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W2898804093 abstract "Significance Organisms leave traces of DNA in their environment [environmental DNA (eDNA)], such as cells in mucus or feces. When extracted from water or soil, eDNA can be used to track the presence of a target species or the composition of entire communities. In rivers, eDNA dynamics are modulated by transport and decay. Here, we use hydrologically based models to reconstruct the upstream distribution and abundance of target species throughout a river network from eDNA measurements. We validate our method by estimating the catchment-wide biomass distribution of a sessile invertebrate and its parasite, causing disease in salmonids. This work unlocks the power of eDNA for monitoring biodiversity across broad geographies in a way hitherto unfeasible with traditional survey approaches." @default.
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W2898804093 date "2018-10-29" @default.
W2898804093 modified "2023-09-30" @default.
W2898804093 title "Estimating species distribution and abundance in river networks using environmental DNA" @default.
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W2898804093 doi "https://doi.org/10.1073/pnas.1813843115" @default.
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