Green and calm: Modeling the relationships between noise pollution propagation and spatial patterns of urban structures and green covers

《Green and calm: Modeling the relationships between noise pollution propagation and spatial patterns of urban structures and green covers》

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来源: URBAN FORESTRY & URBAN GREENING,Vol.24,P.195-211

语言: 英文

关键字: Noise pollution propagation; Landscape ecology; Urban planning; Composition and configuration metrics; Multiple linear regression; Iran; TRAFFIC-INDUCED NOISE; LANDSCAPE METRICS; AREAS

作者单位: [Sakieh, Yousef] Gorgan Univ Agr Sci & Nat Resources, Dept Environm, Gorgan, Golestan, Iran. [Jaafari, Shirkou] Univ Tehran, Fac Nat Resources, Dept Environm Sci, Karaj, Iran. [Ahmadi, Mohsen] Isfahan Univ Technol, Dept Nat Resources, Esfahan, Iran. [Danekar, Afshin] Univ Tehran, Fac Nat Resources, Dept Environm Sci, Karaj, Iran. Sakieh, Y (reprint author), Gorgan Univ Agr Sci & Nat Resources, Dept Environm, Gorgan, Golestan, Iran. E-Mail: sakie.yusuf@gmail.com; sh.jaafari@ut.ac.ir; mohsenahmadi@ut.ac.ir; danekar@ut.ac.ir

摘要: The mechanism of noise pollution propagation is considerably affected by 1) the type and configuration of its receiving environment and 2) the distance that sound waves pass to reach that environment. This study adopts a spatio-statistical approach to quantify and model associations between noise pollution levels and landscape metrics of land categories (built-up structures and urban green covers). Accordingly, noise levels were measured employing a sound pressure meter to quantify equivalent levels (Leq in dB A), in addition to their corresponding percentiles (L-10 and L-90). A collection of 30 sampling points were selected to measure noise data within the fall season and between 4 p.m. and 8 p.m. hours of the day. A hierarchical distance-sampling framework based on buffer areas with different radius (300 m, 600 m and 1 km) around each sampling point was compiled to measure composition and configuration metrics of land categories within each buffer area. The results derived from Pearson correlation analysis and multiple-linear regression models indicated that there is a distance dependent relationship between the metrics of green areas and noise levels. We didn't find remarkable distance dependency between built-up structures and noise levels. Based on our new spatio-statistical approach, we conclude that more connected and compacted pattern of green areas closer to pollution centers can significantly alleviate the effects of noise propagation mechanism and appropriate pattern of built-up areas follows a low density distribution with coming green areas in between. Findings of this study highlight the potential of landscape ecology approach as an effective planning paradigm for designing greener and calmer cities.