Your search keyword '"*MOLECULAR population biology"' showing total 18 results

1. A practical guide to environmental association analysis in landscape genomics.

Author

Rellstab, Christian, Gugerli, Felix, Eckert, Andrew J., Hancock, Angela M., and Holderegger, Rolf

Subjects

*GENOTYPE-environment interaction, *NATURAL selection, *PHENOTYPIC plasticity, *BIOLOGICAL adaptation, *SINGLE nucleotide polymorphisms, *PHYLOGENY, *MOLECULAR population biology

Abstract

Landscape genomics is an emerging research field that aims to identify the environmental factors that shape adaptive genetic variation and the gene variants that drive local adaptation. Its development has been facilitated by next-generation sequencing, which allows for screening thousands to millions of single nucleotide polymorphisms in many individuals and populations at reasonable costs. In parallel, data sets describing environmental factors have greatly improved and increasingly become publicly accessible. Accordingly, numerous analytical methods for environmental association studies have been developed. Environmental association analysis identifies genetic variants associated with particular environmental factors and has the potential to uncover adaptive patterns that are not discovered by traditional tests for the detection of outlier loci based on population genetic differentiation. We review methods for conducting environmental association analysis including categorical tests, logistic regressions, matrix correlations, general linear models and mixed effects models. We discuss the advantages and disadvantages of different approaches, provide a list of dedicated software packages and their specific properties, and stress the importance of incorporating neutral genetic structure in the analysis. We also touch on additional important aspects such as sampling design, environmental data preparation, pooled and reduced-representation sequencing, candidate-gene approaches, linearity of allele-environment associations and the combination of environmental association analyses with traditional outlier detection tests. We conclude by summarizing expected future directions in the field, such as the extension of statistical approaches, environmental association analysis for ecological gene annotation, and the need for replication and post hoc validation studies. [ABSTRACT FROM AUTHOR]

Published

2015

2. Molecular population genetics and phenotypic sensitivity to ethanol for a globally diverse sample of the nematode Caenorhabditis briggsae.

Author

CUTTER, ASHER D., WEIANG YAN, TSVETKOV, NADEJDA, SUNIL, SUPREET, and FÉLIX, MARIE-ANNE

Subjects

*CAENORHABDITIS, *ALCOHOL, *MOLECULAR population biology, *POPULATION genetics, *GENOMICS, *PHENOTYPES, *NEMATODES, *TOXINS, *REPRODUCTION

Abstract

New genomic resources and genetic tools of the past few years have advanced the nematode genus Caenorhabditis as a model for comparative biology. However, understanding of natural genetic variation at molecular and phenotypic levels remains rudimentary for most species in this genus, and for C. briggsae in particular. Here we characterize phenotypic variation in C. briggsae’s sensitivity to the potentially important and variable environmental toxin, ethanol, for globally diverse strains. We also quantify nucleotide variation in a new sample of 32 strains from four continents, including small islands, and for the closest-known relative of this species ( C. sp. 9). We demonstrate that C. briggsae exhibits little heritable variation for the effects of ethanol on the norm of reaction for survival and reproduction. Moreover, C. briggsae does not differ significantly from C. elegans in our assays of its response to this substance that both species likely encounter regularly in habitats of rotting fruit and vegetation. However, we uncover drastically more molecular genetic variation than was known previously for this species, despite most strains, including all island strains, conforming to the broad biogeographic patterns described previously. Using patterns of sequence divergence between populations and between species, we estimate that the self-fertilizing mode of reproduction by hermaphrodites in C. briggsae likely evolved sometime between 0.9 and 10 million generations ago. These insights into C. briggsae’s natural history and natural genetic variation greatly expand the potential of this organism as an emerging model for studies in molecular and quantitative genetics, the evolution of development, and ecological genetics. [ABSTRACT FROM AUTHOR]

Published

2010

3. Multilocus heterozygosity and inbreeding depression in an insular house sparrow metapopulation.

Author

JENSEN, HENRIK, BREMSET, ERLEND MYRE, RINGSBY, THOR HARALD, and SÆTHER, BERNT-ERIK

Subjects

*ENGLISH sparrow, *INBREEDING, *GENETICS, *ANIMAL pedigrees, *RECRUITMENT (Population biology), *POPULATION biology, *MOLECULAR population biology, *BIOTIC communities

