2019
DOI: 10.1111/1755-0998.12989
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Detecting Wahlund effects together with amplification problems: Cryptic species, null alleles and short allele dominance in Glossina pallidipes populations from Tanzania

Abstract: Population genetics is a convenient tool to study the population biology of non‐model and hard to sample species. This is particularly true for parasites and vectors. Heterozygote deficits and/or linkage disequilibrium often occur in such studies and detecting the origin of those (Wahlund effect, reproductive system or amplification problems) is uneasy. We used new tools (correlation between the number of times a locus is found in significant linkage disequilibrium and its genetic diversity, correlations betwe… Show more

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Cited by 34 publications
(60 citation statements)
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References 82 publications
(133 reference statements)
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“…We used the software micro‐checker v. 2.2.3 (Van Oosterhout, Hutchinson, Wills, & Shipley, ) to assess the microsatellite data for the presence of null‐alleles, large allele dropout, and stutter peaks, as well as for typographic errors. We additionally conducted further assessment for the presence of null alleles following the recommendations of Manangwa et al (; see Appendix for details). The fstat v. 2.9.3.2 program (Goudet, ) was used to test for deviations from the Hardy–Weinberg Equilibrium (HWE) within populations and to estimate F ST between infected and uninfected populations, F ST and F IS over all loci and subpopulations and Nei's estimator of within‐population gene diversity ( H s; Nei, ).…”
Section: Methodsmentioning
confidence: 99%
“…We used the software micro‐checker v. 2.2.3 (Van Oosterhout, Hutchinson, Wills, & Shipley, ) to assess the microsatellite data for the presence of null‐alleles, large allele dropout, and stutter peaks, as well as for typographic errors. We additionally conducted further assessment for the presence of null alleles following the recommendations of Manangwa et al (; see Appendix for details). The fstat v. 2.9.3.2 program (Goudet, ) was used to test for deviations from the Hardy–Weinberg Equilibrium (HWE) within populations and to estimate F ST between infected and uninfected populations, F ST and F IS over all loci and subpopulations and Nei's estimator of within‐population gene diversity ( H s; Nei, ).…”
Section: Methodsmentioning
confidence: 99%
“…Nevertheless, MicroDrop did not entirely cure the data from SAD and stuttering, which does not advocate for the efficacy of the algorithm used in this software. As far as our I. scapularis data set is concerned, the cures proposed provided satisfactory results and additional useful tools to those already proposed in recently published papers on the detection and identification of causes of heterozygote deficits (Waples, 2015;De Meeûs, 2018b;Waples, 2018;Manangwa et al, 2019).…”
Section: Resultsmentioning
confidence: 71%
“…This test is more powerful than with F IS as was proposed earlier (Wattier et al, 1998;De Meeûs et al, 2004). If previous tests are not significant and if StrdErrFIS > StrdErrFST, then a Wahlund effect better explains the data (De Meeûs, 2018a), this is especially true in instances of significant LD (Manangwa et al, 2019). In these cases, a positive correlation between the number of times a locus is found in significant LD (NLD) and its total genetic diversity as measured by Nei's H T (Nei and Chesser, 1983) (Spearman's correlation above 0.1) suggests an admixture of individuals from several subpopulations of the same species but with an important degree of genetic differentiation between admixed subpopulations (i.e.…”
Section: Population Genetics Analysesmentioning
confidence: 96%
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