Nonsignificant isolation by distance implies limited dispersal

The occurrence of genetic differentiation among western Mediterranean Hediste diversicolor (Polychaeta: Nereididae) populations was assessed by allozyme electrophoresis on cellulose acetate. Seventeen loci were analysed in four populations. The level of the genetic variability was markedly low (mean HL range: 0.014–0.034), but comparable to that of other brackish water nereidids. The values of Nei genetic distance index (D) confirm the existence of genetic differentiation between the geographically isolated populations at Venice, Elba, Navicelli and Serchio D range: 0.128–0.356). However, the two samples from Serchio and Navicelli, ~15 km apart, were not genetically different (D=0·00005). The level of genetic differentiation in H. diversicolor populations followed the isolation-by-distance model. Reduced gene flow among H. diversicolor populations may be explained by its limited dispersal capacity and the eco-physiological barriers that occur between different brackish habitats.

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Application of a random walk model to geographic distributions of animal mitochondrial DNA variation.

Genetics ◽

10.1093/genetics/135.4.1209 ◽

1993 ◽

Vol 135 (4) ◽

pp. 1209-1220 ◽

Cited By ~ 3

Author(s):

J E Neigel ◽

J C Avise

Keyword(s):

Mitochondrial Dna ◽

Isolation By Distance ◽

Natural Populations ◽

Data Sets ◽

Long Distance ◽

Dna Variation ◽

Distance Model ◽

Limited Dispersal ◽

Geographic Distributions ◽

Lineage Structure

Abstract In rapidly evolving molecules, such as animal mitochondrial DNA, mutations that delineate specific lineages may not be dispersed at sufficient rates to attain an equilibrium between genetic drift and gene flow. Here we predict conditions that lead to nonequilibrium geographic distributions of mtDNA lineages, test the robustness of these predictions and examine mtDNA data sets for consistency with our model. Under a simple isolation by distance model, the variance of an mtDNA lineage's geographic distribution is expected be proportional to its age. Simulation results indicated that this relationship is fairly robust. Analysis of mtDNA data from natural populations revealed three qualitative distributional patterns: (1) significant departure of lineage structure from equilibrium geographic distributions, a pattern exhibited in three rodent species with limited dispersal; (2) nonsignificant departure from equilibrium expectations, exhibited by two avian and two marine fish species with potentials for relatively long-distance dispersal; and (3) a progression from nonequilibrium distributions for younger lineages to equilibrium distributions for older lineages, a condition displayed by one surveyed avian species. These results demonstrate the advantages of considering mutation and genealogy in the interpretation of mtDNA geographic variation.

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Phylogeography of two freshwater prawn species from far-northern Queensland

Marine and Freshwater Research ◽

10.1071/mf14124 ◽

2015 ◽

Vol 66 (3) ◽

pp. 256 ◽

Cited By ~ 8

Author(s):

Sofie J. Bernays ◽

Daniel J. Schmidt ◽

David A. Hurwood ◽

Jane M. Hughes

Keyword(s):

Isolation By Distance ◽

Distance Effect ◽

Mantel Test ◽

Freshwater Prawn ◽

Freshwater Species ◽

High Dispersal ◽

Hierarchy Model ◽

Limited Dispersal ◽

Dispersal Abilities ◽

Low Levels

The distribution of a freshwater species is often dependent on its ability to disperse within the riverine system. Species with high dispersal abilities tend to be widespread, whereas those with restricted dispersal tend to be geographically restricted and are usually given higher conservation priority. Population structure was compared between a widespread freshwater prawn species, Macrobrachium australiense, and a narrow-range endemic freshwater prawn, Macrobrachium koombooloomba. The distribution of M. australiense and M. koombooloomba did not overlap, although suggested historical river-boundary rearrangements indicate that there has been the potential for dispersal into neighbouring catchments. A fragment of the mtDNA CO1 gene was analysed and a Mantel test revealed a significant isolation by distance effect for both species. Significant overall FST values confirmed that both species exhibited low levels of dispersal, a prediction for populations inhabiting a fragmented upland environment. The level of structure in M. australiense is surprising for a widely distributed species. Not all M. australiense populations conformed to the stream-hierarchy model, with results being best explained by historical river realignment or cross-catchment dispersal. The fact that both species show limited dispersal highlights the importance of conservation in highland areas for both endemic and widely spread species.

