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Environmental DNA metabarcoding uncovers environmental correlates of fish communities in spatially heterogeneous freshwater habitats

Petr Blabolil, Lynsey R. Harper, Štěpánka Říčanová, Graham S. Sellers, Cristina Di Muri, Tomáš Jůza, Mojmír Vašek, Zuzana Sajdlová, Pavel Rychtecký, Petr Znachor, Josef Hejzlar, Jiří Peterka, Bernd Hänfling

2021Ecological Indicators63 citationsDOIOpen Access PDF

Abstract

Biomonitoring of complex heterogeneous environments is highly challenging. Fish in deep water bodies occupy different habitats, so a combination of survey methods has traditionally been used. Environmental DNA (eDNA) metabarcoding is a novel monitoring tool that can overcome spatial heterogeneity in a highly sensitive and entirely non-invasive manner. However, taxon detection probability is dependent on environmental variables. In this study, three reservoirs were sampled in two seasons using a spatiotemporally distributed sampling design covering major environmental gradients. In all sampling campaigns, 31 fish taxa were detected. Data reliability was supported by tight positive correlations between individual taxon scores derived from gillnet sampling and eDNA site occupancy. Analyses confirmed anticipated trends, such as the highest number of taxa in the largest water body, and more taxa in inflows and littoral regions compared to open water. The most important factors for fish distribution were temperature, water age and trophic status (expressed as total Chlorophyll a concentration) of water bodies. Taxon detection reflected ecological niches of individual species, e.g. warm water wels catfish (Silurus glanis) and cold water salmonids. This study provides further evidence that eDNA metabarcoding is a suitable alternative or complement to conventional fish sampling in reservoirs.

Topics & Concepts

Environmental DNATaxonBiologyEcologyHabitatSampling (signal processing)Littoral zoneEcological nicheTrophic levelDNA barcodingBiodiversityComputer visionFilter (signal processing)Computer scienceEnvironmental DNA in Biodiversity StudiesIdentification and Quantification in FoodMicrobial Community Ecology and Physiology
Environmental DNA metabarcoding uncovers environmental correlates of fish communities in spatially heterogeneous freshwater habitats | Litcius