Abstract

Although aquatic macroinvertebrates and freshwater fishes are important indicators for freshwater quality assessments, the morphological identification to species-level is often impossible and thus especially in many invertebrate taxa not mandatory during Water Framework Directive monitoring, a pragmatism that potentially leads to information loss. Here, we focus on the freshwater fauna of the River Sieg (Germany) to test congruence and additional value in taxa detection and taxonomic resolution of DNA barcoding vs. morphology-based identification in monitoring routines. Prior generated morphological identifications of juvenile fishes and aquatic macroinvertebrates were directly compared to species assignments using the identification engine of the Barcode of Life Data System. In 18% of the invertebrates morphology allowed only assignments to higher systematic entities, but DNA barcoding lead to species-level assignment. Dissimilarities between the two approaches occurred in 7% of the invertebrates and in 1% of the fishes. The 18 fish species were assigned to 20 molecular barcode index numbers, the 104 aquatic invertebrate taxa to 113 molecular entities. Although the cost-benefit analysis of both methods showed that DNA barcoding is still more expensive (5.30–8.60€ per sample) and time consuming (12.5h), the results emphasize the potential to increase taxonomic resolution and gain a more complete profile of biodiversity, especially in invertebrates. The provided reference DNA barcodes help building the foundation for metabarcoding approaches, which provide faster sample processing and more cost-efficient ecological status determination.

Highlights

  • Species richness in freshwater ecosystems is increasingly endangered by the consequences of climate change, environmental pollution, overexploitation, river fragmentation or flow regulation, and invasive species [1,2,3]

  • “poor”, whereas three locations (Pleisbachmundung, Aggermundung, Bergheim) were classified as “bad” and only one (Brolmundung) as “moderate”. It took the expert 7 hr and 47 min to identify 36 randomly chosen seine net fishing subsamples of 3164 individuals in total, resulting in 6.78 individuals per minute with a rough cost of 0.15€ per sample (Table 2). This application study aimed at evaluating potential advantages in taxa detection and taxonomic resolution when DNA barcoding supplements the identification process of stream monitoring routines

  • As in some aquatic invertebrate taxa even closely related species can vary substantially in their ecological tolerance and respond different to environmental disturbances, the consequence of this traditional approach is a potential information loss, which may result in inaccurate water quality evaluations [13,19,24]

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Summary

Introduction

Species richness in freshwater ecosystems is increasingly endangered by the consequences of climate change, environmental pollution, overexploitation, river fragmentation or flow regulation, and invasive species [1,2,3]. Adding DNA barcoding to stream monitoring protocols as well as the German Barcode of Life initiative (GBOL), generously supported by the German Federal Ministry of Education and Research (FKZ 01LI1101 B)

Results
Discussion
Conclusion

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