Yugoslav Mesolithic dental reduction
Identifieur interne : 00BC63 ( Main/Curation ); précédent : 00BC62; suivant : 00BC64Yugoslav Mesolithic dental reduction
Auteurs : Gloria Y'EdynakSource :
- American Journal of Physical Anthropology [ 0002-9483 ] ; 1989-01.
English descriptors
- KwdEn :
- Academic press, African groups, Alveolar crest, Alveolar resorption, Anterior teeth, Anthropol, Armelagos, Attrition, Auditory exostoses, Behavioral variables, Belgrade, Birth weight, Broad buccolingually, Buccolingual, Buccolingual breadth, Buccolingual diameters, Buccolingual dimension, Buccolingual dimensions, Buccolingual premolar expansion, Calculus, Cementoenamel junction, Central maxillary incisors, Childhood stress, Common environment, Contemporary groups, Contemporary hunters, Craniofacial structure, Crown dimensions, Deciduous tooth size, Dent, Dental, Dental anthropology, Dental calculus, Dental development, Dental dimension, Dental dimensions, Dental disease, Dental genetics, Dental morphology, Dental pathology, Dental reduction, Dentition, Dietary differences, Dimension, Dimorphism, Directional selection, Early mesolithic, Enamel, Enamel hypoplasias, Environmental factors, Environmental stressors, Epipaleolithic, Evolution sofaer, Extreme mesiodistal reduction, Female teeth, Fifth year, Filipino, Filipino males, First molars, Forces institute, Frayer, Front teeth, Functional demand, Garn, Generalized stress, Genetic drift, Georgia coast, Goodman, Heavy attrition, Hillson, House mouse, Human dentition, Human tooth size, Hypoplasia, Incisor, Intergroup variability, Iron gates, Lactation, Large population, Large teeth, Larger teeth, Larsen, Levantine epipaleolithic, Little change, Mandibular, Masticatory apparatus, Maternal effect, Maternal influence, Maxillary, Maxillary teeth, Mesiodistal, Mesiodistal dimension, Mesiodistal length, Mesiodistal reduction, Mesiodistally, Mesolithic, Mesolithic groups, Mesolithic population, Mesolithic settlement, Mineralized plaque, Molar, Molar cusps, Molnar, Monograph dxii, Morphology, Natufian, Natural selection, Neolithic, Neolithic populations, Northwestern europe, Nubian material, Nutritional, Nutritional stress, Operational hypotheses, Oral pathology, Ordinal scale, Other groups, Paleolithic, Past years, Percent differences, Periodontal, Periodontal disease, Permanent teeth, Permanent tooth size, Phys, Physiological disruption, Plaque, Pleistocene, Postcranial skeleton, Posterior teeth, Potter, Prehistoric, Prehistoric diets, Prehistoric populations, Premolar, Probable mutation effect, Resorption, Root exposure, Second molars, Secular changes, Secular trend, Selective forces, Selective pressures, Serbian academy, Sexual dimorphism, Skeletal robusticity, Slight resorption, Smaller teeth, Sofaer, Structural reduction, Temporal trend, Third molar, Third molars, Tooth, Tooth dimensions, Tooth reduction, Tooth size, Tooth size factors, Tooth sizes, Total sample, Twin study, Upper paleolithic, Vlasac, Vlasac females, Vlasac males, Wadi halfa, White males, Wild grain, Yugoslav mesolithic.
