Dynamic Impact of Urban Built Environment on Land Surface Temperature Considering Spatio-Temporal Heterogeneity: A Perspective of Local Climate Zone

IF 3.2 2区 环境科学与生态学 Q2 ENVIRONMENTAL STUDIES
Land Pub Date : 2023-12-10 DOI:10.3390/land12122148
Kaixu Zhao, Mingyue Qi, Xi Yan, Linyu Li, Xiaojun Huang
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Abstract

Thermal environment deterioration has seriously threatened urban habitat quality and urban sustainable development. The evolution of the urban built environment (UBE) is an important cause for urban thermal environment variation. However, the dynamic effect of the UBE on the land surface temperature (LST) is rarely studied by combining the local climate zone (LCZ) theory and spatio-temporal heterogeneity. Based on a case study of Beilin District in Xi’an, China, this paper identified LCZ types of Beilin District in 2010, 2015, and 2020 using the GIS method. It also analyzed the spatial–temporal characteristics of the LST in summer based on the remote sensing retrieval method and explored the effects of the built environment on the LST by Geodetector and geographically weighted regression (GWR). The results showed the following: (1) The area share of dense building zones in Beilin District was greater than that of open building zones and natural surface zones, while the share of mid- and high-rise dense building zones continued to increase and the share of low-rise dense building zones continued to decrease during the study period. (2) The LST of different LCZ types in Beilin District was obviously different, and the LST of dense building zones was generally higher than that of open building zones and natural surface zones. Meanwhile, the LST of mid- and low-rise dense building zones increased gradually, and the LST of high-rise open building zones decreased gradually, but the overall warming area was obviously more than the cooling area. (3) The effects of the UBE factors on the LST varied greatly, with their interaction having an enhancement effect. The direct and interactive influence of the two-dimensional (2D) UBE indicators on the LST were greater than those of the three-dimensional (3D) indicators, but there was a gradual decrease in the force of the 2D indicators and a simultaneous diminution, enhancement, and invariance of the force of the 3D indicators. (4) Vegetation cover (VC) and floor area ratio (FAR) acted negatively, and the building height (BH) was changing from a positive to a negative role, with the average action intensity of VC changing from −0.27 to −0.15, FAR from −0.20 to −0.16, and BH from 0.05 to −0.04. The impervious surface area (ISA), building area (BA), and space congestion (SC) acted positively, with the average action intensity of the ISA changing from 0.12 to 0.20, BA from 0.12 to 0.19, and SC was stable at 0.04. The framework enables a deeper portrayal of LST changes in different LCZs, reflecting the direct and interactive effects of different UBE indicators on LST, as well as local variations in the impact effects and provides a basis for urban managers or planners to improve urban heat resilience.
考虑时空异质性的城市建筑环境对地表温度的动态影响:地方气候区视角
热环境恶化已严重威胁到城市人居环境质量和城市可持续发展。城市建筑环境(UBE)的演变是城市热环境变化的重要原因。然而,结合局地气候区(LCZ)理论和时空异质性研究城市建筑环境对地表温度(LST)的动态影响却很少。本文基于中国西安市碑林区的案例研究,利用 GIS 方法识别了碑林区 2010 年、2015 年和 2020 年的 LCZ 类型。同时,基于遥感检索方法分析了夏季低纬度带的时空特征,并利用 Geodetector 和地理加权回归(GWR)方法探讨了建筑环境对低纬度带的影响。结果表明(1) 在研究期间,碑林区密集建筑区的面积占比大于开敞建筑区和自然地表区,中高层密集建筑区的面积占比持续上升,低层密集建筑区的面积占比持续下降。(2)碑林区不同类型低密度建筑区的 LST 有明显差异,高密度建筑区的 LST 普遍高于开敞式建筑区和自然地表区。同时,中低层密集建筑区的 LST 逐渐升高,高层开敞建筑区的 LST 逐渐降低,但总体升温面积明显大于降温面积。(3) 各个宇部环境因子对 LST 的影响差异较大,相互影响有增强作用。二维 UBE 指标对 LST 的直接影响和交互影响均大于三维指标,但二维指标的作用力逐渐减弱,三维指标的作用力同时减弱、增强和不变。(4)植被覆盖度(VC)和容积率(FAR)起负作用,建筑高度(BH)由正作用变为负作用,VC 的平均作用强度由-0.27 变为-0.15,容积率由-0.20 变为-0.16,建筑高度由 0.05 变为-0.04。不透水表面积 (ISA)、建筑面积 (BA) 和空间拥挤度 (SC) 起积极作用,ISA 的平均作用强度从 0.12 变为 0.20,BA 从 0.12 变为 0.19,SC 稳定在 0.04。该框架能够更深入地描绘不同低纬度区的低温热量变化,反映不同的宇部环境变化指标对低温热量的直接和交互影响,以及影响效应的局部差异,为城市管理者或规划者提高城市抗热能力提供依据。
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
Land
Land ENVIRONMENTAL STUDIES-Nature and Landscape Conservation
CiteScore
4.90
自引率
23.10%
发文量
1927
期刊介绍: Land is an international and cross-disciplinary, peer-reviewed, open access journal of land system science, landscape, soil–sediment–water systems, urban study, land–climate interactions, water–energy–land–food (WELF) nexus, biodiversity research and health nexus, land modelling and data processing, ecosystem services, and multifunctionality and sustainability etc., published monthly online by MDPI. The International Association for Landscape Ecology (IALE), European Land-use Institute (ELI), and Landscape Institute (LI) are affiliated with Land, and their members receive a discount on the article processing charge.
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