Wahlund Effect Research Articles

Microsatellite loci analysis for the genetic variability and the parentage test of five dog breeds in South Korea

To investigate the population structure of five dog breeds in South Korea and to validate polymorphic microsatellite markers for the parentage test, microsatellite loci analyses were conducted for two Korean native dog breeds, Poongsan and Jindo, and three imported dog breeds, German Shepherd, Beagle and Greyhound. Overall genetic diversity was high across all dog breeds (expected heterozygosity range: 0.71 to 0.85), although breeds differed in deviations from Hardy-Weinberg equilibrium (HWE). Significant reduction of heterozygosity in the Poongsan and Greyhound breeds was caused by non-random mating and population substructure within these breeds (the Wahlund effects). The close relationship and high degree of genetic diversity for two Korean native dog breeds were substantial. The mean polymorphism information content value was highest in Jindos (0.82) and Poongsans (0.81), followed by Beagles (0.74), Greyhounds (0.72), and German Shepherds (0.66). Accumulated exclusion power values, as an indication of marker validity for parentage tests, were varied but very high across breeds, 0.9999 for Jindos, Poongsans, and Beagles, 0.9997 for Greyhounds, and 0.9995 for German Shepherds. Taken together, the microsatellite loci investigated in this study can serve as suitable markers for the parentage test and as individual identification to establish a reliable pedigree verification system of dog breeds in South Korea. This study also stresses that the population subdivision within breeds can become an important cause of deviation from HWE in dog breeds.

Patterns of genetic variation in isolated Danish populations of the endangered butterfly Euphydryas aurinia

In the present study, we report an investigation on molecular variation in the endangered univoltine butterfly Euphydryas aurinia (Rottemburg, 1775), a species heavily affected by habitat degradation and fragmentation in Denmark. Levels of genetic variation in extant populations were estimated using six variable number tandem repeat loci and were found to be low compared to other butterfly species with low migration rates. An analysis of genetic structure, based on both allele frequencies and genotype distributions, divided the entire sample into four distinct clusters. This was partially concordant with the a priori subdivision based on collection areas. An overall FST value of 0.16 (pairwise values ranging from 0.087–0.276) indicated restrictions of gene flow. Especially two populations had higher FST values than the others, suggesting their isolation, and showed signs of bottlenecks/founder events. One population deviated significantly from Hardy–Weinberg equilibrium, suggesting a possible Wahlund effect or the presence of null alleles. The results suggest habitat fragmentation, resulting in genetic drift and possibly inbreeding. Future management is therefore recommended to increase gene flow between the remaining populations while habitats are restored in order to increase carrying capacity.

Development and characterization of novel, polymorphic microsatellite markers for oat crown rust, Puccinia coronata

We report the development of 37 novel and polymorphic microsatellite markers for oat crown rust, Puccinia coronata f.sp. avenae. The allelic diversity ranged from two to 16 alleles per locus. Observed heterozygosity ranged from 0.000 to 0.971, and expected heterozygosity from 0.057 to 0.848. Thirteen of the loci were not in Hardy-Weinberg equilibrium, due to either the presence of null alleles, small sample size, or the effects of population subdivision (Wahlund's effect). All 37 primer pairs were tested with P. graminis and P. triticina showing that they are specific to P. coronata.

The fine-scale genetic structure of the two-spotted spider mite in a commercial greenhouse

The fine-scale genetic structure of Tetranychus urticae Koch was studied to estimate local gene flow within a rose tree habitat in a commercial greenhouse using seven microsatellite markers. Two beds of rose trees with different population densities were selected and 18 consecutive quadrats of 1.2 m length were sequentially established in each bed. Heterozygote deficiency was positive within quadrats, which was most likely a result of the Wahlund effect because the mites usually form small breeding colonies. Low population density and frequent inbreeding could also accelerate genetic differentiation among the breeding colonies. A short-range (2.4-3.6 m) positive autocorrelation and clear genetic cline among quadrat populations was detected within a bed. This suggests that gene flow was limited to a short range even if population density was substantially increased. Therefore, large-scale dispersal such as aerial dispersal contributed very little to gene flow in the greenhouse.

