Population‐level inferences from environmental DNA—Current status and future perspectives

Autor:	Eva Egelyng Sigsgaard, Peter Rask Møller, Philip Francis Thomsen, Mads Reinholdt Jensen, Inger Eleanor Winkelmann, Michael Møller Hansen
Rok vydání:	2019
Předmět:	0106 biological sciences 0301 basic medicine population genomics Population level Population lcsh:Evolution noninvasive sampling Population genetics Biology 010603 evolutionary biology 01 natural sciences DNA sequencing Population genomics 03 medical and health sciences lcsh:QH359-425 Genetics Applied research Environmental DNA education Ecology Evolution Behavior and Systematics Statistical software education.field_of_study high‐throughput sequencing high-throughput sequencing aquatic environmental DNA 030104 developmental biology Evolutionary biology General Agricultural and Biological Sciences Reviews and Syntheses
Zdroj:	Evolutionary Applications Evolutionary Applications, Vol 13, Iss 2, Pp 245-262 (2020) Sigsgaard, E E, Jensen, M K R, Winkelmann, I E, Møller, P R, Hansen, M M & Thomsen, P F 2020, ' Population-level inferences from environmental DNA – current status and future perspectives ', Evolutionary Applications (Online), vol. 13, no. 2 . https://doi.org/10.1111/eva.12882 Sigsgaard, E E, Jensen, M R, Winkelmann, I E, Møller, P R, Hansen, M M & Thomsen, P F 2020, ' Population-level inferences from environmental DNA-Current status and future perspectives ', Evolutionary Applications, vol. 13, no. 2, pp. 245–262 . https://doi.org/10.1111/eva.12882
ISSN:	1752-4571
Popis:	Environmental DNA (eDNA) extracted from water samples has recently shown potential as a valuable source of population genetic information for aquatic macroorganisms. This approach offers several potential advantages compared with conventional tissue‐based methods, including the fact that eDNA sampling is noninvasive and generally more cost‐efficient. Currently, eDNA approaches have been limited to single‐marker studies of mitochondrial DNA (mtDNA), and the relationship between eDNA haplotype composition and true haplotype composition still needs to be thoroughly verified. This will require testing of bioinformatic and statistical software to correct for erroneous sequences, as well as biases and random variation in relative sequence abundances. However, eDNA‐based population genetic methods have far‐reaching potential for both basic and applied research. In this paper, we present a brief overview of the achievements of eDNA‐based population genetics to date, and outline the prospects for future developments in the field, including the estimation of nuclear DNA (nuDNA) variation and epigenetic information. We discuss the challenges associated with eDNA samples as opposed to those of individual tissue samples and assess whether eDNA might offer additional types of information unobtainable with tissue samples. Lastly, we provide recommendations for determining whether an eDNA approach would be a useful and suitable choice in different research settings. We limit our discussion largely to contemporary aquatic systems, but the advantages, challenges, and perspectives can to a large degree be generalized to eDNA studies with a different spatial and temporal focus.
Databáze:	OpenAIRE
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