Stormwater Runoff Quality from Different Surfaces in an Urban Catchment in Beijing, China

rebecca.killalea@canberra.edu.au on 02 Mar 2022
Back to citations

All evidence records currently entered in EcoEvidEx for this citation are shown below.
An evidence record consists of an association between two variables, plus information about the nature of that relationship, the study design by which it was observed, and environmental context.
Click on an evidence record below to view or edit the complete evidence record.
Click 'Add evidence' to add a new evidence record for this citation, or copy an existing evidence record by selecting that record then using the 'Duplicate evidence' option.

Author(s)
Yufen, R., Xiaoke, W., Zhiyun, O., Hua, Z., Xiaonan, D., & Hong, M.
Year
2008
Title
Stormwater Runoff Quality from Different Surfaces in an Urban Catchment in Beijing, China
Source
Water Environment Research
DOI
10.2175/106143008X276660
Volume
80
Issue
8
Pages
719-724
ISSN/ISBN
1061-4303
Abstract

Urban stormwater runoff quality, widely investigated around the world, has been monitored less in Beijing, China, which impedes the municipal government to use best management practices to protect surface water. In this study, rainwater and stormwater runoff samples from roofs, roads, and a lawn on the campus of the Research Center for Eco- Environmental Sciences (RCEES) (Beijing, China) and from a ring road, with heavy traffic, have been sampled and analyzed for 31 storm events from June 2004 to August 2005. Total suspended solids (TSS), chemical oxygen demand (COD), 5-day biochemical oxygen demand (BOD5), total nitrogen, and total phosphorus concentrations in rainwater and runoff ranged over 2 or more orders of magnitude, meaning that the highest concentration of a certain pollutant did not always occur in a certain kind of runoff. Runoff contained significantly higher concentrations of pollutants than rainwater. On the campus of RCEES, TSS and total phosphorus in runoff samples from the lawn and roads were significantly higher than those from roofs, while the COD, BOD5, and total nitrogen concentrations were not significantly different in runoff among surfaces. Compared with runoff from the roads on campus, runoff from the ring road contained more COD and total nitrogen, but less TSS, BOD5, and total phosphorus. All pollutants measured in runoff from roofs on campus and from the ring road showed a peak concentration in starting runoff, which then decreased sharply. The peak concentrations of COD, BOD5, total nitrogen, and total phosphorus in the roof runoff increased with the increase in time of the antecedent dry period. Thus, urban stormwater pollution control, especially for first-flush control, is of great importance for the full use of rainwater and prevention of water pollution.

Evidence

Cause Effect Response measure type Habitat Country Modified
Hydrology - surface flow (other) (Increase)
Duration of rain event
Water quality - nutrients (other) (Decrease)
Concentrations of Total nitrogen (TN) and Total phosphorus (TP) were found to be high at the start of rain events in the study and decreased sharply with increased duration of rain event.
F statistic/ratio Artificial China 02-Mar-2022
Land use/land cover - urban (Change)
Different surface types assessed - lawn, roads, roofs
Water quality - nutrients (nitrogen) (No change)
Total nitrogen (TN) was not significantly different in runoff from the different surface types.
F statistic/ratio Artificial China 02-Mar-2022
Land use/land cover - urban (Change)
Different surface types assessed - lawn, roads, roofs
Water quality - nutrients (phosphorus) (Change)
Total phosphorus (TP) in runoff from lawns and roads was significantly higher than in roof runoff.
F statistic/ratio Artificial China 02-Mar-2022
Land use/land cover - urban (Change)
Different surface types assessed - lawn, roads, roofs
Water quality - suspended material/sediment (Change)
TSS in runoff from lawns and roads was significantly higher than in roof runoff.
F statistic/ratio Artificial China 02-Mar-2022