Inference of hazel grouse population structure using multilocus data: a landscape genetic approach

In conservation and management of species it is important to make inferences about gene flow, dispersal and population structure. In this study, we used 613 georeferenced tissue samples from hazel grouse (Bonasa bonasia) where each individual was genotyped at 12 microsatellite loci to make inference on population genetic structure, gene flow and dispersal in northern Sweden. Observed levels of genetic diversity suggest that Swedish hazel grouse do not suffer loss of genetic diversity compared with other grouse species. We found significant F(IS) (deviation from Hardy-Weinberg expectations) over the entire sample using jack-knifed estimators over loci, which is most likely explained by a Wahlund effect. With the use of spatial autocorrelation methods, we detected significant isolation by distance among individuals. Neighbourhood size was estimated in the order of 62-158 individuals corresponding to a dispersal distance of 950-1500 m. Using a spatial statistical model for landscape genetics to infer the number of populations and the spatial location of genetic discontinuities between these populations we found indications that Swedish hazel grouse are divided into a northern and a southern population. We could not find a sharp border between these two populations and none of the observed borders appeared to coincide with any potential geographical barriers.These results imply that gene flow appears somewhat unrestricted in the boreal taiga forests of northern Sweden and that the two populations of hazel grouse in Sweden may be explained by the post-glacial reinvasion history of the Scandinavian Peninsula.

Genetic diversity in fragmented populations of the critically endangered spider orchid Caladenia huegelii: implications for conservation

The Orchidaceae is characterised by a diverse range of life histories, reproductive strategies and geographic distribution, reflected in a variety of patterns in the population genetic structure of different species. In this study, the genetic diversity and structure was assessed within and among remnant populations of the critically endangered sexually deceptive orchid, Caladenia huegelii. This species has experienced severe recent habitat loss in a landscape marked by ancient patterns of population fragmentation within the Southwest Australian Floristic Region, a global biodiversity hotspot. Using seven polymorphic microsatellite loci, high levels of within-population diversity (mean alleles/locus = 6.73; mean HE = 0.690), weak genetic structuring among 13 remnant populations (FST = 0.047) and a consistent deficit of heterozygotes from Hardy–Weinberg expectation were found across all populations (mean FIS = 0.22). Positive inbreeding coefficients are most likely due to Wahlund effects and/or inbreeding effects from highly correlated paternity and typically low fruit set. Indirect estimates of gene flow (Nm = 5.09 using FST; Nm = 3.12 using the private alleles method) among populations reflects a historical capacity for gene flow through long distance pollen dispersal by sexually deceived wasp pollinators and/or long range dispersal of dust-like orchid seed. However, current levels of gene flow may be impacted by habitat destruction, fragmentation and reduced population size. A genetically divergent population was identified, which should be a high priority for conservation managers. Very weak genetic differentiation indicates that the movement and mixing of seeds from different populations for reintroduction programs should result in minimal negative genetic effects.

Allele frequencies distributions for 13 autosomal STR loci in 3 Black Carib (Garifuna) populations of the Honduran Caribbean coasts

Allele and genotype frequencies for 13 autosomal STR loci included in the Promega Powerplex 16 kit were assessed in 174 individuals from three Garifuna communities of the Caribbean coasts of Honduras (Central America). For the 13 loci the observed heterozygocity frequencies ranged from 0.571 for the D5S818 locus to 0.939 for the D18S51 locus, both in the Corozal population. Deviations from Hardy–Weinberg equilibrium, as well as pairs of loci in linkage disequilibrium (even after Bonferroni corrections of the level of statistical significance) and high F is values were observed. These “spurious” results are probably caused by population substructure (Wahlund effect within communities) and high endogamy.

Breeding structure in two field vole populations.

The breeding structure of the field vole (Microtus agrestis L.) was studied in two populations in the south of Sweden by the use of enzyme electrophoresis. The sampling sites were closely situated but sufficiently separated to make it unlikely for animals to move from one site to the other. The populations were Sampled in two different ways: from the first population, 62 animals were collected over a 17-month period, while at the other site 103 animals were captured within a time-span of less than two weeks. of 21 enzymes studied. 3 were informative about genetic variation at a single locus each (LDH, ME and PGM). The distribution of genotypes for the three polymorphic loci showed no significant deviation from the expected Hardy-Weinberg proportions in any of the populations. When the genotype proportions were calculated for different inbreeding coefficients, the most likely value for the inbreeding coefficient in these populations was well below 0.10. A high degree of inbreeding has earlier been reported to occur in the field vole, but in the present investigation no such evidence was found. Nor was there any variation in allele frequencies between the two populations, which—if present—could lead to a Wahlund effect under a less stringent sampling scheme.

Genetic structuring and migration patterns of Atlantic bigeye tuna, Thunnus obesus (Lowe, 1839).

