Local environmental conditions determine the footprint of municipal effluent in coastal waters: a case study in the Strait of Georgia, British Columbia

Local environmental conditions determine the footprint of municipal effluent in coastal waters: a case study in the Strait of Georgia, British Columbia

To predict the likely effects of management action on any point source discharge into the coastal ocean, it is essential to understand both the composition of the effluent and the environmental conditions in the receiving waters. We illustrate a broadly-applicable approach to evaluating the comprehe...

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Bibliographic Details
Published in:The Science of the total environment Vol. 508; pp. 228 - 239
Main Authors: Johannessen, Sophia C, Macdonald, Robie W, Burd, Brenda, van Roodselaar, Albert, Bertold, Stan
Format: Journal Article
Language:English
Published: Netherlands 01-03-2015
Subjects:
British Columbia
Budgets
Carbon
Contaminants
Discharge
Effluents
Environment
Environmental Monitoring
Eutrophication
Geologic Sediments - chemistry
Halogenated Diphenyl Ethers - analysis
Metals - analysis
Mining
Nitrogen - analysis
Polychlorinated Biphenyls - analysis
Regional
Straits
Waste Disposal, Fluid - statistics & numerical data
Waste water
Waste Water - chemistry
Waste Water - statistics & numerical data
Water Pollutants, Chemical - analysis
British Columbia
INE, North America, Georgia Strait
INE, Canada, British Columbia, Vancouver
Organic carbon
Oxygen
Nitrogen
Contaminants
Geochemical budgets
Municipal effluent
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Summary:To predict the likely effects of management action on any point source discharge into the coastal ocean, it is essential to understand both the composition of the effluent and the environmental conditions in the receiving waters. We illustrate a broadly-applicable approach to evaluating the comprehensive environmental footprint of a discharge, using regional geochemical budgets and nearfield monitoring. We take as a case study municipal effluent discharged into the Strait of Georgia (west coast of Canada), where there has been public controversy over the discharge of screened or primary-treated effluent directly into the ocean. Wastewater contributes ≤ 1% of the nitrogen, organic carbon and oxygen demand in the Strait and is unlikely to cause eutrophication, harmful algal blooms or hypoxia in this region. Metals (Hg, Pb, Cd) are controlled by natural cycles augmented by past mining and urbanization, with 0.3-5% of the flux contributed by wastewater. Wastewater contributes ~5% of PCBs but ≤ 60% of PBDEs and is likely also important for pharmaceuticals and personal care products. Effects of high organic flux on benthos are measurable in the immediate receiving environment. The availability of particle-active contaminants to enter the food chain depends on how long those contaminants remain in the sediment surface mixed layer before burial. Secondary treatment, slated for completion in Vancouver in 2030, will reduce fluxes of some contaminants, but will have negligible effect on regional budgets for organic carbon, nitrogen, oxygen, metals and PCBs. Removal of PBDEs from wastewater will affect regional budgets, depending on how the sludge is sequestered.
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ISSN:0048-9697
1879-1026
DOI:10.1016/j.scitotenv.2014.11.096