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Microsatellite analyses of spatial genetic structure in darkblotched rockfish (Sebastes crameri): Is pooling samples safe?

Canadian Journal of Fisheries and Aquatic Sciences ◽

10.1139/f05-084 ◽

2005 ◽

Vol 62 (8) ◽

pp. 1874-1886 ◽

Cited By ~ 14

Author(s):

Daniel Gomez-Uchida ◽

Michael A Banks

Keyword(s):

Genetic Structure ◽

Isolation By Distance ◽

Spatial Genetic Structure ◽

Geographic Distance ◽

Original Data ◽

Dispersal Distance ◽

Data Set ◽

Limited Dispersal ◽

Composite Samples ◽

Microsatellite Analyses

By pooling or removing samples of small size, we investigated how results from microsatellite analyses of spatial genetic structure in darkblotched rockfish (Sebastes crameri) were affected. Genotypes from six and seven microsatellite loci from 1206 specimens collected offshore from Washington to California were employed in the analyses. Sample sizes varied greatly among locations (n = 11114). When adjacent samples of n < 25 were pooled using an absolute genetic distance (FST ≤ 0), the correlation between genetic and geographic distance found in the original data set increased nearly twofold, and overall FST (95% confidence interval) increased from 0.001 (0.0000.002) to 0.002 (0.0010.003). Removing samples where n < 25 gave a similar result, yet the correlation increase was smaller. Another pooling strategy based on similarity tests allowed larger sizes in composite samples (n > 100) and further increased the correlation, although this strategy did not raise overall FST. These results indicate that under genetic isolation by distance, excessive pooling might not enhance the overall genetic differentiation among populations. The regression slope in isolation by distance plots was robust throughout all treatments, and its value suggests limited dispersal distance on this species.

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Limited dispersal in mobile hunter–gatherer Baka Pygmies

Biology Letters ◽

10.1098/rsbl.2010.0192 ◽

2010 ◽

Vol 6 (6) ◽

pp. 858-861 ◽

Cited By ~ 14

Author(s):

Paul Verdu ◽

Raphaël Leblois ◽

Alain Froment ◽

Sylvain Théry ◽

Serge Bahuchet ◽

...

Keyword(s):

Population Genetics ◽

Genetic Markers ◽

Strong Correlation ◽

Isolation By Distance ◽

Central Africa ◽

Dispersal Behaviour ◽

Hunter Gatherers ◽

Limited Dispersal ◽

Geographical Distances

Hunter–gatherer Pygmies from Central Africa are described as being extremely mobile. Using neutral genetic markers and population genetics theory, we explored the dispersal behaviour of the Baka Pygmies from Cameroon, one of the largest Pygmy populations in Central Africa. We found a strong correlation between genetic and geographical distances: a pattern of isolation by distance arising from limited parent–offspring dispersal. Our study suggests that mobile hunter–gatherers do not necessarily disperse over wide geographical areas.

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Effect of landscape structure on genetic structure of the Lesser horseshoe bat (Rhinolophus hipposideros) in Britanny colonies

10.1101/2021.11.26.470144 ◽

2021 ◽

Author(s):

Alexandra Rodriguez ◽

Eric Petit

Keyword(s):

Forest Cover ◽

Isolation By Distance ◽

Genetic Distances ◽

Tree Cover ◽

Low Density ◽

Non Invasive ◽

Genetic Barriers ◽

Limited Dispersal ◽

Horseshoe Bat ◽

Euclidian Distances

Some species are difficult to observe and others, need to be not disturbed because of their vulnerability. In response to the difficulty of studying the dispersal behaviors of these species, some areas of biology have been combined in order to access the information despite practical limitations. Here we present the combination of several methodologies from landscape ecology to non-invasive population genetics that allow us to obtain important information on Rinolophus hipposideros, a vulnerable European bat. We genotyped 18 georeferrenced colonies in Brittany (France) from droppings collected in their refuges. We used 6 microsatellite markers in order to obtain the genetic distances between them. On the other hand we calculated Euclidian distances between the refuges occupied by these colonies and some ecological distances with the Pathmatrix module of ArcGis 3.2. We tested hypothesis about the difficulty of dispersal of the species in areas without forest cover or with a low density of hedges. Thanks to the Monmonier algorithm we could infer possible genetic barriers between the colonies and we could compare their location to the presence of landscape barriers (areas with little tree cover). We detected a pattern of isolation by distance that reveals limited dispersal capacities in the species but no pattern linked to ecological distances. We found that some of the neighboring colonies with greater genetic distances between them were located in areas with low density of hedges which could suggest an impact of this landscape element in their movements. Finer studies should allow us to conclude on the need or not of forest cover in the dispersal of this species.

