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作者

来源

URBAN FORESTRY & URBAN GREENING,Vol.31,P.142-156

语言

英文

关键字

Ecological environment benefit; Lake wetland; Land use regression (LUR) model; Particulate matter (PM); PM10,2.5; Urban wetland; LAND-USE REGRESSION; FINE PARTICULATE MATTER; ULTRAFINE PARTICLES; POLLUTION EXPOSURE; SIZE DISTRIBUTION; DRY DEPOSITION; MODE

作者单位

[Zhu, Chunyang; Zeng, Yuanzi] Huazhong Agr Univ, Dept Landscape Architecture, Coll Hort & Forest, Key Lab Urban Agr Cent China Pilot Run,Minist Agr, 1 Shizishan St, Wuhan 430070, Hubei, Peoples R China. Zhu, CY (reprint author), Huazhong Agr Univ, Dept Landscape Architecture, Coll Hort & Forest, Key Lab Urban Agr Cent China Pilot Run,Minist Agr, 1 Shizishan St, Wuhan 430070, Hubei, Peoples R China. E-Mail: zhuchunyang@mail.hzau.edu.cn; 506318094@qq.com

摘要

Deposition of particulate matter (PM) from air is influenced by land use types and their attributes. Urban lakes wetlands can promote this deposition through their effects on the microclimate. To document these effects we investigated air PM10 and PM2.5 concentrations in transects around by monitoring PM and land use of 16 urban lake wetlands in the spring in Wuhan. The results showed that (1) lake wetland land-use regression models for air PM10,2.5 were successfully developed with an adjusted R-(PM10)(2) (0.365-0.982) and adjusted R-(PM2.5)(2) (0.483-0.969). Based on the lake wetland land use regression (LW LUR) model, the traffic variable was determined to be the strongest predictor of PM10,2.5, followed by distance to the city centre and relative humidity for PM10 and open green space and distance to the city centre for PM2.5. (2) The landscape descriptors of the lake wetland (less than 0.2 km(2) lake area) significantly affected PM10,2.5 in the central areas of the city, and air PM10,2.5 concentration was negatively correlated with wetland area (WA), landscape shape index (LSI), and proportion of non-built up area in the 500-m buffer zone surrounding the lake wetland (PB). (3) The lake wetlands showed decreasing air PM10,2.5 concentration, and the maximum air PM10,2.5 concentration gap between the wetlands and their surroundings occurred at 12:00-14:00 am and was from 10 to 50 mu g/m(3) for PM10 and from 5 to 15 mu g/m(3) for PM2.5. Effective understanding of these PM10,2.5 effects can contribute to better planning of urban development when considering the rising concerns of global air pollution and continued rapid urbanization.