Journal
SCIENCE OF THE TOTAL ENVIRONMENT
Volume 867, Issue -, Pages -Publisher
ELSEVIER
DOI: 10.1016/j.scitotenv.2023.161476
Keywords
PM2; 5; Removal capacity; Removal flux; Removal rate; Urban green infrastructure
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This study estimated the annual PM2.5 removal capacity of urban green infrastructure (UGI) from 2000 to 2019 in Shenyang and explored the effects of landscape patterns and socioeconomic variables on PM2.5 removal capacity. The results showed a significant increase in PM2.5 removal capacity of UGI in Shenyang, with spatial heterogeneity across the study area. Landscape metrics representing fragmentation and shape complexity positively affected the PM2.5 removal flux and removal rate, while aggregation metrics had negative correlations. Population density and GDP negatively affected the PM2.5 removal capacity of UGI.
Long-term exposure to PM2.5 (fine particulate matter with an aerodynamic diameter <2.5 mu m) could cause great harm to human health and sustainable development. It remains a challenge to estimate the long-term PM2.5 removal capac-ity of nature-based green infrastructure in urban areas. In this paper, the annual PM2.5 removal capacity of urban green infrastructure (UGI) from 2000 to 2019 in Shenyang was estimated based on the PM2.5 dry deposition model. The spa-tial heterogeneity of annual PM2.5 removal capacity were detected Sen-MK test and local spatial autocorrelations anal-ysis. Then the effects of landscape patterns and socioeconomic variables on PM2.5 removal capacity were explored based on linear regression model. The results illustrated that the PM2.5 removal capacity of UGI increased significantly from 2000 to 2019 in Shenyang, with the amount of PM2.5 removal, PM2.5 removal flux and removal rate increasing by 20.64 Mg/a, 0.0258 g/m2/a, and 0.377 %/a, respectively. The PM2.5 removal capacity of UGI exhibited spatial hetero-geneity in the study area. Specifically, the regions experiencing the increase in PM2.5 removal capacity of UGI ac-counted for majority of the old urban area of Shenyang City during the study period; the lower PM2.5 removal capacity clustered in the center urban area, in which high density impervious surfaces distributed, while the higher PM2.5 removal capacity mainly gathered in the area with large scale green space;PM2.5 removal capacity were signif-icantly higher in urban functional zones with a high proportion of green spaces. The landscape metrics representing fragmentation and shape complexity positively affected the annual PM2.5 removal flux and removal rate, while the ag-gregation metrics had significantly negative correlations with the PM2.5 removal flux and removal rate. Moreover, it was also found that population density and GDP negatively affected the PM2.5 removal capacity of UGI. This study provides a methodological reference and some new insights for future urban landscape planning and air pollution purification.
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