationship of the mandible or maxilla to the skeletal base where either of the jaws protrudes beyond a predetermined imaginary line in the coronal plane of the skull. In general dentistry, oral and maxillofacial surgery, and orthodontics, this is assessed clinically or radiographically (cephalometrics). The word prognathism derives from Greek πρό and γνάθος. One or more types of prognathism can result in the common condition of malocclusion, in which an individual's top teeth and lower teeth do not align properly.

Malocclusion Medical condition

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<i>Kenyapithecus</i> Extinct genus of primates

Kenyapithecus wickeri is a fossil ape discovered by Louis Leakey in 1961 at a site called Fort Ternan in Kenya. The upper jaw and teeth were dated to 14 million years ago. One theory states that Kenyapithecus may be the common ancestor of all the great apes. More recent investigations suggest Kenyapithecus is more primitive than that and is only slightly more modern than when Proconsul is considered to be an ape.

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Chin Facial feature

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Postcanine megadontia

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Hominidae Family of primates

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A jaw abnormality is a disorder in the formation, shape and/or size of the jaw. In general abnormalities arise within the jaw when there is a disturbance or fault in the fusion of the mandibular processes. The mandible in particular has the most differential typical growth anomalies than any other bone in the human skeleton. This is due to variants in the complex symmetrical growth pattern which formulates the mandible.

Mandible Lower jaw bone

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References

  1. "Simian shelf". Dictionary.com Unabridged (v 1.1). Random House. Retrieved 2008-12-22.
  2. Wright, M. (1996). "Online Anthropology Glossary". Archived from the original on 2006-08-30. Retrieved 2008-12-22.
  3. Howells, W. (1945). Mankind So Far. New York: Doubleday. p. 68.
  4. Custance, A. C. (1997). "The Implication of Convergence on Human Origins". Convergence and the Origin of Man. Retrieved 2008-12-22.
  5. 1 2 Benefit, Brenda R.; McCrossin, Monte L. (October 1995). "Miocene Hominoids and Hominid Origins". Annual Review of Anthropology. 24 (1): 237–256. doi:10.1146/annurev.an.24.100195.001321. ISSN   0084-6570.
  6. "Kenyapithecus", Wikipedia, 2020-03-05, retrieved 2020-05-16
  7. Hogenboom, Melissa. "Chins are a bit useless so why do we have them?". www.bbc.com. Retrieved 2020-05-16.
  8. Carhart, Raymond (2009-06-05). "Evolution of the speech mechanism". Quarterly Journal of Speech. doi:10.1080/00335633809380408.
  9. "Mandibular symphysis". IMAIOS. Retrieved 2020-05-16.
  10. 1 2 3 4 Coquerelle, Michael; Bookstein, Fred L.; Braga, José; Halazonetis, Demetrios J.; Weber, Gerhard W. (November 2010). "Fetal and infant growth patterns of the mandibular symphysis in modern humans and chimpanzees (Pan troglodytes): Human and chimpanzee mandibles". Journal of Anatomy. 217 (5): 507–520. doi:10.1111/j.1469-7580.2010.01287.x. PMC   3035859 . PMID   20807267.
  11. 1 2 Coquerelle, Michael; Bookstein, Fred L.; Braga, José; Halazonetis, Demetrios J.; Weber, Gerhard W. (2010). "Fetal and infant growth patterns of the mandibular symphysis in modern humans and chimpanzees (Pan troglodytes)". Journal of Anatomy. 217 (5): 507–520. doi:10.1111/j.1469-7580.2010.01287.x. ISSN   1469-7580. PMC   3035859 . PMID   20807267.
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