The Interactive Influence of Climate and Energetic Factors on Human Nasal Morphology
Cold‐dry environments require considerable transfers of heat and moisture from the respiratory tract to inspired air in order to prevent thermal damage and desiccation of the lungs. Accordingly, humans indigenous to cold‐dry environments typically exhibit narrow nasal passages, as these enhance intr...
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crwiley:10.1096/fasebj.2020.34.s1.04886 2024-06-02T08:02:40+00:00 The Interactive Influence of Climate and Energetic Factors on Human Nasal Morphology Kelly, Alexa P. Maddux, Scott D. Ocobock, Cara 2020 http://dx.doi.org/10.1096/fasebj.2020.34.s1.04886 en eng Wiley http://onlinelibrary.wiley.com/termsAndConditions#vor The FASEB Journal volume 34, issue S1, page 1-1 ISSN 0892-6638 1530-6860 journal-article 2020 crwiley https://doi.org/10.1096/fasebj.2020.34.s1.04886 2024-05-03T10:45:03Z Cold‐dry environments require considerable transfers of heat and moisture from the respiratory tract to inspired air in order to prevent thermal damage and desiccation of the lungs. Accordingly, humans indigenous to cold‐dry environments typically exhibit narrow nasal passages, as these enhance intranasal air‐conditioning by increasing contact between respired air and the heat/moisture‐rich nasal mucosa. Yet, cold‐dry environments are also metabolically expensive due to thermoregulatory demands, requiring greater oxygen intake than in tropical environments. Thus, humans from colder environments are also predicted to possess larger nasal passages (i.e., cross‐sectional areas) in order to transmit larger volumes of air during each breath. Still, despite substantial evidence that both climate and metabolism likely influence nasal size and shape, virtually no research has investigated the interplay of these two factors on nasal anatomy. Here it is hypothesized that climate‐mediated nasal narrowing may necessitate a compensatory increase in nasal height to ensure the airways remain large enough to transmit a metabolically adequate volume of oxygen. To test this, we collected 17 linear measurements from the nasal skeleton of 119 modern humans from 10 climatically diverse geographic areas (Arctic Circle, Europe, Iran, Australia, North Africa, Khoisan, South African Bantu, East Africa, West Africa, Papua New Guinea). Measurements of associated postcranial elements were then used to estimate body mass and basal metabolic rate (BMR) for each individual. Climatic data (i.e., monthly air temperature and absolute humidity) were similarly collected for the geographic provenance of each individual. These morphological, energetic, and climatic data were subsequently employed in multivariate analyses to assess potential interactive influences of climate and metabolism on nasal morphology. Our results indicate that most measurements of nasal complex breadth are significantly correlated with climate (all r‐values >0.45, all ... Article in Journal/Newspaper Arctic Wiley Online Library Arctic The FASEB Journal 34 S1 1 1 |
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Cold‐dry environments require considerable transfers of heat and moisture from the respiratory tract to inspired air in order to prevent thermal damage and desiccation of the lungs. Accordingly, humans indigenous to cold‐dry environments typically exhibit narrow nasal passages, as these enhance intranasal air‐conditioning by increasing contact between respired air and the heat/moisture‐rich nasal mucosa. Yet, cold‐dry environments are also metabolically expensive due to thermoregulatory demands, requiring greater oxygen intake than in tropical environments. Thus, humans from colder environments are also predicted to possess larger nasal passages (i.e., cross‐sectional areas) in order to transmit larger volumes of air during each breath. Still, despite substantial evidence that both climate and metabolism likely influence nasal size and shape, virtually no research has investigated the interplay of these two factors on nasal anatomy. Here it is hypothesized that climate‐mediated nasal narrowing may necessitate a compensatory increase in nasal height to ensure the airways remain large enough to transmit a metabolically adequate volume of oxygen. To test this, we collected 17 linear measurements from the nasal skeleton of 119 modern humans from 10 climatically diverse geographic areas (Arctic Circle, Europe, Iran, Australia, North Africa, Khoisan, South African Bantu, East Africa, West Africa, Papua New Guinea). Measurements of associated postcranial elements were then used to estimate body mass and basal metabolic rate (BMR) for each individual. Climatic data (i.e., monthly air temperature and absolute humidity) were similarly collected for the geographic provenance of each individual. These morphological, energetic, and climatic data were subsequently employed in multivariate analyses to assess potential interactive influences of climate and metabolism on nasal morphology. Our results indicate that most measurements of nasal complex breadth are significantly correlated with climate (all r‐values >0.45, all ... |
format |
Article in Journal/Newspaper |
author |
Kelly, Alexa P. Maddux, Scott D. Ocobock, Cara |
spellingShingle |
Kelly, Alexa P. Maddux, Scott D. Ocobock, Cara The Interactive Influence of Climate and Energetic Factors on Human Nasal Morphology |
author_facet |
Kelly, Alexa P. Maddux, Scott D. Ocobock, Cara |
author_sort |
Kelly, Alexa P. |
title |
The Interactive Influence of Climate and Energetic Factors on Human Nasal Morphology |
title_short |
The Interactive Influence of Climate and Energetic Factors on Human Nasal Morphology |
title_full |
The Interactive Influence of Climate and Energetic Factors on Human Nasal Morphology |
title_fullStr |
The Interactive Influence of Climate and Energetic Factors on Human Nasal Morphology |
title_full_unstemmed |
The Interactive Influence of Climate and Energetic Factors on Human Nasal Morphology |
title_sort |
interactive influence of climate and energetic factors on human nasal morphology |
publisher |
Wiley |
publishDate |
2020 |
url |
http://dx.doi.org/10.1096/fasebj.2020.34.s1.04886 |
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Arctic |
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Arctic |
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Arctic |
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Arctic |
op_source |
The FASEB Journal volume 34, issue S1, page 1-1 ISSN 0892-6638 1530-6860 |
op_rights |
http://onlinelibrary.wiley.com/termsAndConditions#vor |
op_doi |
https://doi.org/10.1096/fasebj.2020.34.s1.04886 |
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The FASEB Journal |
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34 |
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S1 |
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1800747148350849024 |