Detection of reduction in population size using data from microsatellite loci

Garza, John Carlos; Williamson, E. G.

doi:10.1046/j.1365-294x.2001.01190.x

Cited by 1,444 publications

(2,276 citation statements)

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“…Two‐tailed Wilcoxon signed rank test was used for determining the significance of the observed deviations. Less recent bottlenecks (up to a few hundred generations ago) were tested with Garza and Williamson's (2001) “ m‐ ratio test” in software M_P_Val. The values of m was computed as the ratio of the number of alleles ( k ) over their range in fragment sizes ( r ), which is predicted to decline in a bottleneck because the number of alleles should decrease faster than the range in fragment sizes.…”

Section: Methodsmentioning

confidence: 99%

“…The significance of m was determined by comparison with critical values ( M c), calculated from hypothetical populations in mutation‐drift equilibrium using the program Critical_M with 10,000 simulation replicates. We used a microsatellite “two‐phase mutation model” with an average size of multistep mutations Δ g = 3.5, assuming 90% stepwise mutations ( P s ), as recommended by Garza and Williamson (2001). We set θ = 5 or 10 (being θ = 4 Ne μ , where Ne is the effective population size and μ is the mutation rate) to evaluate the sensitivity of the method to this parameter.…”

Section: Methodsmentioning

confidence: 99%

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European wildcat populations are subdivided into five main biogeographic groups: consequences of Pleistocene climate changes or recent anthropogenic fragmentation?

Mattucci

Oliveira

Lyons

et al. 2015

Ecology and Evolution

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Extant populations of the European wildcat are fragmented across the continent, the likely consequence of recent extirpations due to habitat loss and over‐hunting. However, their underlying phylogeographic history has never been reconstructed. For testing the hypothesis that the European wildcat survived the Ice Age fragmented in Mediterranean refuges, we assayed the genetic variation at 31 microsatellites in 668 presumptive European wildcats sampled in 15 European countries. Moreover, to evaluate the extent of subspecies/population divergence and identify eventual wild × domestic cat hybrids, we genotyped 26 African wildcats from Sardinia and North Africa and 294 random‐bred domestic cats. Results of multivariate analyses and Bayesian clustering confirmed that the European wild and the domestic cats (plus the African wildcats) belong to two well‐differentiated clusters (average Ф ST = 0.159, rst = 0.392, P > 0.001; Analysis of molecular variance [AMOVA]). We identified from c. 5% to 10% cryptic hybrids in southern and central European populations. In contrast, wild‐living cats in Hungary and Scotland showed deep signatures of genetic admixture and introgression with domestic cats. The European wildcats are subdivided into five main genetic clusters (average Ф ST = 0.103, rst = 0.143, P > 0.001; AMOVA) corresponding to five biogeographic groups, respectively, distributed in the Iberian Peninsula, central Europe, central Germany, Italian Peninsula and the island of Sicily, and in north‐eastern Italy and northern Balkan regions (Dinaric Alps). Approximate Bayesian Computation simulations supported late Pleistocene–early Holocene population splittings (from c. 60 k to 10 k years ago), contemporary to the last Ice Age climatic changes. These results provide evidences for wildcat Mediterranean refuges in southwestern Europe, but the evolution history of eastern wildcat populations remains to be clarified. Historical genetic subdivisions suggest conservation strategies aimed at enhancing gene flow through the restoration of ecological corridors within each biogeographic units. Concomitantly, the risk of hybridization with free‐ranging domestic cats along corridor edges should be carefully monitored.

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Section: Methodsmentioning

confidence: 99%

Section: Methodsmentioning

confidence: 99%

European wildcat populations are subdivided into five main biogeographic groups: consequences of Pleistocene climate changes or recent anthropogenic fragmentation?

Mattucci

Oliveira

Lyons

et al. 2015

Ecology and Evolution

View full text Add to dashboard Cite

show abstract

“…The reference table was built with a total of 4 000 000 simulated data points, equally distributed among scenario: 998 670 for Scenario 1, 1 002 348 for Scenario 2, 999 200 for Scenario 3, and 999 782 for Scenario 4. We used mean genetic diversity (Nei 1987), mean allele size variance and mean GarzaeWilliamson's M (Garza & Williamson 2001) as sample statistics to estimate scenario probability, parameter confidence interval, and parameter bias and error as well as to assess confidence in scenario choice. These parameters were chosen because our simulations were based on a single population.…”

Section: Demographic History Of Ganoderma Boninense In Southeast Asiamentioning

confidence: 99%

About Ganoderma boninense in oil palm plantations of Sumatra and peninsular Malaysia: Ancient population expansion, extensive gene flow and large scale dispersion ability

et al. 2017

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“…This was accomplished by simulating 100,000 data sets and comparing summary statistics for both simulated single‐sample (i.e., mean number of alleles, genetic diversity and allele size variance across loci) and two‐sample statistics (i.e., mean genetic diversity, number of alleles, allele size variance, mean index of classification, shared allele distance, distance between samples and F ST ) to the observed data (Cornuet et al., 2014). As the mean M index across loci (Garza & Williamson, 2001) was initially developed with conservation planning in mind, this statistic does not perform well with small, unequal sampling sizes and small starting population sizes (Garza & Williamson, 2001). Hence, it was excluded from the summary statistics used in the current analyses.…”

Section: Methodsmentioning

confidence: 99%

The ghost of introduction past: Spatial and temporal variability in the genetic diversity of invasive smallmouth bass

Diedericks

Henriques

Heyden

et al. 2018

Evolutionary Applications

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Understanding the demographic history of introduced populations is essential for unravelling their invasive potential and adaptability to a novel environment. To this end, levels of genetic diversity within the native and invasive range of a species are often compared. Most studies, however, focus solely on contemporary samples, relying heavily on the premise that the historic population structure within the native range has been maintained over time. Here, we assess this assumption by conducting a three‐way comparison of the genetic diversity of native (historic and contemporary) and invasive (contemporary) smallmouth bass (Micropterus dolomieu) populations. Analyses of a total of 572 M. dolomieu samples, representing the contemporary invasive South African range, contemporary and historical native USA range (dating back to the 1930s when these fish were first introduced into South Africa), revealed that the historical native range had higher genetic diversity levels when compared to both contemporary native and invasive ranges. These results suggest that both contemporary populations experienced a recent genetic bottleneck. Furthermore, the invasive range displayed significant population structure, whereas both historical and contemporary native US populations revealed higher levels of admixture. Comparison of contemporary and historical samples showed both a historic introduction of M. dolomieu and a more recent introduction, thereby demonstrating that undocumented introductions of this species have occurred. Although multiple introductions might have contributed to the high levels of genetic diversity in the invaded range, we discuss alternative factors that may have been responsible for the elevated levels of genetic diversity and highlight the importance of incorporating historic specimens into demographic analyses.

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Detection of reduction in population size using data from microsatellite loci

Cited by 1,444 publications

References 45 publications

European wildcat populations are subdivided into five main biogeographic groups: consequences of Pleistocene climate changes or recent anthropogenic fragmentation?

European wildcat populations are subdivided into five main biogeographic groups: consequences of Pleistocene climate changes or recent anthropogenic fragmentation?

About Ganoderma boninense in oil palm plantations of Sumatra and peninsular Malaysia: Ancient population expansion, extensive gene flow and large scale dispersion ability

The ghost of introduction past: Spatial and temporal variability in the genetic diversity of invasive smallmouth bass

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