B. Holly Smith

Last updated
B. Holly Smith
Born
Bennett Holly Smith
EducationB.A., Anthropology, University of Texas, Austin (1975); M.A. Anthropology, University of Michigan, Ann Arbor (1976); Ph.D., Anthropology, University of Michigan, Ann Arbor (1983)
Occupation(s)Biological Anthropologist, Research Professor, Associate Research Scientist

B. Holly Smith (Bennett Holly Smith) is an American biological anthropologist. She is currently a research professor in the Center for Advanced Study of Human Paleobiology at The George Washington University. She is also a visiting research professor at the University of Michigan Museum of Anthropological Archaeology. [1] The majority of her work is concentrated in evolutionary biology, paleoanthropology, life history, and dental anthropology.

Contents

Early life and education

Smith comes from a line of dentists and educators, including her grandfather, B. Holly Smith, Sr., MD, DDS (1858-1920) and her uncle, B. Holly Smith, Jr. DDS (1885-1956). All were named after Smith’s great-grandfather, Bennett Holloway Smith (1824-1902), who served as a circuit rider for the ME Church in Virginia and Maryland during the Civil War. [1]

In 1975, B. Holly Smith received her B.A. in anthropology from the University of Texas, Austin. A year later, she received her M.A. in anthropology from the University of Michigan, Ann Arbor. Smith was awarded a Ph.D. in anthropology from the University of Michigan, Ann Arbor in 1983 for her dissertation, Dental Attrition in Hunter-Gatherers and Agriculturalists. [2]

Employment and teaching experience

From 1978-1983, she worked as a research assistant and research investigator in the Center for Human Growth and Development at the University of Michigan, Ann Arbor. After receiving her Ph.D., Smith was a visiting assistant professor in the Department of Anthropology at Arizona State University from 1984-1985. Since 1989, she has been an assistant research scientist at the University of Michigan Museum of Anthropology. Starting in March 2018, Smith started as a research professor in the Center for Advanced Study of Human Paleobiology at The George Washington University in Washington, D.C. [2] In June 2019, Smith became a visiting research professor at the University of Michigan Museum of Anthropological Archaeology. Since 1986, she has been invited to lecture at several institutions and conferences, including State University of New York at Stony Brook, University College London, University of Washington, Duke University, University of Tennessee, Complutense University Madrid, Max Planck Institute of Evolutionary Anthropology, and International Society of Dental Morphology in Griefswald, Germany. [3]

Professional service

Smith holds memberships in the American Association of Physical Anthropologists, Dental Anthropology Association, and the International Association of Paleodontology. [2]

Forensic work

In March 1992, Smith provided the expert opinion for the Office of the Siskiyou County Public Defender in California. She evaluated the dental development of an accused immigrant to determine whether that individual was a juvenile or an adult at the time of the crime, which was a death penalty offense. [2]

Field and museum work

The majority of Smith's work has either been in expeditions to sites or research in museums in countries in Northern Europe and Eastern Africa. Smith's research mainly concentrated on dental morphology. [2] Some of her most-cited publications include:

Research

Smith is known for her research in the field of life history. She studies growth and development, from modern humans to early hominids to primates. Her research focuses on the evolution of life history. In her own words, life history includes “‘when to be born, when to be weaned, when to stop growing, when to reproduce, and when to die,’ and for toothed mammals we might include, ‘when to erupt teeth,’ because teeth process the foods that power all the choices." [2] Smith has written over 50 published articles since 1979 in the field of anthropology.

Her early work focused on the significance of tooth wear in dating. In 1984, she published “Patterns of molar wear in hunter-gatherers and agriculturalists,” which contrasts the molar wear between hunter-gatherers and agriculturalists to learn more about the evolution of human diet. [4]

Smith is also prominent in the field of tooth emergence. Her research into dental development made major contributions to the scientific understanding of the maturation of early hominids and the evolution of human life history. Her significant publications have focused on tooth emergence, weaning, wear, and their impact on life cycle. In 1991, she published “Dental Development and the Evolution of Life History in Hominidae,” in which she suggested that the life history of australopiths was similar to that of apes, whereas the life histories of later hominids were more similar to modern humans. [5] Her article “Mortality and the magnitude of the ‘wild effect’ in chimpanzee tooth emergence” described how captivity affects the rate of tooth emergence in chimpanzees, and its larger implications for our understanding of primate life history. [6]

