Affiliation:
1. Center for Anatomical Sciences University of North Texas Health Science Center Fort Worth Texas USA
2. Department of Anthropology University of Notre Dame Notre Dame Indiana USA
3. Eck Institute for Global Health Institute for Educational Initiatives, University of Notre Dame Notre Dame Indiana USA
4. Department of Anatomy Des Moines University Des Moines Iowa USA
Abstract
AbstractObjectivesAlthough ecogeographic variation in human nasal morphology is commonly attributed to climatic adaptation, recent research into the “respiratory‐energetics hypothesis” has suggested that metabolic demands for oxygen intake may influence overall nasal size. Here, we further test the respiratory‐energetics hypothesis and investigate potential interactions between metabolic and climatic pressures on human nasal morphology.Materials and MethodsThis study employed computed tomography (CT) scans of 79 mixed‐sex crania derived from an extreme cold‐dry locale (Point Hope, Alaska). In conjunction with basal metabolic rate (BMR, kcal/day) estimates derived from associated femoral head diameter measurements, 41 cranial three‐dimensional (3D) coordinate landmarks and 17 linear measurements were employed in multivariate analyses to test for associations between metabolic demands and nasal/facial morphology across and within the sexes.ResultsOverall nasal size was found to be significantly correlated with BMR both across and within the sexes, with higher metabolic demands predictably associated with larger noses. However, associations between BMR and overall nasal size were found to be predominantly driven by nasal passage height and length dimensions, with the Arctic sample exhibiting minimal (non‐dimorphic) variation in nasal passage breadths. Accordingly, significant correlations between BMR and 3D nasal shape were also identified.DiscussionOur study provides additional support for the respiratory‐energetics hypothesis, while providing insights into potential metabolic and climatic constraints on specific nasal dimensions. In particular, our results suggest that climatic pressures on nasal passage breadths for heat/moisture transfers may necessitate compensatory changes in passage heights (and developmentally‐linked lengths) to maintain sufficient air intake to meet metabolic requirements.
Funder
National Science Foundation
Subject
Paleontology,Archeology,Genetics,Anthropology,Anatomy,Epidemiology
Cited by
1 articles.
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1. Human cold adaptation: An unfinished agenda v2.0;American Journal of Human Biology;2023-06-21