1. Watershed Assessment with Beach Microbial Source Tracking and Outcomes of Resulting Gull Management
- Author
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Steve Gruber, Kelly D. Goodwin, Andrea Crumpacker, and Mary Vondrak
- Subjects
0301 basic medicine ,Watershed ,030106 microbiology ,Indicator bacteria ,010501 environmental sciences ,01 natural sciences ,Bathing Beaches ,California ,03 medical and health sciences ,Charadriiformes ,Feces ,fluids and secretions ,Dogs ,Water Quality ,Environmental Chemistry ,Animals ,Humans ,Drainage ,Source tracking ,0105 earth and related environmental sciences ,Hydrology ,Pollutant ,General Chemistry ,Fecal coliform ,Total maximum daily load ,embryonic structures ,Environmental science ,Water quality ,Water Microbiology ,human activities ,Enterococcus ,Environmental Monitoring - Abstract
Total maximum daily load (TMDL) implementation at a southern California beach involved ultraviolet treatment of watershed drainage that provided97% reduction in fecal indicator bacteria (FIB) concentrations. However, this pollutant control measure did not provide sufficient improvement of beach water quality, prompting further assessment. Investigation included microbial source tracking (MST) for human, gull, and canine fecal sources, monitoring of enterococci and fecal coliform, and measurement of chemical and physical water quality parameters for samples collected from watershed, groundwater, and beach sites, including a beach scour pond and tidal creek. FIB variability remained poorly modeled in regression analysis. However, MST revealed correlations between FIB and gull source tracking markers, leading to recommendations to manage gulls as a pollutant source. Beach conditions were followed for three years after implementation of a best management practice (BMP) to abate gulls using a falconry program for the beach and an upland landfill. The gull abatement BMP was associated with improved beach water quality, and this appears to be the first report of falconry in the context of TMDL implementation. Overall, MST data enabled management action despite an inability to fully model FIB dynamics in the coupled watershed-beach system.
- Published
- 2016