In her 1995 article, “Toward A Life History of the Hominidae,” she cites the importance of the comparative method in her research. In the article, she suggests that the life history of australopiths was much closer to that of apes than modern humans, but at some point, the life cycle of hominids slowed to the rate and structure seen in Homo sapiens. Though a lot about this transition remains unknown, Smith emphasizes that new comparative methods of study will hopefully reveal further insights.

Her 1996 article, “Evolution of the human life cycle,” written with Barry Bogin, describes the five stages of human postnatal development. The article suggests that the human pattern is first seen in Homo erectus. [7]

Her work has been influenced by her detailed research on three juvenile skeletons: the type specimen of Darwinius masillae, the Nariokotome Homo erectus skeleton, and the type specimen of Maiacetus inuus. [2] All three skeletons were crucial to her conclusions about the evolution of life history in the hominin clade. Her work with the Nariokotome skeleton, in particular, culminated with the publication of “Growth and Development of the Nariokotome Youth, KNM-WT 15000” in 2009, which set out the evolution of the slow rate of maturation in the genus Homo. [8]

She is currently researching the differences in life history between primates and other mammals, with a particular focus on birth, infancy, weaning, tooth eruption, and the transition to independent feeding. [3]

Related Research Articles

<i>Ardipithecus</i> Extinct genus of hominins

Ardipithecus is a genus of an extinct hominine that lived during the Late Miocene and Early Pliocene epochs in the Afar Depression, Ethiopia. Originally described as one of the earliest ancestors of humans after they diverged from the chimpanzees, the relation of this genus to human ancestors and whether it is a hominin is now a matter of debate. Two fossil species are described in the literature: A. ramidus, which lived about 4.4 million years ago during the early Pliocene, and A. kadabba, dated to approximately 5.6 million years ago. Initial behavioral analysis indicated that Ardipithecus could be very similar to chimpanzees, however more recent analysis based on canine size and lack of canine sexual dimorphism indicates that Ardipithecus was characterised by reduced aggression, and that they more closely resemble bonobos.

<i>Paranthropus</i> Contested extinct genus of hominins

Paranthropus is a genus of extinct hominin which contains two widely accepted species: P. robustus and P. boisei. However, the validity of Paranthropus is contested, and it is sometimes considered to be synonymous with Australopithecus. They are also referred to as the robust australopithecines. They lived between approximately 2.6 and 1.2 million years ago (mya) from the end of the Pliocene to the Middle Pleistocene.

Milford Howell Wolpoff is a paleoanthropologist and professor of anthropology at the University of Michigan and its museum of Anthropology. He is the leading proponent of the multiregional evolution hypothesis that explains the evolution of Homo sapiens as a consequence of evolutionary processes and gene flow across continents within a single species. Wolpoff authored the widely-used textbook Paleoanthropology, and co-authored Race and Human Evolution: A Fatal Attraction, which reviews the scientific evidence and conflicting theories about the interpretation of human evolution, and biological anthropology's relationship to views about race.

<i>Paranthropus boisei</i> Extinct species of hominin of East Africa

Paranthropus boisei is a species of australopithecine from the Early Pleistocene of East Africa about 2.5 to 1.15 million years ago. The holotype specimen, OH 5, was discovered by palaeoanthropologist Mary Leakey in 1959, and described by her husband Louis a month later. It was originally placed into its own genus as "Zinjanthropus boisei", but is now relegated to Paranthropus along with other robust australopithecines. However, it is also argued that Paranthropus is an invalid grouping and synonymous with Australopithecus, so the species is also often classified as Australopithecus boisei.

Charles Loring Brace IV was an American anthropologist, Professor Emeritus at the University of Michigan's Department of Anthropology and Curator Emeritus at the University's Museum of Anthropological Archaeology. He considered the attempt "to introduce a Darwinian outlook into biological anthropology" to be his greatest contribution to the field of anthropology.