- Teeft :
- Academic press, African groups, Alveolar crest, Alveolar resorption, Anterior teeth, Anthropol, Armelagos, Attrition, Auditory exostoses, Behavioral variables, Belgrade, Birth weight, Broad buccolingually, Buccolingual, Buccolingual breadth, Buccolingual diameters, Buccolingual dimension, Buccolingual dimensions, Buccolingual premolar expansion, Calculus, Cementoenamel junction, Central maxillary incisors, Childhood stress, Common environment, Contemporary groups, Contemporary hunters, Craniofacial structure, Crown dimensions, Deciduous tooth size, Dent, Dental, Dental anthropology, Dental calculus, Dental development, Dental dimension, Dental dimensions, Dental disease, Dental genetics, Dental morphology, Dental pathology, Dental reduction, Dentition, Dietary differences, Dimension, Dimorphism, Directional selection, Early mesolithic, Enamel, Enamel hypoplasias, Environmental factors, Environmental stressors, Epipaleolithic, Evolution sofaer, Extreme mesiodistal reduction, Female teeth, Fifth year, Filipino, Filipino males, First molars, Forces institute, Frayer, Front teeth, Functional demand, Garn, Generalized stress, Genetic drift, Georgia coast, Goodman, Heavy attrition, Hillson, House mouse, Human dentition, Human tooth size, Hypoplasia, Incisor, Intergroup variability, Iron gates, Lactation, Large population, Large teeth, Larger teeth, Larsen, Levantine epipaleolithic, Little change, Mandibular, Masticatory apparatus, Maternal effect, Maternal influence, Maxillary, Maxillary teeth, Mesiodistal, Mesiodistal dimension, Mesiodistal length, Mesiodistal reduction, Mesiodistally, Mesolithic, Mesolithic groups, Mesolithic population, Mesolithic settlement, Mineralized plaque, Molar, Molar cusps, Molnar, Monograph dxii, Morphology, Natufian, Natural selection, Neolithic, Neolithic populations, Northwestern europe, Nubian material, Nutritional, Nutritional stress, Operational hypotheses, Oral pathology, Ordinal scale, Other groups, Paleolithic, Past years, Percent differences, Periodontal, Periodontal disease, Permanent teeth, Permanent tooth size, Phys, Physiological disruption, Plaque, Pleistocene, Postcranial skeleton, Posterior teeth, Potter, Prehistoric, Prehistoric diets, Prehistoric populations, Premolar, Probable mutation effect, Resorption, Root exposure, Second molars, Secular changes, Secular trend, Selective forces, Selective pressures, Serbian academy, Sexual dimorphism, Skeletal robusticity, Slight resorption, Smaller teeth, Sofaer, Structural reduction, Temporal trend, Third molar, Third molars, Tooth, Tooth dimensions, Tooth reduction, Tooth size, Tooth size factors, Tooth sizes, Total sample, Twin study, Upper paleolithic, Vlasac, Vlasac females, Vlasac males, Wadi halfa, White males, Wild grain, Yugoslav mesolithic.
Abstract
Yugoslav Mesolithic dentition exhibits maximum mesiodistal reduction compared with contemporary European and North African groups. This reduction is not explained entirely by attrition, and may be seen as a continuation of the European Upper Paleolithic trend. Buccolingual dimension does not reduce as much. In fact, this dimension in premolars and molars is larger than in other groups. This observation also occurs in Natufians, who were grain collectors, hunters, and gatherers. The Yugoslav Mesolithic group was collecting and domesticating Cerelia as well as fishing and hunting. Linear enamel hypoplasias (LEH) indicate childhood stress through the fifth year, which corroborates previously reported incidence of rickets in this group. The central maxillary incisors and canines manifest higher degrees of LEH, but the appearance on the second molars suggest a more severe physiological disruption. Sex differences in distributions of alveolar resorption and calculus suggest differences in diet or nutritional stress. Previous reports indicate that females had higher incidence of osteomalacia. If so, female nutritional stress may explain the extreme mesiodistal reduction and minimal sexual dimorphism in this group.
