Sexual dimorphism using elliptical Fourier analysis: shape differences in the craniofacial complex

Lestrel, Pete E.; Kanazawa, Eisaku; Wolfe, Charles

doi:10.1537/ase.100630

Cited by 11 publications

(7 citation statements)

References 97 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…Although low degrees of sexual dimorphism in human cranial shape have been reported, this study suggested that sexually dimorphic differences in the 3D contour of neurocranial shape exist in the modern Japanese population. Although direct comparison between the results of this study and those of previous studies was made difficult by the differences in the landmarks chosen to represent cranial morphology, the results of this study were found to be generally consistent with those of previous morphometric studies (Rosas and Bastir, ; Franklin et al, ; Bigoni et al, ; Lestrel et al, ). Although it is well known that sexual dimorphism exists in forehead contour (in female crania the forehead rises more vertically, whereas in male crania it slopes back), this morphological tendency was not observed in this study.…”

Section: Discussionsupporting

confidence: 88%

“…They also observed that the occipital region of the male cranium was posteriorly projected and acutely angled at the inion, whereas the corresponding region in the female cranium was more rounded. Using elliptical Fourier analysis, Lestrel et al () reported that 2D outlines of the female cranial vault tended to be more globular and superoinferiorly higher, whereas those of males tended to be anteroposteriorly elongated, as the glabella and occipital regions in males were projected relatively more anteriorly and posteriorly, respectively. Using a three‐dimensional (3D) geometric morphometric technique, Franklin et al () demonstrated that, in female crania, the forehead was more vertical and rounded; the glabella region was smaller and less convexly protrudent; the cranial vault was lower; the parietal eminences were larger and more laterally projected; the mastoid process was smaller in length and height and less antero‐inferiorly projected; and the occipital bone was less posteriorly projected.…”

mentioning

confidence: 99%

See 1 more Smart Citation

Technical note: Quantification of neurocranial shape variation using the shortest paths connecting pairs of anatomical landmarks

Morita

Ogihara

Kitaoka

et al. 2013

American J Phys Anthropol

View full text Add to dashboard Cite

Three-dimensional geometric morphometric techniques have been widely used in quantitative comparisons of craniofacial morphology in humans and nonhuman primates. However, few anatomical landmarks can actually be defined on the neurocranium. In this study, an alternative method is proposed for defining semi-landmarks on neurocranial surfaces for use in detailed analysis of cranial shape. Specifically, midsagittal, nuchal, and temporal lines were approximated using Bezier curves and equally spaced points along each of the curves were defined as semi-landmarks. The shortest paths connecting pairs of anatomical landmarks as well as semi-landmarks were then calculated in order to represent the surface morphology between landmarks using equally spaced points along the paths. To evaluate the efficacy of this method, the previously outlined technique was used in morphological analysis of sexual dimorphism in modern Japanese crania. The study sample comprised 22 specimens that were used to generate 110 anatomical semi-landmarks, which were used in geometric morphometric analysis. Although variations due to sexual dimorphism in human crania are very small, differences could be identified using the proposed landmark placement, which demonstrated the efficacy of the proposed method.

show abstract

Section: Discussionsupporting

confidence: 88%

mentioning

confidence: 99%

Technical note: Quantification of neurocranial shape variation using the shortest paths connecting pairs of anatomical landmarks

Morita

Ogihara

Kitaoka

et al. 2013

American J Phys Anthropol

View full text Add to dashboard Cite

show abstract

“…The average outlines exhibit all the main features of traditionally described sexually dimorphic traits [2,16,26,31,54,55,58,62]. As anticipated, the major difference is overall size, with female skull outlines being smaller than their male counterparts for all ancestry groups (Fig.…”

Section: Sexsupporting

confidence: 56%

“…It is possible to supplement basic landmarks with pseudo-and/or semi-landmark procedures [5,6], but alternative outline-based GMM methods such as elliptical Fourier analysis (EFA) are inherently geared toward higher density sampling of continuous margins, and can also be applied with few constraints on feature limited boundaries (e.g., not possessing type I landmarks) [7,8]. The suitability of EFA to the quantification of skeletal morphology has been discussed at length elsewhere [7,9], so suffice it to briefly summarize here that these methods have been used for individuation [10][11][12][13][14], as well as to study sex and ancestry patterning of the skull [15][16][17][18][19][20] and infracranial elements, e.g., proximal humerus [21] and greater sciatic notch [22]. Accuracy of sex and ancestry classification using EFA is similar to (and sometimes better than) methods that employ linear measurements (see Table 1 in [7] for a summary).…”

Section: Accepted Manuscriptmentioning

confidence: 99%

The utility of elliptical Fourier analysis for estimating ancestry and sex from lateral skull photographs

