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Combined Sewage Outflow

Key Findings

  • Combined Sewer Overflows (CSOs) prevent the flooding of buildings by backed up pipes during times of heavy rain. In many cities and towns, the sewage systems date back to the Victorian era. These combined pipes (carrying both rainwater and untreated sewage water) may become overwhelmed if rainfall has been high, and so are designed to overflow into rivers and other waterways (UK Government, 2020). While necessary to maintain the effective functioning of sewers, CSOs can have detrimental environmental effects. The input of harmful chemicals, bacteria, and sewage related debris pollutes river waters, beaches and oceans, posing a risk to both wildlife and human health (The Rivers Trust, 2024). 
  • Lacking monitoring infrastructure for these overflows leads many to go unnoticed, causing difficulties in tracking pollution levels of the country’s waterways. The situation is especially uncertain in Scotland: While 80% of CSOs in England and Wales are monitored, only 7% are monitored in Scotland (Gemmell, 2024). While 12,725 ‘spill events’ were recorded in Scotland in 2020 (MCS, 2021), limits to monitoring means this number is likely substantially higher. This uncertainty makes it difficult for beach users to know where and when waters are safe to swim in. 
  • Scottish Water (2024a) has published data on all their recorded overflow events over the last 5 years (2019-2023). This data includes not only CSOs, but also EOs and SSSOs. EOs (Emergency Overflows) are designated for “mechanical, technical or physical failure in the sewage network” (Clean Seas Team, 2023). Data on EOs is perhaps even more limited than CSOs: In England for example only 10% are monitored (Clean Seas Team, 2023). SSSOs (Settled Storm Sewage Overflows) are “A form of CSO that provides a level of treatment before discharge” (Scottish Water, 2024b), thus may be slightly less damaging than CSOs. 
  • Data from Scottish Water (2024a) demonstrates the following trends: Total overflow events since 2019 are on the increase (fig. 1) and are at their highest level of the five-year period. However, the total duration of all discharge is lower than the peak in 2020. 
  • CSO monitoring makes up the bulk of recording stations, with 53% of stations recording CSOs. CSOs (fig. 2) have been increasing in number since 2021, and sit at their highest level of the recorded period as of 2023. 
  • EOs (fig. 3) are by far the least recorded outflow type, and have decreased in frequency since 2020, although a small increase in frequency can be observed between 2022 to 2023.
  • Finally, SSSOs (fig. 4) appear to be the most commonly recorded of all overflow events, with over 8000 events in 2023 (compared to around 7000 CSO events). As a slightly more treated form of overflow, this is perhaps a positive thing in the circumstances. 
  • There is much debate over the cause of this increasing frequency of sewage overflows. Some argue the increase is necessary and inevitable, with increasing populations placing higher pressure on sewers, in addition to higher levels of rainfall due to climate change (SEPA, 2024). Others argue it is instead a product of insufficient investment in both sewage infrastructure and sewage monitoring, allowing companies to illegally exploit this blind spot to save money by dumping rather than treating their sewage (Usher, 2023). 
     

 

Fig. 1: Total Overflow Events

"Fig. 2: Combined Sewer Overflows

Fig. 3: Emergency Overflow

Fig. 4: Settled Storm Sewage Overflows

Notes

None

Linked Information Sheets

Perceived Health of, and Threats to the Marine Environment - Numbers of fishing vessels – Training - Employment 

Key sources of Information

Reviewed on/by

27/06/24 by Cathryn Lovie

23/06/24 by Ian Hay

Status

 First Draft (this is for demonstration only at this time and has not been reviewed) 

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Cover Photograph - David R. Green

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