Identification and risk prediction of potentially contaminated sites in the Yangtze River Delta

Identification and risk prediction of potentially contaminated sites (PCS) are crucial for the management of contaminated sites. However, the identification and risk prediction methods of PCS are lacking at a regional scale. Here, we established the fuzzy matching algorithm based on the site's...

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Published in:The Science of the total environment Vol. 815; p. 151982
Main Authors: Jiang, Yefeng, Huang, Mingxiang, Chen, Xueyao, Wang, Zhige, Xiao, Liujun, Xu, Kang, Zhang, Shuai, Wang, Mingming, Xu, Zhe, Shi, Zhou
Format: Journal Article
Language:English
Published: Netherlands Elsevier B.V 01.04.2022
Subjects:
algorithms
China
environment
Environmental Monitoring
Environmental Pollution
geography
Identification
land use
local government
pollution control
Potentially contaminated sites
prediction
risk
Risk prediction
Risk probability zoning
risk reduction
river deltas
Rivers
simulation models
socioeconomics
Yangtze River
Yangtze River Delta
China
Yangtze River
Risk prediction
Identification
Yangtze River Delta
Risk probability zoning
Potentially contaminated sites
ISSN:0048-9697, 1879-1026, 1879-1026
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Abstract Identification and risk prediction of potentially contaminated sites (PCS) are crucial for the management of contaminated sites. However, the identification and risk prediction methods of PCS are lacking at a regional scale. Here, we established the fuzzy matching algorithm based on the site's name for identifying PCS in the Yangtze River Delta (YRD) from 2000 to 2020. The results showed that PCS in the YRD increased by over ten times, from 336 in 2000 to 4191 in 2020. Socio-economic and physical geography drive the growth of PCS and its spatiotemporal distribution, while the former has a more significant impact than the latter. We also presented a risk probability zoning strategy based on the source-pathway-receptor model, and proposed the patch-generating land-use simulation model to predict the risk probability of PCS in 2030. The results of risk probability zoning from 2000 to 2020 indicated that the local government of the YRD has started to pay attention to PCS management and risk control while developing social and economic. The results of risk prediction demonstrated that the proportion of low-risk probability pixels is 96.1% in 2030. Therefore, the planned indicator in the Action Plan on contaminated sites established by the State Council of China can be achieved in the YRD. Our experience in identifying and predicting PCS can inform how the local government worldwide manages PCS and tackles future challenges of achieving the ambition of site pollution control. [Display omitted] •Determined the spatiotemporal distribution of potentially contaminated sites (PCS).•High-density areas of PCS continuously increased from 2000 to 2020.•Socio-economic development and policies drive the increase of PCS.•Presented risk zoning and future prediction for better PCS management.
AbstractList Identification and risk prediction of potentially contaminated sites (PCS) are crucial for the management of contaminated sites. However, the identification and risk prediction methods of PCS are lacking at a regional scale. Here, we established the fuzzy matching algorithm based on the site's name for identifying PCS in the Yangtze River Delta (YRD) from 2000 to 2020. The results showed that PCS in the YRD increased by over ten times, from 336 in 2000 to 4191 in 2020. Socio-economic and physical geography drive the growth of PCS and its spatiotemporal distribution, while the former has a more significant impact than the latter. We also presented a risk probability zoning strategy based on the source-pathway-receptor model, and proposed the patch-generating land-use simulation model to predict the risk probability of PCS in 2030. The results of risk probability zoning from 2000 to 2020 indicated that the local government of the YRD has started to pay attention to PCS management and risk control while developing social and economic. The results of risk prediction demonstrated that the proportion of low-risk probability pixels is 96.1% in 2030. Therefore, the planned indicator in the Action Plan on contaminated sites established by the State Council of China can be achieved in the YRD. Our experience in identifying and predicting PCS can inform how the local government worldwide manages PCS and tackles future challenges of achieving the ambition of site pollution control.Identification and risk prediction of potentially contaminated sites (PCS) are crucial for the management of contaminated sites. However, the identification and risk prediction methods of PCS are lacking at a regional scale. Here, we established the fuzzy matching algorithm based on the site's name for identifying PCS in the Yangtze River Delta (YRD) from 2000 to 2020. The results showed that PCS in the YRD increased by over ten times, from 336 in 2000 to 4191 in 2020. Socio-economic and physical geography drive the growth of PCS and its spatiotemporal distribution, while the former has a more significant impact than the latter. We also presented a risk probability zoning strategy based on the source-pathway-receptor model, and proposed the patch-generating land-use simulation model to predict the risk probability of PCS in 2030. The results of risk probability zoning from 2000 to 2020 indicated that the local government of the YRD has started to pay attention to PCS management and risk control while developing social and economic. The results of risk prediction demonstrated that the proportion of low-risk probability pixels is 96.1% in 2030. Therefore, the planned indicator in the Action Plan on contaminated sites established by the State Council of China can be achieved in the YRD. Our experience in identifying and predicting PCS can inform how the local government worldwide manages PCS and tackles future challenges of achieving the ambition of site pollution control.
