@article{95a36e8d8dd04109838f78526a9e222b,
title = "Environmental DNA metabarcoding of lake fish communities reflects long-term data from established survey methods",
abstract = "Organisms continuously release DNA into their environments via shed cells, excreta, gametes and decaying material. Analysis of this {\textquoteleft}environmental DNA{\textquoteright} (eDNA) is revolutionizing biodiversity monitoring. eDNA outperforms many established survey methods for targeted detection of single species, but few studies have investigated how well eDNA reflects whole communities of organisms in natural environments. We investigated whether eDNA can recover accurate qualitative and quantitative information about fish communities in large lakes, by comparison to the most comprehensive long-term gill-net data set available in the UK. Seventy-eight 2L water samples were collected along depth profile transects, gill-net sites and from the shoreline in three large, deep lakes (Windermere, Bassenthwaite Lake and Derwent Water) in the English Lake District. Water samples were assayed by eDNA metabarcoding of the mitochondrial 12S and cytochrome b regions. Fourteen of the 16 species historically recorded in Windermere were detected using eDNA, compared to four species in the most recent gill-net survey, demonstrating eDNA is extremely sensitive for detecting species. A key question for biodiversity monitoring is whether eDNA can accurately estimate abundance. To test this, we used the number of sequence reads per species and the proportion of sampling sites in which a species was detected with eDNA (i.e. site occupancy) as proxies for abundance. eDNA abundance data consistently correlated with rank abundance estimates from established surveys. These results demonstrate that eDNA metabarcoding can describe fish communities in large lakes, both qualitatively and quantitatively, and has great potential as a complementary tool to established monitoring methods.",
keywords = "EC water framework directive, EDNA, Environmental DNA, Fish monitoring, Lakes, Lentic systems, Metabarcoding",
author = "Bernd H{\"a}nfling and Handley, {Lori Lawson} and Read, {Daniel S.} and Christoph Hahn and Jianlong Li and Paul Nichols and Blackman, {Rosetta C.} and Anna Oliver and Winfield, {Ian J.}",
note = "Funding Information: This work was funded by a UK Environment Agency contract (SC140018) awarded to BH, LLH, DR and IJW. We are particularly grateful to Drs Kerry Walsh and Graeme Peirson for initiating the study and for support throughout. We gratefully acknowledge the Freshwater Biological Association for providing access to their laboratory facilities and United Utilities for use of gill-netting data. Ben James and Janice Fletcher provided invaluable help during fieldwork, while Drs Tony Dejean, Ste-fano Mariani and Joachim Mergeay contributed to helpful discussions on eDNA approaches and Dave Lunt provided excellent advice on the bioinformatics analysis. We would like to thank Drs Holly Bik, Kristy Deiner and Cameron Turner for constructive criticism on the initial submission which helped to strengthen the manuscript. Funding Information: This work was funded by a UK Environment Agency contract (SC140018) awarded to BH, LLH, DR and IJW. We are particularly grateful to Drs Kerry Walsh and Graeme Peirson for initiating the study and for support throughout. We gratefully acknowledge the Freshwater Biological Association for providing access to their laboratory facilities and United Utilities for use of gill-netting data. Ben James and Janice Fletcher provided invaluable help during fieldwork, while Drs Tony Dejean, Stefano Mariani and Joachim Mergeay contributed to helpful discussions on eDNA approaches and Dave Lunt provided excellent advice on the bioinformatics analysis. We would like to thank Drs Holly Bik, Kristy Deiner and Cameron Turner for constructive criticism on the initial submission which helped to strengthen the manuscript. Publisher Copyright: {\textcopyright} 2016 John Wiley & Sons Ltd.",
year = "2016",
month = jul,
day = "1",
doi = "10.1111/mec.13660",
language = "English",
volume = "25",
pages = "3101--3119",
journal = "Molecular ecology",
issn = "0962-1083",
publisher = "WILEY Publications",
number = "13",
}