Caple

Byrd

Stephan

2018

Forensic Science International

View full text Add to dashboard Cite

Current quantitative methods for estimating ancestry and sex from skulls typically require substantial manual data collection and specialized recording equipment, which can limit analysis to the laboratory. This limitation could be addressed by establishing a faster, more user-friendly, and automatic data protocol as investigated in the current study using elliptical Fourier analysis (EFA). Ancestry and sex were estimated using outlines acquired from standardized photographs of the skull in norma lateralis (left side). In this investigation, training samples comprised anatomical specimens from five collections: the Hamann-Todd Human Osteological Collection, WM Bass Donated Skeletal Collection, Robert J. Terry Anatomical Skeletal Collection, Khon Kaen Osteological Collection, and Chiba Bone Collection. Groups were defined as Black American female (n=87), Black American male (n=109), Japanese male (n=59), Thai female (n=39), Thai male (n=47), White American female (n=97), and White American male (n=134). EFA was conducted on partial Procrustes-aligned skull outline coordinates, before extracting principal components and using linear discriminant analysis for group assignment. Classification accuracy was determined using the 5-fold cross-validation protocol. Ancestry and sex were classified correctly 73% of the time when all seven reference samples were used. When only Black and White Americans were retained in the reference sample with sex pooled, they were correctly classified 94% of the time. Accuracy of out-of-group ancestry and sex estimation was evaluated using nine White American males from the Defense POW/MIA Accounting Agency Laboratory. A seven-way comparison with all reference samples for estimating both ancestry and sex achieved 89% (8/9) correct classifications, with one misclassification as White American female. These out-of-group results, along with initial training group accuracies, indicate that lateral skull outlines can be used to successfully estimate ancestry and sex with similar accuracy to other methods, and set the basis for future cross-validation testing. Further, the reliance on a single easy-to-take photograph and user-friendly open-source R script facilitates easy application and field use. The protocol is freely available from CRANIOFACIALidentification.com as the SkullProfiler script.

show abstract

“…Mandibular dimensions are routinely recorded during the preparation of osteological reports on skeletal remains from archaeological sites, and measurement definitions feature in standard laboratory manuals (e.g., Martin, ; Brothwell, ; Bass, ; Buikstra and Ubelaker, ; Schwartz, ; Brothwell and Zakrzewski, ). Mandibular morphology is an important focus in work on skeletal sexual dimorphism (Franklin et al, ; Lestrel et al, ), in studies of fossil hominins (Trinkaus, ; Lague et al, ), in the investigation of temporal (Jonke et al, ; Martin and Danforth, ) and ecogeographic (Humphrey et al, ; Nicholson and Harvati, ) variability in skeletal morphology, and in the study of the consistency of the diets of earlier peoples (Pinhasi et al, ; Paschetta et al, ).…”

mentioning

confidence: 99%

Loss of molar occlusion and mandibular morphology in adults in an ancient human population consuming a coarse diet

Mays

2013

American J Phys Anthropol

View full text Add to dashboard Cite

The purpose of the study is to investigate the link between number of molar teeth retained in occlusion and mandibular morphology in adults in an ancient, high dental wear human population. The study material comprises skeletons from Mediaeval Wharram Percy, England (N = 50 female, 69 male adults). It was hypothesized that adults retaining fewer occluding molars would show reduction in mandibular dimensions, particularly in the ascending ramus and gonial regions where the main muscles of mastication have their insertions. Molar occlusal status is assessed using the concept of functional units. Mandibular morphology is assessed using a suite of ten linear measurements plus the mandibular angle. Results show no evidence for any association between number of molars retained in occlusion and mandibular angle. There was an association between mandibular size and number of molars retained in occlusion, with smaller mandibular dimensions in those retaining fewer occluding molars. Some measurements were affected more than others so that there was also some shape alteration. Alteration of mandibular dimensions was more clearly demonstrable in females than in males. Only in females could significant reduction in the ascending ramus and gonial regions be demonstrated. Reasons for the apparent difference in response to loss of molar occlusion between male and female mandibles are unclear, but sex differences in bony metabolism mediated by hormonal factors may be implicated. Results suggest that care should be exercised when including mandibles from individuals showing loss of molar occlusion in morphological studies.

show abstract

Sexual dimorphism using elliptical Fourier analysis: shape differences in the craniofacial complex

Cited by 11 publications

References 97 publications

Technical note: Quantification of neurocranial shape variation using the shortest paths connecting pairs of anatomical landmarks

Technical note: Quantification of neurocranial shape variation using the shortest paths connecting pairs of anatomical landmarks

The utility of elliptical Fourier analysis for estimating ancestry and sex from lateral skull photographs

Loss of molar occlusion and mandibular morphology in adults in an ancient human population consuming a coarse diet

Contact Info

Product

Resources

About