The K=2 conundrum

Janes, Jasmine; Miller, Joshua M; Dupuis, Julian R; Malenfant, Rene M; Gorrell, Jamieson C; Cullingham, Catherine I; Andrew, Rose

doi:10.1111/mec.14187

Author(s)

Janes, Jasmine

Miller, Joshua M

Dupuis, Julian R

Malenfant, Rene M

Gorrell, Jamieson C

Cullingham, Catherine I

Andrew, Rose

Publication Date

2017

Abstract

Assessments of population genetic structure have become an increasing focus as they can provide valuable insight into patterns of migration and gene flow. STRUCTURE, the most highly cited of several clustering-based methods, was developed to provide robust estimates without the need for populations to be determined a priori. STRUCTURE introduces the problem of selecting the optimal number of clusters, and as a result, the ΔK method was proposed to assist in the identification of the "true" number of clusters. In our review of 1,264 studies using STRUCTURE to explore population subdivision, studies that used ΔK were more likely to identify K = 2 (54%, 443/822) than studies that did not use ΔK (21%, 82/386). A troubling finding was that very few studies performed the hierarchical analysis recommended by the authors of both ΔK and STRUCTURE to fully explore population subdivision. Furthermore, extensions of earlier simulations indicate that, with a representative number of markers, ΔK frequently identifies K = 2 as the top level of hierarchical structure, even when more subpopulations are present. This review suggests that many studies may have been over- or underestimating population genetic structure; both scenarios have serious consequences, particularly with respect to conservation and management. We recommend publication standards for population structure results so that readers can assess the implications of the results given their own understanding of the species biology.

Citation

Molecular Ecology, 26(14), p. 3594-3602

ISSN

1365-294X

0962-1083

Link

https://hdl.handle.net/1959.11/22267

Language

en

Publisher

Wiley-Blackwell Publishing Ltd

Title

The K=2 conundrum

Type of document

Journal Article

Entity Type

Publication

Author(s)	Janes, Jasmine Miller, Joshua M Dupuis, Julian R Malenfant, Rene M Gorrell, Jamieson C Cullingham, Catherine I Andrew, Rose
Publication Date	2017
Abstract	Assessments of population genetic structure have become an increasing focus as they can provide valuable insight into patterns of migration and gene flow. STRUCTURE, the most highly cited of several clustering-based methods, was developed to provide robust estimates without the need for populations to be determined a priori. STRUCTURE introduces the problem of selecting the optimal number of clusters, and as a result, the ΔK method was proposed to assist in the identification of the "true" number of clusters. In our review of 1,264 studies using STRUCTURE to explore population subdivision, studies that used ΔK were more likely to identify K = 2 (54%, 443/822) than studies that did not use ΔK (21%, 82/386). A troubling finding was that very few studies performed the hierarchical analysis recommended by the authors of both ΔK and STRUCTURE to fully explore population subdivision. Furthermore, extensions of earlier simulations indicate that, with a representative number of markers, ΔK frequently identifies K = 2 as the top level of hierarchical structure, even when more subpopulations are present. This review suggests that many studies may have been over- or underestimating population genetic structure; both scenarios have serious consequences, particularly with respect to conservation and management. We recommend publication standards for population structure results so that readers can assess the implications of the results given their own understanding of the species biology.
Citation	Molecular Ecology, 26(14), p. 3594-3602
ISSN	1365-294X 0962-1083
Link	https://hdl.handle.net/1959.11/22267
Language	en
Publisher	Wiley-Blackwell Publishing Ltd
Title	The K=2 conundrum
Type of document	Journal Article
Entity Type	Publication

The K=2 conundrum

Files: