Abstract
BackgroundWithin the genetic methods for estimating effective population size (Ne), the method based on linkage disequilibrium (LD) has advantages over other methods, although its accuracy when applied to populations with overlapping generations is a matter of controversy. It is also unclear the best way to account for mutation and sample size when this method is implemented. Here we have addressed the applicability of this method using genome-wide information when generations overlap by profiting from having available a complete and accurate pedigree from an experimental population of Iberian pigs. Precise pedigree-based estimates of Ne were considered as a baseline against which to compare LD-based estimates.MethodsWe assumed six different statistical models that varied in the adjustments made for mutation and sample size. The approach allowed us to determine the most suitable statistical model of adjustment when the LD method is used for species with overlapping generations. A novel approach used here was to treat different generations as replicates of the same population in order to assess the error of the LD-based Ne estimates.ResultsLD-based Ne estimates obtained by estimating the mutation parameter from the data and by correcting sample size using the 1/2n term were the closest to pedigree-based estimates. The Ne at the time of the foundation of the herd (26 generations ago) was 20.8 ± 3.7 (average and SD across replicates), while the pedigree-based estimate was 21. From that time on, this trend was in good agreement with that followed by pedigree-based Ne.ConclusionsOur results showed that when using genome-wide information, the LD method is accurate and broadly applicable to small populations even when generations overlap. This supports the use of the method for estimating Ne when pedigree information is unavailable in order to effectively monitor and manage populations and to early detect population declines. To our knowledge this is the first study using replicates of empirical data to evaluate the applicability of the LD method by comparing results with accurate pedigree-based estimates.Electronic supplementary materialThe online version of this article (doi:10.1186/s12864-015-2167-z) contains supplementary material, which is available to authorized users.
Highlights
Within the genetic methods for estimating effective population size (Ne), the method based on linkage disequilibrium (LD) has advantages over other methods, its accuracy when applied to populations with overlapping generations is a matter of controversy
In this study we have evaluated the applicability of the LD method when using genome-wide information for estimating Ne in an experimental population of Iberian pigs where generations overlap
This is in a context of conserved populations of small Ne for which genetic methods perform better because the signal is the largest [13]
Summary
Within the genetic methods for estimating effective population size (Ne), the method based on linkage disequilibrium (LD) has advantages over other methods, its accuracy when applied to populations with overlapping generations is a matter of controversy. It is unclear the best way to account for mutation and sample size when this method is implemented. The most widely used genetic method for estimating contemporary Ne has been the temporal method [4, 5] which is based on the temporal changes in allele frequencies for samples of the same population collected at (at least) two different points in time. The temporal method only gives estimates of Ne over the period between sample collections
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