European Commission, Joint Research Centre (JRC), Ispra, Italy.
Environ Res. 2020 Mar;182:109129. doi: 10.1016/j.envres.2020.109129. Epub 2020 Jan 10.
Acknowledging the difficulty of modelling pollution conveyed by urban runoff, this contribution presents a first pan-European quantification of loads from this diffuse source. We estimate annual loads of 5-days biochemical oxygen demand (BOD), nitrogen (N), phosphorus (P) and total suspended solids (TSS) using a simple event mean concentration (EMC) model initially proposed by Heaney et al., 1976. On a European scale, this yields discharges corresponding to untreated wastewater of about 31 million population equivalents (PE) for BOD, about 18.5 million PE for N and P and about 280 million for TSS. These represent 51% of the pollution coming from treated wastewater for BOD, 15% for N and P and 461% for TSS. Although the model applied for the assessment was developed more than 40 years ago, the results are consistent with those obtained using more recent parameterizations, except for a tendency to underestimate P loads. Although lack of data on pollution from urban runoff makes model verification impossible, and the uncertainty on EMC models is known to be very high, urban runoff emerges as a significant source of pollution, and should be properly addressed as such. Reducing runoff volume from urban areas through improved water retention is not only key to pollution control, but also a no-regret option thanks to its co-benefits, especially when incorporated at early stages of planning and design.
承认对城市径流所传递的污染进行建模的难度,本研究首次对这一弥散性污染源的负荷进行了泛欧量化。我们使用 Heaney 等人在 1976 年最初提出的简单事件平均浓度(EMC)模型,估算了五日生化需氧量(BOD)、氮(N)、磷(P)和总悬浮固体(TSS)的年负荷。在欧洲范围内,这相当于未处理污水的排放量约为 3100 万人口当量(PE)的 BOD,约 1850 万 PE 的 N 和 P,以及约 2.8 亿的 TSS。这分别占 BOD 处理污水污染的 51%、N 和 P 的 15%以及 TSS 的 461%。尽管用于评估的模型是在 40 多年前开发的,但除了低估 P 负荷的趋势外,结果与使用最近参数化方法获得的结果一致。尽管城市径流污染的数据缺乏使得模型验证成为不可能,并且 EMC 模型的不确定性众所周知非常高,但城市径流已经成为一个重要的污染源,应该得到妥善处理。通过改善蓄水来减少城市地区的径流量不仅是污染控制的关键,而且由于其共同效益,特别是在规划和设计的早期阶段纳入时,也是一个无需后悔的选择。