BackgroundLarge pelagic fishes are generally thought to have little population genetic structuring based on their cosmopolitan distribution, large population sizes and high dispersal capacities. However, gene flow can be influenced by ecological (e.g. homing behaviour) and physical (e.g. present-day ocean currents, past changes in sea temperature and levels) factors. In this regard, Atlantic bigeye tuna shows an interesting genetic structuring pattern with two highly divergent mitochondrial clades (Clades I and II), which are assumed to have been originated during the last Pleistocene glacial maxima. We assess genetic structure patterns of Atlantic bigeye tuna at the nuclear level, and compare them with mitochondrial evidence.ResultsWe examined allele size variation of nine microsatellite loci in 380 individuals from the Gulf of Guinea, Canary, Azores, Canada, Indian Ocean, and Pacific Ocean. To investigate temporal stability of genetic structure, three Atlantic Ocean sites were re-sampled a second year. Hierarchical AMOVA tests, RST pairwise comparisons, isolation by distance (Mantel) tests, Bayesian clustering analyses, and coalescence-based migration rate inferences supported unrestricted gene flow within the Atlantic Ocean at the nuclear level, and therefore interbreeding between individuals belonging to both mitochondrial clades. Moreover, departures from HWE in several loci were inferred for the samples of Guinea, and attributed to a Wahlund effect supporting the role of this region as a spawning and nursery area. Our microsatellite data supported a single worldwide panmictic unit for bigeye tunas. Despite the strong Agulhas Current, immigration rates seem to be higher from the Atlantic Ocean into the Indo-Pacific Ocean, but the actual number of individuals moving per generation is relatively low compared to the large population sizes inhabiting each ocean basin.ConclusionLack of congruence between mt and nuclear evidences, which is also found in other species, most likely reflects past events of isolation and secondary contact. Given the inferred relatively low number of immigrants per generation around the Cape of Good Hope, the proportions of the mitochondrial clades in the different oceans may keep stable, and it seems plausible that the presence of individuals belonging to the mt Clade I in the Atlantic Ocean may be due to extensive migrations that predated the last glaciation.

Characterisation of genetic structure ofDicentrarchus labraxlarvae in two nurseries of the Gulf of Lions (NW Mediterranean)

Despite extensive knowledge of the genetic structure of sea bass (Dicentrarchus labrax) populations, no studies have investigated genetic structure within early life stages, or compared such structure between such stages and (sub)adults. Using nine newly developed microsatellite loci, we investigated patterns of genetic variation and relatedness among juveniles that settled in two NW Mediterranean nursery grounds in close geographical proximity. There was no evidence for differentiation among samples at settlement (θ = −0.0010), and no significant genetic relatedness. Nevertheless, significant departures from Hardy-Weinberg equilibrium were detected in each sample, which could not be attributed exclusively to the presence of null alleles and to Wahlund effect. These results are compared with and discussed in relation to the genetic structure of adults described in the same area 10 years ago.

Estructura genética en cinco especies de flebótomos (Lutzomyia spp.) de la serie townsendi, grupo verrucarum, en Colombia (Diptera: Prychodidae)

Sixteen isoenzyme patterns were analyzed for five Colombian Lutzomyia species. The average unbiased expected heterozygosity levels ranged from 0.098 (Lu. youngi) to 0.215 (Lu. torrvida). The five species samples, taken all the isoenzymes employed, were significantly deviated from the Hardy-Weinberg equilibrium by homozygous excess with classical as well as Markov chain exact tests. Possible causes: (1) Wahlund effect within populations due to subdivision and/or sampling. Endogamy could be discarded because these loci were affected by highly different levels of homozygous excess. (2) Null alleles could be not discarded, at least for some isoenzymes. The hierarchical Wright's F analysis showed high and significant values for each parameter. The average F(IT) value was 0.655 with a conspicous homozygous excess at a global level (all species taken together); the average F(IS) value was significantly positive (0.515) as well, with homozygous excess within each species. The genetic heterogeneity between the fives species was noteworthy (F(ST) 0.288), indicating clear genetic differentiation. The more related species pairs were Lu. longiflocosa-Lu. torvida (0.959) and Lu torvida-Lu. spinicrassa (0.960); while Lu. torvida-Lu. youngi (0.805) and Lu. quasitownsendi-Lu. youngi (0.796) were the most divergent (Nei's genetic identity matrix). UPGMA and Wagner algorithms showed that the most divergent species was Lu. youngi, whereas the most related were Lu. longiflocosa-Lu. torvida and Lu torvida-Lu. spinicrassa. A spatial autocorrelation analysis (Moran's I index) revealed a very weak, or inexistent spatial structure, which means that the speciation events between these species were independent from the geographic distances from where they currently live.

