Sewage exfiltration as a source of storm drain contamination during dry weather in urban watersheds

2011

Authors

• Bram Sercu University of California, Santa Barbara Bren School of Environmental Science & Management , University of California, Santa Barbara Earth Research Institute
• Laurie C. Van De Werfhorst University of California, Santa Barbara Bren School of Environmental Science & Management , University of California, Santa Barbara Earth Research Institute
• Jill L. S. Murray City of Santa Barbara
• Patricia A. Holden University of California, Santa Barbara Bren School of Environmental Science & Management , University of California, Santa Barbara Earth Research Institute

Point of Contact

• Patricia A. Holden University of California, Santa Barbara Bren School of Environmental Science & Management , University of California, Santa Barbara Earth Research Institute

Description

Separating storm drains and sanitary sewers is expected to control sewage pollution, for example, from combined sewer overflows, and to reduce excessive stormwater flow to wastewater treatment plants. However, sewage contamination has been found in such separated storm drain systems in urban areas during dry-weather flow. To determine whether transmission of sewage is occurring from leaking sanitary sewers directly to leaking separated storm drains, field experiments were performed in three watersheds in Santa Barbara, CA. Areas with high and low risks for sewage exfiltration into storm drains were identified, and rhodamine WT (RWT) dye pulses were added to the sanitary sewers. RWT was monitored in nearby storm drain manholes using optical probes set up for unattended continuous monitoring. Above-background RWT peaks were detected in storm drains in high-risk areas, and multiple locations of sewage contamination were found. Sewage contamination during the field studies was confirmed using the human-specific Bacteroidales HF183 and Methanobrevibacter smithii nifH DNA markers. This study is the first to provide direct evidence that leaking sanitary sewers can directly contaminate nearby leaking storm drains with untreated sewage during dry weather and suggests that chronic sanitary sewer leakage contributes to downstream fecal contamination of coastal beaches.

Environmental Science & Technology volume 45 pages 7151-7157

DOI : 10.1021/es200981k

Cited by chapter 6, and usgcrp-climate-human-health-assessment-2016. (reference: 235f4a57)