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Environmental DNA (eDNA) sampling strategies influence estimates of freshwater fish eDNA concentrations
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ABSTRACT
Quantifying in-situ environmental DNA (eDNA) concentrations is increasingly used to infer fish abundance and biomass in freshwater ecosystems. While various sampling strategies (i.e. the combination of sample collection, eDNA preservation and extraction protocols) have been proposed to collect eDNA, little efforts have been undertaken to evaluate how these different strategies affect taxon-specific eDNA recovery and the subsequent estimates of in-situ eDNA concentrations. In this study, we compared a point (i.e. eDNA collection from relatively small and spatially separated water samples filtered using low capacity filter units) and a spatially integrated sampling strategy (i.e. eDNA collected from spatially integrated larger water volumes filtered using high capacity filter units) in two natural lakes. Through quantitative analyses of total DNA, total fish eDNA and species-specific eDNA, we assessed the performance of both strategies to infer in-situ eDNA concentrations. Our results showed that the integrated strategy led to a reduced recovery of fish eDNA and a subsequent underestimation of in-situ eDNA concentrations compared to the point sampling strategy. While the exact mechanisms underlying this pattern require further investigation, our findings highlight the importance of carefully selecting sampling strategies according to study objectives.
Cold Spring Harbor Laboratory
Title: Environmental DNA (eDNA) sampling strategies influence estimates of freshwater fish eDNA concentrations
Description:
ABSTRACT
Quantifying in-situ environmental DNA (eDNA) concentrations is increasingly used to infer fish abundance and biomass in freshwater ecosystems.
While various sampling strategies (i.
e.
the combination of sample collection, eDNA preservation and extraction protocols) have been proposed to collect eDNA, little efforts have been undertaken to evaluate how these different strategies affect taxon-specific eDNA recovery and the subsequent estimates of in-situ eDNA concentrations.
In this study, we compared a point (i.
e.
eDNA collection from relatively small and spatially separated water samples filtered using low capacity filter units) and a spatially integrated sampling strategy (i.
e.
eDNA collected from spatially integrated larger water volumes filtered using high capacity filter units) in two natural lakes.
Through quantitative analyses of total DNA, total fish eDNA and species-specific eDNA, we assessed the performance of both strategies to infer in-situ eDNA concentrations.
Our results showed that the integrated strategy led to a reduced recovery of fish eDNA and a subsequent underestimation of in-situ eDNA concentrations compared to the point sampling strategy.
While the exact mechanisms underlying this pattern require further investigation, our findings highlight the importance of carefully selecting sampling strategies according to study objectives.
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