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Isolation by Distance in Populations with Long-Range Dispersal

10.1101/2020.06.24.168211 ◽

2020 ◽

Author(s):

Tyler B. Smith ◽

Daniel B. Weissman

Keyword(s):

Long Range ◽

Short Range ◽

Isolation By Distance ◽

Close Relation ◽

Structured Populations ◽

Length Scale ◽

Spatially Structured Populations ◽

Slow Decay ◽

Quantitative Form ◽

Limited Dispersal

ABSTRACTLimited dispersal results in isolation by distance in spatially structured populations, in which individuals found further apart tend to be less related to each other. Models of populations undergoing short-range dispersal predict a close relation between the distance individuals disperse and the length scale over which two sampled individuals are likely to be closely related. In this work, we study the effect of long jumps on patterns of isolation by distance by replacing the typical short-range dispersal kernel with a long-range, power-law kernel. We find that incorporating long jumps leads to a slower decay of relatedness with distance, and that the quantitative form of this slow decay contains visible signatures of the underlying dispersal process.

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Deconstructing isolation-by-distance: The genomic consequences of limited dispersal

PLoS Genetics ◽

10.1371/journal.pgen.1006911 ◽

2017 ◽

Vol 13 (8) ◽

pp. e1006911 ◽

Cited By ~ 48

Author(s):

Stepfanie M. Aguillon ◽

John W. Fitzpatrick ◽

Reed Bowman ◽

Stephan J. Schoech ◽

Andrew G. Clark ◽

...

Keyword(s):

Isolation By Distance ◽

Limited Dispersal

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Isolation of Metrosideros (ʻOhiʻa) Taxa on Oʻahu Increases with Elevation and Extreme Environments

Journal of Heredity ◽

10.1093/jhered/esz069 ◽

2019 ◽

Vol 111 (1) ◽

pp. 103-118 ◽

Cited By ~ 3

Author(s):

Elizabeth A Stacy ◽

Tomoko Sakishima ◽

Heaven Tharp ◽

Neil Snow

Keyword(s):

Gene Flow ◽

Isolation By Distance ◽

Extreme Environments ◽

Common Garden ◽

Metrosideros Polymorpha ◽

Elevation Gradients ◽

Principal Role ◽

Generation Times ◽

Limited Dispersal ◽

Limited Gene Flow

Abstract Species radiations should be facilitated by short generation times and limited dispersal among discontinuous populations. Hawaii’s hyper-diverse, landscape-dominant tree, Metrosideros, is unique among the islands’ radiations for its massive populations that occur continuously over space and time within islands, its exceptional capacity for gene flow by both pollen and seed, and its extended life span (ca. >650 years). Metrosideros shows the greatest phenotypic and microsatellite DNA diversity on Oʻahu, where taxa occur in tight sympatry or parapatry in mesic and montane wet forest on 2 volcanoes. We document the nonrandom distributions of 12 taxa (including unnamed morphotypes) along elevation gradients, measure phenotypes of ~6-year-old common-garden plants of 8 taxa to verify heritability of phenotypes, and examine genotypes of 476 wild adults at 9 microsatellite loci to compare the strengths of isolation across taxa, volcanoes, and distance. All 8 taxa retained their diagnostic phenotypes in the common garden. Populations were isolated by taxon to a range of degrees (pairwise FST between taxa: 0.004–0.267), and there was no pattern of isolation by distance or by elevation; however, significant isolation between volcanoes was observed within monotypic species, suggesting limited gene flow between volcanoes. Among the infraspecific taxa of Metrosideros polymorpha, genetic diversity and isolation significantly decreased and increased, respectively, with elevation. Overall, 5 of the 6 most isolated taxa were associated with highest elevations or otherwise extreme environments. These findings suggest a principal role for selection in the origin and maintenance of the exceptional diversity that occurs within continuous Metrosideros stands on Oʻahu.

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