Tracking Land-Based Nutrient and Bacteria Inputs to Tillamook Estuary, Oregon (USA).
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Tillamook Estuary, located in Oregon (USA), experiences water quality impairments including low oxygen levels and elevated fecal bacteria. Addressing these water quality issues is challenging due to the presence of multiple nutrient and bacteria sources including run-off from dairy operations, and human waste associated point source inputs and septic systems; hence methods are needed to track fecal and nutrient sources to the system. Water samples were collected monthly (Jul 2016 - May 2017) at 16 tributary sites, above and below potential anthropogenic pollution sources. Paired measurements were recorded for host-associated qPCR genetic markers targeting human, ruminant, cattle, canine, and avian fecal pollution sources. Samples were also analyzed for nutrients, E. coli and nitrate isotope. Elevated nitrate isotopic ratios suggest anthropogenic sourcing of nitrate, but do not discriminate between human and other animal pollution sources. In three rivers (Kilchis, Wilson and Trask), nitrate and E. coli levels increased with downstream distance as the watershed transitioned from forested to agricultural/developed land use. During the wet season, the counts of the ruminant marker were highly correlated with E. coli (r2 = 0.89) and nitrate isotope (r2 = 0.83). Nitrogen load contributions from SPARROW demonstrate that manure and fertilizer explain greater than 80% of the variation in ruminant markers, E. coli, and nitrate isotope. We demonstrate that additional discrimination of sources can be obtained by combining microbial source tracking, stable isotopes, and watershed models.