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Water Quality Restoration for Coastal Subdivision Retention Ponds

Water Quality Restoration for Coastal Subdivision Retention Ponds. Lorimar Serrano Marie DeLorenzo College of Charleston, SC. Background Information. Storm water retention ponds Used as “Best Management Practices” (BMPs) in residential & commercial developments Control flooding

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Water Quality Restoration for Coastal Subdivision Retention Ponds

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  1. Water Quality Restoration for Coastal Subdivision Retention Ponds Lorimar Serrano Marie DeLorenzo College of Charleston, SC

  2. Background Information • Storm water retention ponds • Used as “Best Management Practices” (BMPs) in residential & commercial developments • Control flooding • Settle out contaminants • Aesthetic and recreational uses

  3. Why care about retention ponds? • Water quality problems in storm water ponds • Water eutrophication • algal blooms, algal toxins, water discoloration, bad odor • High contaminant concentrations • High fecal coliform bacteria levels

  4. Lake Edmonds • 11 acre fresh water lake • drainage area = 107 acres (300 homes) • Lake’s importance: • overflow into • Kushiwah Creek • aesthetic value • wildlife habitat • recreational boating • fishing • model for retention pond management

  5. Parameters Measured Water quality (DO, temp., pH, turbidity, salinity, conductivity) Nutrients (NH4+, NO2-, NO3-, PO43-) (mg/L) Chlorophyll a(µg/L) HABs (cells counts) Algal toxins (microcystin [µg/L]) Fecal coliform bacteria (CFU/100mL) & antibiotic resistance (E. coli) Pesticides [µg/L] Atrazine & 2,4-D (Herbicides) Chlorothalonil (Fungicide) Chlorpyrifos (Insecticide) Methodology

  6. SC DHEC Standards: Recreational uses Fecal Coliform Bacteria FCB conc. (CFU/100mL)

  7. Nutrient Levels EPA water quality standards for lakes

  8. Atrazine Levels Atrazine conc. (ug/L)

  9. 2,4-D Levels 2,4-D conc. (ug/L)

  10. Bloom density Anabaena sp. Density

  11. Bloom density Microcystis sp. Density

  12. 66.7% back !!! Residents Survey • A total of 45 residences in the Lake Edmonds Homeowners Association were surveyed regarding land use practices that may influence water quality • Including: pet waste management, pesticide applications, pond uses, and homeowner interest in the pond’s water quality.

  13. Survey Results • Pet Waste Management • 75% of dogs & cats were reported as being kept either outdoor or indoor/outdoor • Only 9% of homeowners pick up pet waste daily • Fertilizer Application • 29% of homeowners apply fertilizer to their lawns • 68% apply fertilizer 2 or more times per year • Pesticide Application • 73% of homeowners apply herbicides to their lawns • 83% apply insecticides to their lawns • 33% apply fungicides to their lawns • Majority of respondents make 2 or more applications of each pesticide class per year

  14. Survey Results (cont’d) • Lake uses • boating activities 73.68% • fishing activities 63.16% • Observed algal blooms 76.67% • Established vegetative buffer in lawns 10.71% • Willing to install buffer 68.96% • Willing to change practices 94.74%

  15. Conclusions • Water quality problems were detected in the model retention pond, Lake Edmonds: • high fecal coliform bacteria levels • high phosphate concentration • harmful algal bloom development • persistent herbicide concentration • Residential lawn care practices such as the use of fertilizers and pesticides are affecting the water quality of this retention pond. • Pet waste left on lawns may increase fecal coliform bacteria levels in the lake (runoff with rainfall).

  16. Recommendations • Some examples of the practices we recommend are: • Lawn care product recommendations • lower chemical and nutrient content products • organic and biodegradable products • use of the product as directed • Collection of pet waste from yard and deposit in trash • Grow plants on the edges between the yards and the retention pond (vegetative buffer installation) • Proper disposal of lawn clippings (avoid deposition into the pond)

  17. http://edisto.cofc.edu/~lserrano/

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