Hot stops, cool looks: Aesthetic solutions for thermal comfort at transit stops

IF 6.9 2区工程技术 Q1 ENVIRONMENTAL SCIENCES

Urban Climate Pub Date : 2025-09-27 DOI:10.1016/j.uclim.2025.102606

Logan Steinharter , Peter C. Ibsen , Tzeng Yih Lam , Lorien Nesbitt , Keunhyun Park , Melissa R. McHale

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Abstract

Increased urban heat intensifies thermal discomfort, particularly in critical public spaces such as transit stops. This study investigated the predictors of transit users' thermal perceptions in Denver, Colorado—a semi-arid city. Sixty bus stops spanning a gradient of land cover compositions were selected for study. Micrometeorological data, including thermal comfort indices, were collected alongside survey responses from 77 users at 31 unique stops. Survey responses captured thermal sensation votes (TSV) and thermal comfort votes (TCV) as well as aesthetic preference votes (APV) of bus stop structure. Ordinal forest analysis revealed that for both TSV and TCV, aesthetic preferences and thermal comfort indices were the most influential predictors of transit user thermal perception. Multiple ordered logistic regression further demonstrated that, for TSV, higher APV was associated with lower odds of rating a thermal environment as hot (OR = 0.664, p < 0.002) while increased Physiological Equivalent Temperature (PET) raised these odds (OR = 1.101, p < 0.006). An interaction analysis demonstrated that APV significantly moderated the effect of PET on TCV (interaction OR = 1.040, p < 0.041), suggesting that aesthetic preferences are significantly correlated with an alleviation of thermal discomfort under high heat stress. Bivariate analyses further indicated that bus stops with greater tree canopy cover (OR = 1.032, p < 0.025) and higher visible vegetation view factors (OR = 10.350, p < 0.022) were more likely to be rated as aesthetically pleasing. These findings underscore the importance of aesthetic preferences in transit stop planning for urban heat resiliency.

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热站点，酷外观：公交站点热舒适的美学解决方案

城市热量的增加加剧了热不适，特别是在交通站点等关键公共场所。本研究调查了一个半干旱城市科罗拉多州丹佛市交通用户热感知的预测因素。选择了60个公交车站，跨越不同的土地覆盖组成梯度进行研究。微气象数据，包括热舒适指数，与来自31个不同站点的77名用户的调查反馈一起收集。调查结果包括热感觉投票（TSV）和热舒适投票（TCV）以及公交车站结构审美偏好投票（APV）。顺序森林分析显示，对于TSV和TCV，审美偏好和热舒适指数是影响交通用户热感知的最重要的预测因子。多元有序逻辑回归进一步证明，对于TSV而言，较高的APV与较低的热环境评级几率相关（OR = 0.664, p < 0.002），而生理等效温度（PET）的升高则提高了这些几率（OR = 1.101, p < 0.006）。交互作用分析表明，APV显著调节了PET对TCV的影响（交互作用OR = 1.040, p < 0.041），表明审美偏好与高热应激下热不适的缓解显著相关。双变量分析进一步表明，具有较大树荫覆盖率（OR = 1.032, p < 0.025）和较高可见植被景观因子（OR = 10.350, p < 0.022）的公交车站更有可能被评为美观。这些发现强调了审美偏好在城市热弹性交通站点规划中的重要性。

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

Urban Climate Social Sciences-Urban Studies

CiteScore

9.70

自引率

9.40%

发文量

286

期刊介绍： Urban Climate serves the scientific and decision making communities with the publication of research on theory, science and applications relevant to understanding urban climatic conditions and change in relation to their geography and to demographic, socioeconomic, institutional, technological and environmental dynamics and global change. Targeted towards both disciplinary and interdisciplinary audiences, this journal publishes original research papers, comprehensive review articles, book reviews, and short communications on topics including, but not limited to, the following: Urban meteorology and climate[...] Urban environmental pollution[...] Adaptation to global change[...] Urban economic and social issues[...] Research Approaches[...]