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Population Genetics Studies (population + genetics_studies)

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Life Sciences100%

Selected Abstracts

Representing genetic variation as continuous surfaces: an approach for identifying spatial dependency in landscape genetic studies

ECOGRAPHY, Issue 6 2008
Melanie A. Murphy
Landscape genetics, an emerging field integrating landscape ecology and population genetics, has great potential to influence our understanding of habitat connectivity and distribution of organisms. Whereas typical population genetics studies summarize gene flow as pairwise measures between sampling localities, landscape characteristics that influence population genetic connectivity are often continuously distributed in space. Thus, there are currently gaps in both the ability to analyze genotypic data in a continuous spatial context and our knowledge of expected of landscape genetic structure under varying conditions. We present a framework for generating continuous "genetic surfaces", evaluate their statistical properties, and quantify statistical behavior of landscape genetic structure in a simple landscape. We simulated microsatellite genotypes under varying parameters (time since vicariance, migration, effective population size) and used ancestry (q) values from STRUCTURE to interpolate a genetic surface. Using a spatially adjusted Pearson's correlation coefficient to test the significance of landscape variable(s) on genetic structure we were able to detect landscape genetic structure on a contemporary time scale (,5 generations post vicariance, migration probability ,0.10) even when population differentiation was minimal (FST,0.00015). We show that genetic variation can be significantly correlated with geographic distance even when genetic structure is due to landscape variable(s), demonstrating the importance of testing landscape influence on genetic structure. Finally, we apply genetic surfacing to analyze an empirical dataset of black bears from northern Idaho USA. We find black bear genetic variation is a function of distance (autocorrelation) and habitat patch (spatial dependency), consistent with previous results indicating genetic variation was influenced by landscape by resistance. These results suggest genetic surfaces can be used to test competing hypotheses of the influence of landscape characteristics on genetic structure without delineation of categorical groups. [source]

Taking the chaos out of genetic patchiness: seascape genetics reveals ecological and oceanographic drivers of genetic patterns in three temperate reef species

MOLECULAR ECOLOGY, Issue 17 2010
KIMBERLY A. SELKOE
Abstract Marine species frequently show weak and/or complex genetic structuring that is commonly dismissed as ,chaotic' genetic patchiness and ecologically uninformative. Here, using three datasets that individually feature weak chaotic patchiness, we demonstrate that combining inferences across species and incorporating environmental data can greatly improve the predictive value of marine population genetics studies on small spatial scales. Significant correlations in genetic patterns of microsatellite markers among three species, kelp bass Paralabrax clathratus, Kellet's whelk Kelletia kelletii and California spiny lobster Panulirus interruptus, in the Southern California Bight suggest that slight differences in diversity and pairwise differentiation across sampling sites are not simply noise or chaotic patchiness, but are ecologically meaningful. To test whether interspecies correlations potentially result from shared environmental drivers of genetic patterns, we assembled data on kelp bed size, sea surface temperature and estimates of site-to-site migration probability derived from a high resolution multi-year ocean circulation model. These data served as predictor variables in linear models of genetic diversity and linear mixed models of genetic differentiation that were assessed with information,theoretic model selection. Kelp was the most informative predictor of genetics for all three species, but ocean circulation also played a minor role for kelp bass. The shared patterns suggest a single spatial marine management strategy may effectively protect genetic diversity of multiple species. This study demonstrates the power of environmental and ecological data to shed light on weak genetic patterns and highlights the need for future focus on a mechanistic understanding of the links between oceanography, ecology and genetic structure. [source]

How to track and assess genotyping errors in population genetics studies

MOLECULAR ECOLOGY, Issue 11 2004
A. BONIN
Abstract Genotyping errors occur when the genotype determined after molecular analysis does not correspond to the real genotype of the individual under consideration. Virtually every genetic data set includes some erroneous genotypes, but genotyping errors remain a taboo subject in population genetics, even though they might greatly bias the final conclusions, especially for studies based on individual identification. Here, we consider four case studies representing a large variety of population genetics investigations differing in their sampling strategies (noninvasive or traditional), in the type of organism studied (plant or animal) and the molecular markers used [microsatellites or amplified fragment length polymorphisms (AFLPs)]. In these data sets, the estimated genotyping error rate ranges from 0.8% for microsatellite loci from bear tissues to 2.6% for AFLP loci from dwarf birch leaves. Main sources of errors were allelic dropouts for microsatellites and differences in peak intensities for AFLPs, but in both cases human factors were non-negligible error generators. Therefore, tracking genotyping errors and identifying their causes are necessary to clean up the data sets and validate the final results according to the precision required. In addition, we propose the outline of a protocol designed to limit and quantify genotyping errors at each step of the genotyping process. In particular, we recommend (i) several efficient precautions to prevent contaminations and technical artefacts; (ii) systematic use of blind samples and automation; (iii) experience and rigor for laboratory work and scoring; and (iv) systematic reporting of the error rate in population genetics studies. [source]