Identification and risk prediction of potentially contaminated sites (PCS) are crucial for the management of contaminated sites. However, the identification and risk prediction methods of PCS are lacking at a regional scale. Here, we established the fuzzy matching algorithm based on the site's name for identifying PCS in the Yangtze River Delta (YRD) from 2000 to 2020. The results showed that PCS in the YRD increased by over ten times, from 336 in 2000 to 4191 in 2020. Socio-economic and physical geography drive the growth of PCS and its spatiotemporal distribution, while the former has a more significant impact than the latter. We also presented a risk probability zoning strategy based on the source-pathway-receptor model, and proposed the patch-generating land-use simulation model to predict the risk probability of PCS in 2030. The results of risk probability zoning from 2000 to 2020 indicated that the local government of the YRD has started to pay attention to PCS management and risk control while developing social and economic. The results of risk prediction demonstrated that the proportion of low-risk probability pixels is 96.1% in 2030. Therefore, the planned indicator in the Action Plan on contaminated sites established by the State Council of China can be achieved in the YRD. Our experience in identifying and predicting PCS can inform how the local government worldwide manages PCS and tackles future challenges of achieving the ambition of site pollution control.
Identification and risk prediction of potentially contaminated sites (PCS) are crucial for the management of contaminated sites. However, the identification and risk prediction methods of PCS are lacking at a regional scale. Here, we established the fuzzy matching algorithm based on the site's name for identifying PCS in the Yangtze River Delta (YRD) from 2000 to 2020. The results showed that PCS in the YRD increased by over ten times, from 336 in 2000 to 4191 in 2020. Socio-economic and physical geography drive the growth of PCS and its spatiotemporal distribution, while the former has a more significant impact than the latter. We also presented a risk probability zoning strategy based on the source-pathway-receptor model, and proposed the patch-generating land-use simulation model to predict the risk probability of PCS in 2030. The results of risk probability zoning from 2000 to 2020 indicated that the local government of the YRD has started to pay attention to PCS management and risk control while developing social and economic. The results of risk prediction demonstrated that the proportion of low-risk probability pixels is 96.1% in 2030. Therefore, the planned indicator in the Action Plan on contaminated sites established by the State Council of China can be achieved in the YRD. Our experience in identifying and predicting PCS can inform how the local government worldwide manages PCS and tackles future challenges of achieving the ambition of site pollution control. [Display omitted] •Determined the spatiotemporal distribution of potentially contaminated sites (PCS).•High-density areas of PCS continuously increased from 2000 to 2020.•Socio-economic development and policies drive the increase of PCS.•Presented risk zoning and future prediction for better PCS management.
ArticleNumber 151982
Author Xu, Zhe
Jiang, Yefeng
Xiao, Liujun
Wang, Mingming
Shi, Zhou
Zhang, Shuai
Huang, Mingxiang
Xu, Kang
Wang, Zhige
Chen, Xueyao
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ISSN 0048-9697
1879-1026
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Keywords Risk prediction
Identification
Yangtze River Delta
Risk probability zoning
Potentially contaminated sites
Language English
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Snippet Identification and risk prediction of potentially contaminated sites (PCS) are crucial for the management of contaminated sites. However, the identification...
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SubjectTerms algorithms
China
environment
Environmental Monitoring
Environmental Pollution
geography
Identification
land use
local government
pollution control
Potentially contaminated sites
prediction
risk
Risk prediction
Risk probability zoning
risk reduction
river deltas
Rivers
simulation models
socioeconomics
Yangtze River
Yangtze River Delta
Title Identification and risk prediction of potentially contaminated sites in the Yangtze River Delta
URI https://dx.doi.org/10.1016/j.scitotenv.2021.151982
https://www.ncbi.nlm.nih.gov/pubmed/34843786
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https://www.proquest.com/docview/2636837258
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