<span class="mw-page-title-main">Australopithecine</span> Extinct subtribe of the Hominini tribe, and members of the human clade

Australopithecina or Hominina is a subtribe in the tribe Hominini. The members of the subtribe are generally Australopithecus, and it typically includes the earlier Ardipithecus, Orrorin, Sahelanthropus, and Graecopithecus. All these closely related species are now sometimes collectively termed australopiths or homininians. They are the extinct, close relatives of humans and, with the extant genus Homo, comprise the human clade. Members of the human clade, i.e. the Hominini after the split from the chimpanzees, are now called Hominina.

<span class="mw-page-title-main">Polyphyodont</span>

A polyphyodont is any animal whose teeth are continually replaced. In contrast, diphyodonts are characterized by having only two successive sets of teeth.

<span class="mw-page-title-main">Animal tooth development</span>

Tooth development or odontogenesis is the process in which teeth develop and grow into the mouth. Tooth development varies among species.

<span class="mw-page-title-main">Postcanine megadontia</span>

Post-canine megadontia is a relative enlargement of the molars and premolars compared to the size of the incisors and canines. This phenomenon is seen in some early hominid ancestors such as Paranthropus aethiopicus.

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

Lufengpithecus is an extinct genus of ape in the subfamily Ponginae. It is known from thousands of dental remains and a few skulls and probably weighed about 50 kg (110 lb). It contains three species: L. lufengensis, L. hudienensis and L. keiyuanensis. Lufengpithecus lufengensis is from the Late Miocene found in China, named after the Lufeng site and dated around 6.2 Ma. It is the latest Miocene fossil ape that has been discovered in the entire world. Some researchers believe that genus Lufengpithecus could be an ancestor to African apes and hominids.

<span class="mw-page-title-main">Hominidae</span> Family of primates

The Hominidae, whose members are known as the great apes or hominids, are a taxonomic family of primates that includes eight extant species in four genera: Pongo ; Gorilla ; Pan ; and Homo, of which only modern humans remain.

<span class="mw-page-title-main">Enamel hypoplasia</span> Medical condition

Enamel hypoplasia is a defect of the teeth in which the enamel is deficient in quantity, caused by defective enamel matrix formation during enamel development, as a result of inherited and acquired systemic condition(s). It can be identified as missing tooth structure and may manifest as pits or grooves in the crown of the affected teeth, and in extreme cases, some portions of the crown of the tooth may have no enamel, exposing the dentin. It may be generalized across the dentition or localized to a few teeth. Defects are categorized by shape or location. Common categories are pit-form, plane-form, linear-form, and localised enamel hypoplasia. Hypoplastic lesions are found in areas of the teeth where the enamel was being actively formed during a systemic or local disturbance. Since the formation of enamel extends over a long period of time, defects may be confined to one well-defined area of the affected teeth. Knowledge of chronological development of deciduous and permanent teeth makes it possible to determine the approximate time at which the developmental disturbance occurred. Enamel hypoplasia varies substantially among populations and can be used to infer health and behavioural impacts from the past. Defects have also been found in a variety of non-human animals.

<span class="mw-page-title-main">Tooth</span> Hard, calcified structure found in the mouths of many vertebrates

A tooth is a hard, calcified structure found in the jaws of many vertebrates and used to break down food. Some animals, particularly carnivores and omnivores, also use teeth to help with capturing or wounding prey, tearing food, for defensive purposes, to intimidate other animals often including their own, or to carry prey or their young. The roots of teeth are covered by gums. Teeth are not made of bone, but rather of multiple tissues of varying density and hardness that originate from the embryonic germ layer, the ectoderm.

John Hawks is an associate professor of anthropology at the University of Wisconsin–Madison. He also maintains a paleoanthropology blog. Contrary to the common view that cultural evolution has made human biological evolution insignificant, Hawks believes that human evolution has sped up in recent history.

<span class="mw-page-title-main">Odontometrics</span> Measurement and study of tooth size

Odontometrics is the measurement and study of tooth size. It is used in biological anthropology and bioarchaeology to study human phenotypic variation. The rationale for use is similar to that of the study of dentition, the structure and arrangement of teeth. There are a number of features that can be observed in human teeth through the use of odontometrics.

