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Using Low Cost, In Situ Measurements of Optical Brighteners to Id…

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Using Low Cost, In Situ Measurements of Optical Brighteners to Identify Wastewater Inputs into a Suburban Stream

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Amazon
Area: 5888268 km2
Countries:
Brazil; Peru; Suriname; France; Colombia; Guyana; Bolivia; Venezuela; Ecuador
Cities:
Santa Cruz; Manaus; La Paz
PFAF ID:
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Major Basin:
Sub-basin:
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Water Quality Stress:
Sanitation Access Stress:
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Countries: United States of America
Basins: Mississippi (427)
Project SDGs:
Includes Sustainable Development Goals from the project and its locations.
Water Quality (SDG 6.3)
Integrated Water Resource Management (SDG 6.5)
Project Tags:
Includes tags from the project and its locations.
Domestic Wastewater
Groundwater
Progress to Date: Research objectives completed: Data collection and analysis.
Services Needed: No services needed/offered
Desired Partners: Academic Institution
Government
NGO / Civil Society
Language: English
Start & End Dates: Jun. 01, 2019  »  Oct. 01, 2020
Project Website: slu.edu/water
Additional Benefits: Better / more data on river basin conditions, Raised awareness of challenges among local authorities, Other
Beneficiaries: Ecosystems, Water utilities, Other utilities, Local communities / domestic users
Project Source: User
Profile Completion: 80%

Project Overview

Untreated wastewater entering the environment through leaking infrastructure, faulty septic systems, and sewer overflows threatens both human and aquatic health. Water managers need low cost field methods to detect wastewater contamination in real time to promptly employ mitigation strategies. While wastewater is traditionally detected in the environment using chemical or microbial tracers that allow it to be distinguished from natural water, these analyses are often expensi…

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Untreated wastewater entering the environment through leaking infrastructure, faulty septic systems, and sewer overflows threatens both human and aquatic health. Water managers need low cost field methods to detect wastewater contamination in real time to promptly employ mitigation strategies. While wastewater is traditionally detected in the environment using chemical or microbial tracers that allow it to be distinguished from natural water, these analyses are often expensive and performed in the lab. Optical brighteners, synthetic brightening compounds present in laundry detergents and paper products, are emerging as ideal tracers of wastewater because they can be quickly and inexpensively detected in the field. To test the utility of optical brighteners as standalone and in situ wastewater tracers, optical brightener levels were compared with traditional wastewater indicators (e.g., B, F-, E. coli, microbial source tracking) in a suburban watershed (Fishpot Creek near St. Louis, Missouri). Stream samples were collected monthly across the watershed (26 sites) and weekly from a single outlet site from June 2019 to October 2020 to understand the utility of optical brighteners as tracers. Three mixing models using our wastewater tracers assessed the wastewater fraction in streamflow across the basin. Optical brightener values in the watershed were 6.3 - 59.7 RFU for the monthly samples, while influent wastewater averaged 142.7 ± 56.5 RFU. A significant (α = 0.05), positive correlation between optical brighteners and E. coli existed, but a low r value of 0.3 for the correlation suggested other sources of E. coli to the watershed (e.g., wildlife, pet waste). Of the wastewater tracers we used, only optical brighteners had a significant, positive correlation with wastewater infrastructure density (r = 0.6), indicating their utility to detect wastewater. Our mixing models also showed a significant, positive correlation between the wastewater fraction and sewer pipe density at each site. While using optical brighteners as wastewater tracers has limitations (e.g., photodecay, organic matter interferences), we find that they are more robust tracers than traditional wastewater indicators. Thus, optical brighteners are a good screening tool for identifying wastewater contributions to the environment.

Project Benefits: Better / more data on river basin conditions, Raised awareness of challenges among local authorities, Other
Indirect or Direct Beneficiaries: Ecosystems, Water utilities, Other utilities, Local communities / domestic users

Partner Organizations


The Water Access, Technology, Environment and Resources (WATER) Institute is an interdisciplinary research Institute launched at Saint Louis University in June 2020 with the mission of advancing water innovation to serve humanity. The Institute brings together world-class researchers to solve … Learn More

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