Variabilidad genética en géneros de ciervos neotropicales (Mammalia: Cervidae) según loci microsatelitales

Species conservation programs are highly based on analyses of population genetics. We compared eight Neotropical Cervidae (Mazama americana, M. gouzaoubira, M. rufina, Odocoileus virginianus, Hippocamelus antisensis, Pudu mephistopholes, Ozotoceros bezoarticus and Blastoceros dichotomus) and some European and Asian Cervidae (Cervus elaphus, C. nippon, Capreolus capreolus, C. pygargus and Dama dama). The European species C. elaphus was our standard for a high degree of genetic variability: we used a Scottish population originated in the mix of diverse Western European subspecies. On the contrary, Cervus nippon (a population from Scotland with a founder effect) was our standard for a depauperated population. The M. americana, M. gouzaoubira and O. virginianus samples had high diversity values close to our C. elaphus population (H = 0.64, 0.70 and 0.61, respectively), while M. rufina was very low, close to C. nippon. Several sample sets of Mazama and Odocoileus yielded a homozygote excess, probably due to the Wahlund (subdivison) effect. There was no evidence of recent bottleneck events.

Genetic structure of European sheep breeds

Large-scale evaluations of genetic diversity in domestic livestock populations are necessary so that region-specific conservation measures can be implemented. We performed the first such survey in European sheep by analysing 820 individuals from 29 geographically and phenotypically diverse breeds and a closely related wild species at 23 microsatellite loci. In contrast to most other domestic species, we found evidence of widespread heterozygote deficit within breeds, even after removing loci with potentially high frequency of null alleles. This is most likely due to subdivision among flocks (Wahlund effect) and use of a small number of rams for breeding. Levels of heterozygosity were slightly higher in southern than in northern breeds, consistent with declining diversity with distance from the Near Eastern centre of domestication. Our results highlight the importance of isolation in terms of both geography and management in augmenting genetic differentiation through genetic drift, with isolated northern European breeds showing the greatest divergence and hence being obvious targets for conservation. Finally, using a Bayesian cluster analysis, we uncovered evidence of admixture between breeds, which has important implications for breed management.

Genetic variation and population structuring in two brooding coral species (Siderastrea stellata and Siderastrea radians) from Brazil

Siderastrea stellata and S. radians are scleractinian coral species that present a remarkable overlap of diagnostic characteristics and sympatric distribution. Moreover, both are viviparous with similar reproductive strategies and with a gregarious larval behavior. Samples of both species from the Brazilian coast were analyzed using 18 isozymic loci to quantify their genetic variability and populational structure. Results confirmed species identity, high intrapopulational variability and revealed moderate genetic structuring among all samples (S. stellata: F (ST) = 0.070; S. radians: F (ST) = 0.092). Based on genotypic diversity analysis, there was evidence that local recruitment may have a minor role in the populations (mean, G ( o ):G ( e )= 1.00 +/- 0.0003 SD for S. stellata and 0.99 +/- 0.0023 SD for S. radians). Deviations towards heterozygote deficiencies found in both Siderastrea species could be explained by the Wahlund effect, since there was evidence that populations might be composed of colonies of different ages. In S. radians it is also likely that there is some inbreeding occurring in the studied populations. Despite the brooding pattern and the gregarious larval behavior, our data suggest the occurrence of gene flow along the Brazilian coast. This is the first study on population genetics of Brazilian reef corals.

Multilocus structure in thePinus contorta – Pinus banksianacomplex

Natural hybridization between lodgepole pine ( Pinus contorta Dougl. ex Loud.) and jack pine ( Pinus banksiana Lamb.) in western Canada provides a distinct opportunity to infer evolutionary and demographic determinants of nonrandom associations of the alleles at different loci occurring in this Pinus contorta – Pinus banksiana complex (PCBC). Here, we investigated multilocus associations among and within 40 PCBC populations sampled from central and northwestern Alberta, using 39 random amplified polymorphic DNA (RAPD) markers. For each of the 40 PCBC populations, we examined distributions of 741 pairs of linkage (gametic) disequilibria (LD) between the 39 RAPDs and measured the “average” multilocus associations using the summary statistics that allow for packaging of individual LD in each population. We then partitioned the variance of LD in the total population to assess the causes of multilocus population structure. The results showed that (i) LD were more prominent in hybrid populations than in parental populations; (ii) multilocus Wahlund effect was a much more important determinant of population structure than its single-locus counterpart, particularly in hybrid populations; and (iii) considerable mutlilocus associations across the populations within each taxa group was due to the presence of different multilocus haplotypes in different populations. Such results are best explained by the fact that PCBC populations are geographically and ecologically marginal and are produced at the balance between mixing of two distinct gene pools creating new recombinants and selection in favor of parental gametes, but against the recombinants.