Url:
DOI: 10.1002/ajpa.1330780105
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Gloria Y'Edynak<affiliation><wicri:noCountry code="subField">20306‐6000</wicri:noCountry>
</affiliation>
Le document en format XML
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<term>African groups</term>
<term>Alveolar crest</term>
<term>Alveolar resorption</term>
<term>Anterior teeth</term>
<term>Anthropol</term>
<term>Armelagos</term>
<term>Attrition</term>
<term>Auditory exostoses</term>
<term>Behavioral variables</term>
<term>Belgrade</term>
<term>Birth weight</term>
<term>Broad buccolingually</term>
<term>Buccolingual</term>
<term>Buccolingual breadth</term>
<term>Buccolingual diameters</term>
<term>Buccolingual dimension</term>
<term>Buccolingual dimensions</term>
<term>Buccolingual premolar expansion</term>
<term>Calculus</term>
<term>Cementoenamel junction</term>
<term>Central maxillary incisors</term>
<term>Childhood stress</term>
<term>Common environment</term>
<term>Contemporary groups</term>
<term>Contemporary hunters</term>
<term>Craniofacial structure</term>
<term>Crown dimensions</term>
<term>Deciduous tooth size</term>
<term>Dent</term>
<term>Dental</term>
<term>Dental anthropology</term>
<term>Dental calculus</term>
<term>Dental development</term>
<term>Dental dimension</term>
<term>Dental dimensions</term>
<term>Dental disease</term>
<term>Dental genetics</term>
<term>Dental morphology</term>
<term>Dental pathology</term>
<term>Dental reduction</term>
<term>Dentition</term>
<term>Dietary differences</term>
<term>Dimension</term>
<term>Dimorphism</term>
<term>Directional selection</term>
<term>Early mesolithic</term>
<term>Enamel</term>
<term>Enamel hypoplasias</term>
<term>Environmental factors</term>
<term>Environmental stressors</term>
<term>Epipaleolithic</term>
<term>Evolution sofaer</term>
<term>Extreme mesiodistal reduction</term>
<term>Female teeth</term>
<term>Fifth year</term>
<term>Filipino</term>
<term>Filipino males</term>
<term>First molars</term>
<term>Forces institute</term>
<term>Frayer</term>
<term>Front teeth</term>
<term>Functional demand</term>
<term>Garn</term>
<term>Generalized stress</term>
<term>Genetic drift</term>
<term>Georgia coast</term>
<term>Goodman</term>
<term>Heavy attrition</term>
<term>Hillson</term>
<term>House mouse</term>
<term>Human dentition</term>
<term>Human tooth size</term>
<term>Hypoplasia</term>
<term>Incisor</term>
<term>Intergroup variability</term>
<term>Iron gates</term>
<term>Lactation</term>
<term>Large population</term>
<term>Large teeth</term>
<term>Larger teeth</term>
<term>Larsen</term>
<term>Levantine epipaleolithic</term>
<term>Little change</term>
<term>Mandibular</term>
<term>Masticatory apparatus</term>
<term>Maternal effect</term>
<term>Maternal influence</term>
<term>Maxillary</term>
<term>Maxillary teeth</term>
<term>Mesiodistal</term>
<term>Mesiodistal dimension</term>
<term>Mesiodistal length</term>
<term>Mesiodistal reduction</term>
<term>Mesiodistally</term>
<term>Mesolithic</term>
<term>Mesolithic groups</term>
<term>Mesolithic population</term>
<term>Mesolithic settlement</term>
<term>Mineralized plaque</term>
<term>Molar</term>
<term>Molar cusps</term>
<term>Molnar</term>
<term>Monograph dxii</term>
<term>Morphology</term>
<term>Natufian</term>
<term>Natural selection</term>
<term>Neolithic</term>
<term>Neolithic populations</term>
<term>Northwestern europe</term>
<term>Nubian material</term>
<term>Nutritional</term>
<term>Nutritional stress</term>
<term>Operational hypotheses</term>
<term>Oral pathology</term>
<term>Ordinal scale</term>
<term>Other groups</term>
<term>Paleolithic</term>
<term>Past years</term>
<term>Percent differences</term>
<term>Periodontal</term>
<term>Periodontal disease</term>
<term>Permanent teeth</term>
