Abstract
AbstractAssessing individual components of biodiversity, such as local or regional taxon richness, and differences in community composition is a long‐standing challenge in ecology. It is especially relevant in spatially structured and diverse ecosystems. Environmental DNA (eDNA) has been suggested as a novel technique to detect taxa and therefore may allow to accurately measure biodiversity. However, we do not yet fully understand the comparability of eDNA‐based assessments to classical morphological approaches. We assessed may‐, stone‐, and caddisfly genera with two contemporary methods, namely eDNA sampling followed by molecular identification and kicknet sampling followed by morphological identification. We sampled 61 sites distributed over a large river network, allowing a comparison of various diversity measures from the catchment to site levels and providing insights into how these measures relate to network properties. We extended our data with historical morphological records of total diversity at the catchment level. At the catchment scale, identification based on eDNA and kicknet samples detected similar proportions of the overall and cumulative historically documented richness (gamma diversity), 42% and 46%, respectively. We detected a good overlap (62%) between genera identified from eDNA and kicknet samples at the regional scale. At the local scale, we found highly congruent values of local taxon richness (alpha diversity) between eDNA and kicknet samples. Richness of eDNA was positively related to discharge, a descriptor of network position, while kicknet was not. Beta diversity, a measure of dissimilarity between sites, was comparable for the two contemporary methods and is driven by species replacement and not by nestedness. Although eDNA approaches are still in their infancy and optimization regarding sampling design and laboratory work is still needed, our results indicate that it can capture different components of diversity, proving its potential utility as a new tool for large sampling campaigns across hitherto understudied complete river catchments.
Highlights
Quantifying biodiversity accurately is a long‐standing challenge of pri‐ mary importance in ecology (Dornelas et al, 2013; Gotelli & Colwell, 2011; Whittaker, 1972)
Assessing individual components of biodiversity, such as local or regional taxon richness, and differences in community composition is a long‐standing challenge in ecology
As Environmental DNA (eDNA) is transported through the river network, we found a positive relationship between genus richness and discharge for eDNA (β = .537, t(58) = 2.848, p = .006) but not for kicknet (β = .073, t(58) = 0.495, p = .62); the adjusted R2 was relatively low
Summary
Quantifying biodiversity accurately is a long‐standing challenge of pri‐ mary importance in ecology (Dornelas et al, 2013; Gotelli & Colwell, 2011; Whittaker, 1972). We compared different measures of biodiversity of EPT sampled traditionally (i.e., by kicknet) or by eDNA, using a spatially structured approach that representatively covered a river network in a 740‐km catchment. We analyzed how these two different approaches capture the facets of biodiversity at the level of alpha (local site), beta (between sites), and gamma diversity (catchment level). To characterize the position of sites in the net‐ work, we extracted stream order, catchment area, and the mean annual discharge data for each site from existing databases (BAFU, 2013, 2014; Pfaundler & Schoenenberger, 2013)
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