Institute of Agricultural Remote Sensing and Information Technology Application, College of Environmental and Resource Sciences, Zhejiang University, Hangzhou 310058, China.
Information Center of Ministry of Ecology and Environment, Beijing 100035, China.
Sci Total Environ. 2022 Apr 1;815:151982. doi: 10.1016/j.scitotenv.2021.151982. Epub 2021 Nov 27.
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.
识别和预测潜在污染场地(PCS)对于污染场地的管理至关重要。然而,在区域尺度上,PCS 的识别和风险预测方法还很缺乏。在这里,我们建立了基于场地名称的模糊匹配算法,用于识别 2000 年至 2020 年长三角地区(YRD)的 PCS。结果表明,YRD 的 PCS 增加了十倍以上,从 2000 年的 336 个增加到 2020 年的 4191 个。社会经济和自然地理驱动了 PCS 的增长及其时空分布,而前者的影响比后者更为显著。我们还提出了一种基于源-途径-受体模型的风险概率分区策略,并提出了斑块生成土地利用模拟模型,以预测 2030 年 PCS 的风险概率。2000 年至 2020 年风险概率分区的结果表明,长三角地区地方政府在发展社会经济的同时,已经开始关注 PCS 管理和风险控制。风险预测的结果表明,2030 年低风险概率像素的比例为 96.1%。因此,中国国务院发布的污染场地行动计划中的规划指标可以在长三角地区实现。我们在识别和预测 PCS 方面的经验可以为全球地方政府管理 PCS 提供参考,并应对实现场地污染控制目标的未来挑战。