<term>Permanent tooth size</term>
<term>Phys</term>
<term>Physiological disruption</term>
<term>Plaque</term>
<term>Pleistocene</term>
<term>Postcranial skeleton</term>
<term>Posterior teeth</term>
<term>Potter</term>
<term>Prehistoric</term>
<term>Prehistoric diets</term>
<term>Prehistoric populations</term>
<term>Premolar</term>
<term>Probable mutation effect</term>
<term>Resorption</term>
<term>Root exposure</term>
<term>Second molars</term>
<term>Secular changes</term>
<term>Secular trend</term>
<term>Selective forces</term>
<term>Selective pressures</term>
<term>Serbian academy</term>
<term>Sexual dimorphism</term>
<term>Skeletal robusticity</term>
<term>Slight resorption</term>
<term>Smaller teeth</term>
<term>Sofaer</term>
<term>Structural reduction</term>
<term>Temporal trend</term>
<term>Third molar</term>
<term>Third molars</term>
<term>Tooth</term>
<term>Tooth dimensions</term>
<term>Tooth reduction</term>
<term>Tooth size</term>
<term>Tooth size factors</term>
<term>Tooth sizes</term>
<term>Total sample</term>
<term>Twin study</term>
<term>Upper paleolithic</term>
<term>Vlasac</term>
<term>Vlasac females</term>
<term>Vlasac males</term>
<term>Wadi halfa</term>
<term>White males</term>
<term>Wild grain</term>
<term>Yugoslav mesolithic</term>
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<keywords scheme="Teeft" xml:lang="en"><term>Academic press</term>
<term>African groups</term>
<term>Alveolar crest</term>
<term>Alveolar resorption</term>
<term>Anterior teeth</term>
<term>Anthropol</term>
<term>Armelagos</term>
<term>Attrition</term>
<term>Auditory exostoses</term>
<term>Behavioral variables</term>
<term>Belgrade</term>
<term>Birth weight</term>
<term>Broad buccolingually</term>
<term>Buccolingual</term>
<term>Buccolingual breadth</term>
<term>Buccolingual diameters</term>
<term>Buccolingual dimension</term>
<term>Buccolingual dimensions</term>
<term>Buccolingual premolar expansion</term>
<term>Calculus</term>
<term>Cementoenamel junction</term>
<term>Central maxillary incisors</term>
<term>Childhood stress</term>
<term>Common environment</term>
<term>Contemporary groups</term>
<term>Contemporary hunters</term>
<term>Craniofacial structure</term>
<term>Crown dimensions</term>
<term>Deciduous tooth size</term>
<term>Dent</term>
<term>Dental</term>
<term>Dental anthropology</term>
<term>Dental calculus</term>
<term>Dental development</term>
<term>Dental dimension</term>
<term>Dental dimensions</term>
<term>Dental disease</term>
<term>Dental genetics</term>
<term>Dental morphology</term>
<term>Dental pathology</term>
<term>Dental reduction</term>
<term>Dentition</term>
<term>Dietary differences</term>
<term>Dimension</term>
<term>Dimorphism</term>
<term>Directional selection</term>
<term>Early mesolithic</term>
<term>Enamel</term>
<term>Enamel hypoplasias</term>
<term>Environmental factors</term>
<term>Environmental stressors</term>
<term>Epipaleolithic</term>
<term>Evolution sofaer</term>
<term>Extreme mesiodistal reduction</term>
<term>Female teeth</term>
<term>Fifth year</term>
<term>Filipino</term>
<term>Filipino males</term>
<term>First molars</term>
<term>Forces institute</term>
<term>Frayer</term>
<term>Front teeth</term>
<term>Functional demand</term>
<term>Garn</term>
<term>Generalized stress</term>
<term>Genetic drift</term>
<term>Georgia coast</term>
<term>Goodman</term>
<term>Heavy attrition</term>
<term>Hillson</term>
<term>House mouse</term>
<term>Human dentition</term>
<term>Human tooth size</term>
<term>Hypoplasia</term>
<term>Incisor</term>
<term>Intergroup variability</term>
<term>Iron gates</term>
<term>Lactation</term>
<term>Large population</term>
<term>Large teeth</term>
<term>Larger teeth</term>
<term>Larsen</term>
<term>Levantine epipaleolithic</term>
<term>Little change</term>
