From Sources to Sea Otters: What Animals Can Teach Us About Water Quality and Fecal Pathogen Pollution
Abstract
Fecal pathogen pollution comes from diverse sources in coastal watersheds and may be transported overland during storm events and downstream via rivers to the ocean. Both point and non-point fecal sources contribute to pathogen pollution, with some sources related to humans and others coming from domestic animals or wildlife.4,7 The sea otter acts as a sentinel species in coastal ecosystems, serving as a "canary in a coal mine," for disturbances that may be subtle initially but which may ultimately impact individual animals, wildlife populations, and/or ecosystem health. Sea otters and a suite of marine and terrestrial animals were studied along the central California coast to highlight linkages and pathogen pollution issues related to microbes of public health importance. Over a two-year period, three linked studies were performed: 1) fecal samples and coastal surface waters were tested for fecal pathogens5-7; 2) surface waters were screened for microbial source tracking markers7; and 3) wetlands were studied as a locally relevant and sustainable Beneficial Management Practice (BMP) where water quality is improved by the filtration and cleaning of contaminated surface waters before their release to the ocean1,2. These studies help to characterize linkages at the land-sea interface and provide critical insights into long-term solutions for improving wildlife, public, and ecosystem health. Results from these studies provide insights into pathogen pollution relevant to a broad audience, illustrating how goals for interdisciplinary research and conservation can be interwoven among controlled laboratory studies, complementary fieldwork, and epidemiologic modeling efforts.3,8 Forming collaborative relationships with resource managers, stakeholders, and policy makers is critical to facilitate and optimize long-term change once useful interventions are identified. This interdisciplinary research is an example of the One Health concept in action in California, and shows how addressing key environmental problems across multiple disciplines can maximize contributions toward reducing pathogen pollution and associated health risks for people and animals, including those that live or recreate in coastal ecosystems.
Acknowledgements
This work was performed under the auspices of the Central Coast Long-term Environmental Assessment Network (CCLEAN), with funding provided by Grant #06-076-553 from the California State Water Board to the City of Watsonville, with additional support from the California Sea Grant Program.
* Presenting author
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