Ambient temperature and wet bulb globe temperature outperform heat index in predicting hydration status and heat perception in a semi-arid environment.

IF 1.2 4区医学 Q2 ANTHROPOLOGY

Annals of Human Biology Pub Date : 2025-12-01 Epub Date: 2025-02-24 DOI:10.1080/03014460.2025.2456152

Lilian Baker, Hannah Jacobson, Amanda McGrosky, Elena Hinz, Faith Wambua, Alison Sherwood, Tiffany-Chrissy Mbeng, Rosemary Nzunza, David R Braun, Emmanuel Ndiema, Herman Pontzer, Asher Y Rosinger

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引用次数: 0

Abstract

Background: Climate change is increasing temperatures, frequency of heatwaves, and erratic rainfall, which threatens human biology and health, particularly in already extreme environments. Therefore, it is important to understand how environmental heat stress measures are tied to human water needs and thermoregulation under increasingly hot conditions.

Aim: To test how ambient temperature, heat index, and wet bulb globe temperature (WBGT) relate to hydration status and thermal heat perception in a hot, semi-arid environment.

Subjects and methods: Urine samples, perceived heat stress, and anthropometrics were collected among Daasanach semi-nomadic pastoralists (n = 187 children, n = 231 adults) in northern Kenya. Environmental heat stress measures were recorded at sample collection; samples' urine specific gravity (USG) was measured.

Results: Multiple linear and logistic regressions indicate that all environmental heat stress measures were associated with USG, odds of dehydration, and heat perception. Ambient temperature performed marginally better than WBGT, and both performed better than heat index. These associations were stronger among children than adults.

Conclusion: In a hot, semi-arid climate, ambient temperature and WBGT accurately predict human water needs and heat stress, with children more vulnerable to dehydration. To mitigate consequences of extreme heat, local bioculturally-appropriate hydration (e.g. tea) and cooling (e.g. shade) strategies should be encouraged.

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环境温度和湿球温度优于热指数在预测水化状态和热感知在半干旱环境。

背景：气候变化使气温升高，热浪频率增加，降雨不稳定，这威胁着人类的生物学和健康，特别是在已经极端的环境中。因此，了解在日益炎热的条件下，环境热应力测量如何与人类的水需求和体温调节联系在一起是很重要的。目的：测试环境温度、热指数和湿球温度（WBGT）在炎热、半干旱环境中与水化状态和热感知的关系。研究对象和方法：在肯尼亚北部的Daasanach半游牧牧民（n = 187名儿童，n = 231名成人）中收集尿液样本、感知热应激和人体测量数据。采集样品时记录环境热应力测量；测定样品尿液比重（USG）。结果：多元线性和逻辑回归表明，所有环境热应激措施都与USG、脱水几率和热感知有关。环境温度性能略好于WBGT，两者均优于热指数。这些关联在儿童中比在成人中更明显。结论：在炎热半干旱气候下，环境温度和WBGT能准确预测人体水分需求和热应激，儿童更易脱水。为了减轻极端高温的后果，应鼓励采用适合当地生物文化的补水（如茶）和降温（如遮荫）策略。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Annals of Human Biology 生物-公共卫生、环境卫生与职业卫生

CiteScore

3.40

自引率

5.90%

发文量

审稿时长

1 months

期刊介绍： Annals of Human Biology is an international, peer-reviewed journal published six times a year in electronic format. The journal reports investigations on the nature, development and causes of human variation, embracing the disciplines of human growth and development, human genetics, physical and biological anthropology, demography, environmental physiology, ecology, epidemiology and global health and ageing research.