<term>Mandibular</term>
<term>Masticatory apparatus</term>
<term>Maternal effect</term>
<term>Maternal influence</term>
<term>Maxillary</term>
<term>Maxillary teeth</term>
<term>Mesiodistal</term>
<term>Mesiodistal dimension</term>
<term>Mesiodistal length</term>
<term>Mesiodistal reduction</term>
<term>Mesiodistally</term>
<term>Mesolithic</term>
<term>Mesolithic groups</term>
<term>Mesolithic population</term>
<term>Mesolithic settlement</term>
<term>Mineralized plaque</term>
<term>Molar</term>
<term>Molar cusps</term>
<term>Molnar</term>
<term>Monograph dxii</term>
<term>Morphology</term>
<term>Natufian</term>
<term>Natural selection</term>
<term>Neolithic</term>
<term>Neolithic populations</term>
<term>Northwestern europe</term>
<term>Nubian material</term>
<term>Nutritional</term>
<term>Nutritional stress</term>
<term>Operational hypotheses</term>
<term>Oral pathology</term>
<term>Ordinal scale</term>
<term>Other groups</term>
<term>Paleolithic</term>
<term>Past years</term>
<term>Percent differences</term>
<term>Periodontal</term>
<term>Periodontal disease</term>
<term>Permanent teeth</term>
<term>Permanent tooth size</term>
<term>Phys</term>
<term>Physiological disruption</term>
<term>Plaque</term>
<term>Pleistocene</term>
<term>Postcranial skeleton</term>
<term>Posterior teeth</term>
<term>Potter</term>
<term>Prehistoric</term>
<term>Prehistoric diets</term>
<term>Prehistoric populations</term>
<term>Premolar</term>
<term>Probable mutation effect</term>
<term>Resorption</term>
<term>Root exposure</term>
<term>Second molars</term>
<term>Secular changes</term>
<term>Secular trend</term>
<term>Selective forces</term>
<term>Selective pressures</term>
<term>Serbian academy</term>
<term>Sexual dimorphism</term>
<term>Skeletal robusticity</term>
<term>Slight resorption</term>
<term>Smaller teeth</term>
<term>Sofaer</term>
<term>Structural reduction</term>
<term>Temporal trend</term>
<term>Third molar</term>
<term>Third molars</term>
<term>Tooth</term>
<term>Tooth dimensions</term>
<term>Tooth reduction</term>
<term>Tooth size</term>
<term>Tooth size factors</term>
<term>Tooth sizes</term>
<term>Total sample</term>
<term>Twin study</term>
<term>Upper paleolithic</term>
<term>Vlasac</term>
<term>Vlasac females</term>
<term>Vlasac males</term>
<term>Wadi halfa</term>
<term>White males</term>
<term>Wild grain</term>
<term>Yugoslav mesolithic</term>
</keywords>
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<front><div type="abstract" xml:lang="en">Yugoslav Mesolithic dentition exhibits maximum mesiodistal reduction compared with contemporary European and North African groups. This reduction is not explained entirely by attrition, and may be seen as a continuation of the European Upper Paleolithic trend. Buccolingual dimension does not reduce as much. In fact, this dimension in premolars and molars is larger than in other groups. This observation also occurs in Natufians, who were grain collectors, hunters, and gatherers. The Yugoslav Mesolithic group was collecting and domesticating Cerelia as well as fishing and hunting. Linear enamel hypoplasias (LEH) indicate childhood stress through the fifth year, which corroborates previously reported incidence of rickets in this group. The central maxillary incisors and canines manifest higher degrees of LEH, but the appearance on the second molars suggest a more severe physiological disruption. Sex differences in distributions of alveolar resorption and calculus suggest differences in diet or nutritional stress. Previous reports indicate that females had higher incidence of osteomalacia. If so, female nutritional stress may explain the extreme mesiodistal reduction and minimal sexual dimorphism in this group.</div>
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