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Article

Optimising species detection probability and sampling effort in lake fish eDNA surveys

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Citation

Sellers GS, Jerde CL, Harper LR, Benucci M, Di Muri C, Li J, Peirson G, Walsh K, Hatton-Ellis T, Duncan W, Duguid A, Ottewell D, Willby N, Law A & Bean CW (2024) Optimising species detection probability and sampling effort in lake fish eDNA surveys. Metabarcoding and Metagenomics, 8, Art. No.: e104655. https://doi.org/10.3897/mbmg.8.104655

Abstract
Environmental DNA (eDNA) metabarcoding is transforming biodiversity monitoring in aquatic environments. Such an approach has been developed and deployed for monitoring lake fish communities in Great Britain, where the method has repeatedly shown a comparable or better performance than conventional approaches. Previous analyses indicated that 20 water samples per lake are sufficient to reliably estimate fish species richness, but it is unclear how reduced eDNA sampling effort affects richness, or other biodiversity estimates and metrics. As the number of samples strongly influences the cost of monitoring programmes, it is essential that sampling effort is optimised for a specific monitoring objective. The aim of this project was to explore the effect of reduced eDNA sampling effort on biodiversity metrics (namely species richness and community composition) using algorithmic and statistical resampling techniques of a data set from 101 lakes, covering a wide spectrum of lake types and ecological quality. The results showed that reliable estimation of lake fish species richness could, in fact, usually be achieved with a much lower number of samples. For example, in almost 90% of lakes, 95% of complete fish richness could be detected with only 10 water samples, regardless of lake area. Similarly, other measures of alpha and beta-diversity were not greatly affected by a reduction in sample size from 20 to 10 samples. We also found that there is no significant difference in detected species richness between shoreline and offshore sampling transects, allowing for simplified field logistics. This could potentially allow the effective sampling of a larger number of lakes within a given monitoring budget. However, rare species were more often missed with fewer samples, with potential implications for monitoring of invasive or endangered species. These results should inform the design of eDNA sampling strategies, so that these can be optimised to achieve specific monitoring goals.

Keywords
eDNA metabarcoding; meta-analysis; sampling effort; species detection

Notes
Additional authors: Ian J. Winfield, Daniel S. Read, Lori Lawson Handley, Bernd H?nfling

Journal
Metabarcoding and Metagenomics: Volume 8

StatusPublished
Funders
Publication date24/07/2024
Publication date online24/07/2024
Date accepted by journal18/04/2024
URL
PublisherPensoft Publishers
ISSN2534-9708
eISSN2534-9708

People (2)

Dr Alan Law

Dr Alan Law

Lecturer in Nature-Based Solutions, Biological and Environmental Sciences

Professor Nigel Willby

Professor Nigel Willby

Professor & Associate Dean of Research, Biological and Environmental Sciences

Projects (1)

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