Application of UAV and ground measurements for urban vegetation cooling benefits assessment, Wilanów Palace case study

Scientific Review Engineering and Environmental Sciences (SREES) Pub Date : 2024-01-26 DOI:10.22630/srees.5619

Michał Trzeciak, Daria Sikorska

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Abstract

This research at the Wilanów Palace, Warsaw, assesses urban greenery’s cooling impacts in a cultural heritage site using remote sensing and on-site measurements, highlighting vegetation’s importance in urban climate control. The study combines soil temperature data, UAV thermal imagery, leaf area index (LAI), LiDAR, and NDVI analyses. Findings demonstrate a strong link between vegetation density and temperature: UAV land surface temperature (LST) ranged from 26.8° to 47.5°C, peaking at 72°C, while ground-based temperatures were between 19.5° and 29.2°C, lowest in dense vegetation areas. The statistical analysis confirmed significant temperature differences across vegetation types, with higher LAI areas showing lower temperatures. These results validate the cooling effect of dense vegetation, emphasizing green spaces’ significance in urban climate regulation within cultural heritage sites. The study informs sustainable urban design and conservation, underlining the critical role of vegetation in improving urban microclimates.

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应用无人机和地面测量进行城市植被冷却效益评估，Wilanów 宫案例研究

这项在华沙 Wilanów 宫进行的研究利用遥感技术和现场测量，评估了城市绿化对文化遗址的降温影响，强调了植被在城市气候控制中的重要性。该研究结合了土壤温度数据、无人机热成像、叶面积指数（LAI）、激光雷达和 NDVI 分析。研究结果表明，植被密度与温度之间存在密切联系：无人机地表温度（LST）在 26.8° 至 47.5°C 之间，最高温度为 72°C，而地面温度在 19.5° 至 29.2°C 之间，植被茂密地区的温度最低。统计分析证实，不同植被类型的温度差异显著，LAI 较高的区域温度较低。这些结果验证了茂密植被的降温效果，强调了绿地在文化遗址内调节城市气候的重要作用。这项研究为可持续城市设计和保护提供了信息，强调了植被在改善城市微气候方面的关键作用。

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Scientific Review Engineering and Environmental Sciences (SREES)

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