<span class="mw-page-title-main">Neanderthal anatomy</span> Anatomical composition of the Neanderthal body

Neanderthal anatomy differed from modern humans in that they had a more robust build and distinctive morphological features, especially on the cranium, which gradually accumulated more derived aspects, particularly in certain isolated geographic regions. This robust build was an effective adaptation for Neanderthals, as they lived in the cold environments of Europe. In which they also had to operate in Europe's dense forest landscape that was extremely different from the environments of the African grassland plains that Homo sapiens adapted to with a different anatomical build.

<i>Graecopithecus</i> Extinct hominid from Miocene Greece

Graecopithecus is an extinct species of hominid that lived in southeast Europe during the late Miocene around 7.2 million years ago. Originally identified by a single lower jaw bone bearing a molar tooth found in Pyrgos Vasilissis, Athens, Greece, in 1944, other tooth specimens were discovered from Azmaka quarry in Bulgaria in 2012. With only little and badly preserved materials to reveal its nature, it is considered as "the most poorly known European Miocene hominoids." The creature was popularly nicknamed 'El Graeco' by scientists.

<span class="mw-page-title-main">Tooth wear</span> Medical condition

Tooth wear refers to loss of tooth substance by means other than dental caries. Tooth wear is a very common condition that occurs in approximately 97% of the population. This is a normal physiological process occurring throughout life; but with increasing lifespan of individuals and increasing retention of teeth for life, the incidence of non-carious tooth surface loss has also shown a rise. Tooth wear varies substantially between people and groups, with extreme attrition and enamel fractures common in archaeological samples, and erosion more common today.

Changes to the dental morphology and jaw are major elements of hominid evolution. These changes were driven by the types and processing of food eaten. The evolution of the jaw is thought to have facilitated encephalization, speech, and the formation of the uniquely human chin.

<span class="mw-page-title-main">Tanya M. Smith</span> Evolutionary biologist and researcher

Tanya M. Smith is a human evolutionary biologist, and Professor at the Australian Research Centre for Human Evolution, Griffith University.

References

  1. 1 2 "B. Holly Smith". sites.google.com. Retrieved 2019-12-20.
  2. 1 2 3 4 5 6 7 "B. Holly Smith | U-M LSA Museum of Anthropological Archaeology". lsa.umich.edu. Retrieved 2019-12-20.
  3. 1 2 "B. Holly Smith | The Department of Anthropology | The George Washington University". anthropology.columbian.gwu.edu. Retrieved 2019-12-20.
  4. Smith, B. Holly (1984). "Patterns of molar wear in hunter–gatherers and agriculturalists". American Journal of Physical Anthropology. 63 (1): 39–56. doi:10.1002/ajpa.1330630107. hdl: 2027.42/37625 . ISSN   1096-8644. PMID   6422767.
  5. Smith, B. Holly (October 1991). "Dental development and the evolution of life history in Hominidae". American Journal of Physical Anthropology. 86 (2): 157–174. doi:10.1002/ajpa.1330860206. hdl: 2027.42/37656 . ISSN   0002-9483.
  6. Smith, B. Holly; Boesch, Christophe (January 2011). "Mortality and the magnitude of the "wild effect" in chimpanzee tooth emergence". Journal of Human Evolution. 60 (1): 34–46. doi:10.1016/j.jhevol.2010.08.006. hdl: 2027.42/87989 . ISSN   1095-8606. PMID   21071064.
  7. Bogin, Barry A.; Smith, B. Holly (1996). "Evolution of the human life cycle". American Journal of Human Biology. 8 (6): 703–716. doi:10.1002/(SICI)1520-6300(1996)8:6<703::AID-AJHB2>3.0.CO;2-U. hdl: 2027.42/38562 . PMID   28561459. S2CID   10084438.
  8. Smith, B. Holly (December 2009). "Growth and Development of the Nariokotome Youth, KNM-WT 15000".{{cite journal}}: Cite journal requires |journal= (help)
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