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Abstract
Real-time PCR amplifying mammalian and avian mitochondrial DNA (mtDNA) was developed
to characterize domestic and light industrial wastewater influent from two municipal
wastewater treatment facilities (WWTF) over a 24-week period. Influent samples were
assayed with species-specific primers and dual-labeled probes for human, bovine, swine,
dog, cat, Canada goose and white-tailed deer to detect and quantify eukaryotic mtDNA
contributors to local municipal wastewaters. Human (mean=9.6 x 10(4) copies/ml) and
dog (mean=5.3 x 10(2) copies/ml) mtDNA were detected in all 24 samples (12 samples/site).
Bovine and swine mtDNA were detected sporadically and at lower levels than human mtDNA,
means=3.0 x 10(4) and 9.5 x 10(2) copies/ml, respectively. Domestic cat, Canada goose
and white-tailed deer were detected only once in 24 samples. Mitochondrial DNA concentrations
were compared to other bacterial, chemical and spectrophotometric parameters. Human
mtDNA was positively correlated with ammonia concentration (P=0.01) and initial OD(600)
reading (P=0.02) at one WWTF. Bovine mtDNA was positively correlated with biological
oxygen demand (BOD) (P=0.02), final DNA concentration (P=0.03), initial and final
humic acid concentrations (P=0.01, P=0.01), and final OD(600) (P=0.03) at one WWTF
and total suspended solids (TSS) (P=0.04, P=0.09) at both facilities. Fecal coliforms
were not positively or negatively correlated with mtDNA concentrations of any species
assayed. For source tracking purposes, a combination of human (10(5) copies/ml) and
dog mtDNA signal (10(2) copies/ml) could be indicative of municipal domestic wastewater
contamination of environmental waters.