The evolution of social-ecological system interactions and their impact on the urban thermal environment

IF 9.1 Q1 ENVIRONMENTAL STUDIES npj urban sustainability Pub Date : 2024-01-22 DOI:10.1038/s42949-024-00141-4

Bin Chen, Fanhua Kong, Michael E. Meadows, Huijun Pan, A-Xing Zhu, Liding Chen, Haiwei Yin, Lin Yang

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Abstract

While heat mitigation is crucial to achieving sustainable urban development, an inadequate understanding of the evolution of the urban thermal environment (UTE) and its relationship with socio-ecological systems (SESs) constrains the development of effective mitigation strategies. In this study, we use satellite observations from 2000–2021 to explore the evolving impact of SES interactions on the UTE of 136 Chinese urban areas. The results reveal a nonlinear intensification of the UTE over the period and an indication that an increasing number of urban areas have successfully applied UTE mitigation measures. Spatio-temporal patterns in UTE are shown to be strongly influenced by social and ecological factors and their interactions, whereby the higher the SES status, the stronger the decreasing UTE trend. These findings highlight the need for, and advantages of, developing win-win solutions for urban society and ecology and have important implications in creating integrated strategies for heat mitigation in promoting urban sustainability.

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社会生态系统相互作用的演变及其对城市热环境的影响

虽然减缓热量对实现城市可持续发展至关重要，但对城市热环境（UTE）的演变及其与社会生态系统（SES）的关系认识不足，制约了有效减缓战略的制定。在本研究中，我们利用 2000-2021 年的卫星观测数据，探讨了 SES 相互作用对中国 136 个城市地区 UTE 的演变影响。研究结果表明，在此期间UTE呈非线性加剧趋势，并表明越来越多的城市地区已成功应用了UTE减缓措施。UTE 的时空模式受到社会和生态因素及其相互作用的强烈影响，社会经济地位越高，UTE 下降趋势越强。这些发现凸显了为城市社会和生态制定双赢解决方案的必要性和优势，对制定综合热量减缓战略以促进城市可持续性具有重要意义。

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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npj urban sustainability

CiteScore

10.00

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