Gene flow and genetic structure of Sicyopterus lagocephalus in the south-western Indian Ocean, assessed by intron-length polymorphism

Sicyopterus lagocephalus is the most abundant sicydiine (amphidromous gobiid) in the rivers of volcanic islands in the south-western Indian Ocean. The species occurs in the Mascarene (Mauritius and La Réunion) and Comoros islands (Anjouan, Mayotte, etc.) and the post-larvae supply an economically important fishery. Because of the scarcity of available ecological and biological data, a genetic survey has been undertaken at the scale of the south-western Indian Ocean using intron-length polymorphism. Samples from La Réunion, Mauritius and Mayotte were used to assess the population genetic structure within islands and between nearby and remote islands. No genetic divergences were observed in samples at these different geographical scales. A lower number of rare alleles were observed in Mayotte samples suggesting a slight effect of their peripheral geographical position. However, no recent bottleneck was evidenced for these populations. High temporal divergences have been demonstrated in La Réunion as in previous studies indicating a temporal Wahlund effect. In the light of these results, the dispersion abilities, the connectivity of populations and the metapopulation functioning are discussed in relation to the regional environmental factors (dispersal barriers, habitat colonization, cyclones, long distance dispersal).

Characterization of 11 microsatellite loci derived from genomic sequences of polychaete Capitella capitata complex

AbstractEleven microsatellite loci derived from the genomic sequence data of Capitella capitata were characterized using 30 samples. The observed number of alleles per locus ranged from four to 36. The levels of observed and expected heterozygosities for polymorphic loci were from 0.10 to 0.87 and from 0.37 to 0.98, averaging 0.52 and 0.77, respectively. Analyses of Hardy–Weinberg equilibrium and genotypic linkage disequilibrium suggest the possible presence of both null alleles and Wahlund effect. One of the 11 loci was difficult to amplify for genotyping. Therefore, the rest 10 loci are good molecular markers for population genetic analysis.

Spatial and temporal genetic homogeneity in the Arctic surfclam (Mactromeris polynyma)

Commercially harvested marine bivalve populations show a broad range of population-genetic patterns that may be driven by planktonic larval dispersal (gene flow) or by historical (genetic drift) and ecological processes (selection). We characterized microsatellite genetic variation among populations and year classes of the commercially harvested Arctic surfclam, Mactromeris polynyma, in order to test the relative significance of gene flow and drift on three spatial scales: within commercially harvested populations in the northwest Atlantic; among Atlantic populations; and between the Atlantic and Pacific oceans. We found small nonsignificant genetic subdivision among eight populations from the northwest Atlantic (FST = 0.002). All of these Atlantic populations were highly significantly differentiated from a northeast Pacific population (FST = 0.087); all populations showed high inbreeding coefficients (FIS = 0.432). We tested one likely source of heterozygote deficits by aging individual clams and exploring genetic variation among age classes within populations (a temporal Wahlund effect). Populations showed strikingly different patterns of age structure, but we found little differentiation among age classes. In one case, we were able to analyze genetic diversity between age classes older or younger than the advent of intensive commercial harvesting. The results generally suggest spatially broad and temporally persistent genetic homogeneity of these bivalves. We discuss the implications of the results for the biology and management of surfclam populations.

Isolation and characterization of microsatellite markers for Cedrela odorata L. (Meliaceae), a high value neotropical tree

We describe 9 primers for amplification of microsatellite loci for the Neotropical tree Cedrela odorata L. (Meliaceae). Loci were isolated from an enriched library derived from a single DNA sample from a tree in Costa Rica. Levels of polymorphism were determined using samples from a large progeny trial. Across loci, the number of alleles ranged from 14 to 30. Observed heterozygosity levels ranged from 0.61 to 0.88. No linkage disequilibria were detected although some departures from Hardy-Weinberg equilibrium (HWE) were found, probably due to a Wahlund effect.

Characteristics of 13 polymorphic microsatellite markers in the corn earworm, Helicoverpa zea (Lepidoptera: Noctuidae)

AbstractThirteen polymorphic microsatellite loci suitable for population genetic studies of Helicoverpa zea were discovered by screening partial genomic libraries enriched for microsatellite sequences. Insects collected (N = 96) in Stoneville, Mississippi were used to characterize these markers. The observed and effective number of alleles per locus ranged from two to nine (average 4.46) and from 1.07 to 2.45 (average 1.81), respectively. Fisher exact tests detected significant deviations from Hardy–Weinberg equilibrium at three loci, probably due to inbreeding, null alleles, or Wahlund's effect. Significant genotypic disequilibrium was not detected between any pair of loci.