Identification and characterization of 18 novel polymorphic microsatellite makers derived from expressed sequence tags in the Pacific oyster Crassostrea gigas

MOLECULAR ECOLOGY RESOURCES, Issue 3 2009
C. SAUVAGE
Abstract We report the development of 18 new polymorphic microsatellite DNA markers derived from Crassostrea gigas expressed sequences tags. Genotyping of 48 wild adult oysters sampled from Marennes-Oléron bay (France) revealed 12 to 48 alleles per locus. Observed and expected heterozygosity levels ranged from 0.64 to 1 and from 0.77 to 0.97, respectively. The development of these new markers creates a useful complementary tool for population genetics studies, parentage analysis and mapping in Pacific oyster, a species of major aquacultural and ecological importance. [source]

Characterization of 10 microsatellite loci in an avian louse, Degeeriella regalis (Phthiraptera: Ischnocera: Philopteridae)

MOLECULAR ECOLOGY RESOURCES, Issue 3 2009
MAUREEN B. PETERS
Abstract We isolated and characterized 10 polymorphic microsatellite loci in an ischnoceran louse, Degeeriella regalis, which parasitizes the threatened Galápagos hawk (Buteo galapagoensis) and other falconiform birds. The loci were screened across 30 individuals from two island populations in the Galápagos Islands. The number of alleles per locus ranged from two to 28. Polymorphic information content ranged from 0.14 to 0.94 and observed heterozygosity ranged from 0 to 0.67. These markers will be valuable in comparative population genetics studies in this species, which is the focus of a long-term population and disease ecology research program. [source]

Isolation and characterization of eight polymorphic microsatellite loci for the endangered, endemic Chilean tree Gomortega keule (Gomortegaceae)

MOLECULAR ECOLOGY RESOURCES, Issue 6 2007
T. A. LANDER
Abstract Queule (Gomortega keule) is an endangered, Chilean tree in the endemic, monotypic family Gomortegaceae. Eight polymorphic microsatellite loci were developed and characterized for this species. The number of alleles per locus ranged from four to 12 and the observed heterozygosity ranged from 0.2 to 1.0. These microsatellite markers will be valuable tools for population genetics studies and conservation planning. [source]

Isolation of simple and compound polymorphic tetranucleotide microsatellites for the neotropical leaflitter frog Eleutherodactylus ockendeni (Leptodactylidae)

MOLECULAR ECOLOGY RESOURCES, Issue 3 2006
KATHRYN R. ELMER
Abstract Few studies of population structure and genetic diversity exist for frogs in the Amazon of South America, an area renowned for exceptionally high species richness. We isolated seven highly variable tetranucleotide microsatellite loci for the neotropical leaflitter frog, Eleutherodactylus ockendeni using an enrichment method. Three of the repeats are simple, three are compound and one is imperfect. We screened all loci with 175 individuals from one geographical area in the upper Napo of Ecuador and found high polymorphism in all loci (> 14 alleles/locus). These markers are suitable for population genetics studies of E. ockendeni and perhaps other leaflitter frogs of the same genus. [source]

Development and characterization of novel tetra-, tri-, and dinucleotide microsatellite markers in rainbow trout (Oncorhynchus mykiss)

MOLECULAR ECOLOGY RESOURCES, Issue 2 2005
I. B. SPIES
Abstract We discuss the development and characterization of 40 polymorphic rainbow trout (Oncorhynchus mykiss) microsatellite loci. We used enriched libraries to isolate 14 dinucleotide, seven trinucleodide, eight compound di/tetranucleotide, and 11 tetranucleotide loci. These markers will be useful for selective breeding via marker-assisted selection, population genetics studies, parentage analysis, and have already been used for genome mapping. [source]

Characterization of six microsatellite loci in the Bermuda skink (Eumeces longirostris)

MOLECULAR ECOLOGY RESOURCES, Issue 4 2004
J. P. COUGHLAN
Abstract Conservation strategies for the critically endangered Bermuda skink will require knowledge of genetic variation and population structure. We describe the isolation of six polymorphic microsatellites for this species suitable for use in population genetics studies or for monitoring success of potential breeding programmes. Tissue sampling for DNA extraction involved no blood loss or tail autonomy. Three of these loci cross-amplify and are polymorphic in a related North American skink (Eumeces fasciatus) and should also be informative for this species. [source]