Abstract

Inbreeding causes reduction of genetic variability that may have severe fitness consequences. In spite of its potentially huge impact on viability and evolutionary processes especially in small populations, quantitative demonstrations of genetic and demographic effects of inbreeding in natural populations are few. Here, we examine the relationship between individual inbreeding coefficients ( F) and individual standardized multilocus heterozygosity ( H) in an insular metapopulation of house sparrows ( Passer domesticus) in northern Norway in order to evaluate whether H is a good predictor for F. We then relate variation in fitness (i.e. the probability of surviving from fledging to recruitment) to F and H, which enables us to examine whether inbreeding depression is associated with a reduction in genetic variability. The average level of inbreeding in the house sparrow metapopulation was high, and there was large inter-individual variation in F. As expected, standardized multilocus heterozygosity decreased with the level of inbreeding. The probability of recruitment was significantly negatively related to F, and, accordingly, increased with H. However, H explained no significant additional variation in recruitment rate than was explained by F. This suggests that H is a good predictor for F in this metapopulation, and that an increase in F is likely to be associated with a general increase in the level of homozygosity on loci across the genome, which has severe fitness consequences. [ABSTRACT FROM AUTHOR]

Published

2007

4. Incomplete cryptic speciation between intertidal and subtidal morphs of Acrocnida brachiata (Echinodermata: Ophiuroidea) in the Northeast Atlantic.

Author

Muths, D., Davoult, D., Gentil, F., and Jollivet, D.

Subjects

*MOLECULAR population biology, *SPECIES, *ISOENZYMES, *OPHIUROIDEA, *ECHINODERMATA, *SPECIES hybridization, *CYTOCHROME oxidase

Abstract

The brittle-star Acrocnida brachiata (Montagu) lives in sandy-bottom habitat of both intertidal and subtidal zones along the coasts of the northwestern Europe. An allozyme frequency-based survey (five enzyme loci) was combined with a mitochondrial (mt) COI haplotype analysis (598-bp sequences) on 17 populations to trace back past colonization pathways from the actual population structure of the species. Both genetic markers display a sharp genetic break between intertidal (clade I) and subtidal populations (clade S). This break corresponds to an allele frequency inversion at three enzyme loci ( Hk, Pgm and Pgi) and a deep divergence of about 20% in mtCOI sequences between most of the intertidal populations and other samples. The geographic distribution of clade I seems to be more restricted than clade S as it is absent from the intertidal of the eastern English Channel and North Sea and may be replaced by clade S in south Brittany. Applying previously published rates of mutation, divergence between the two clades is estimated to pre-date 5 million years ago and may be due to allopatric speciation processes at the Mio–Pliocene transition. The occurrence of putative hybrids in a few localities, however, suggests incomplete cryptic speciation with secondary contact zones. The relative importance of colonization history vs. habitat specialization are discussed in the light of neutral evolution as tested from mtCOI gene sequences. While differential selection seems to have contributed little to the separation of the lineages, it may have played a role in the emergence of adaptive polymorphisms in the hybrid zone. Furthermore, congruent spatial patterns of differentiation were observed in both clades suggesting a recent increase in population size. These findings are in agreement with a recent expansion of the populations during or after the formation of the English Channel, from a southern refuge for the subtidal clade whereas the intertidal clade may have persisted further north. As previously suspected for a species with a very short pelagic larval phase, contemporary gene flow between distant or adjacent populations appears to be extremely reduced or even absent. [ABSTRACT FROM AUTHOR]

Published

2006

5. Spatial and temporal genetic structure of the planktonic Sagitta setosa (Chaetognatha) in European seas as revealed by mitochondrial and nuclear DNA markers.

Author

Peijnenburg, K. T. C. A., Fauvelot, C., Breeuwer, J. A. J., and Menken, S. B. J.

Subjects

*MOLECULAR population biology, *SPATIO-temporal variation, *CHAETOGNATHA, *PHYLOGEOGRAPHY, *MICROSATELLITE repeats, *MITOCHONDRIAL DNA, *MARINE plankton

Abstract

Little is known about the spatial and temporal scales at which planktonic organisms are genetically structured. A previous study of mitochondrial DNA (mtDNA) in the holoplanktonic chaetognath Sagitta setosa revealed strong phylogeographic structuring suggesting that Northeast (NE) Atlantic, Mediterranean and Black Sea populations are genetically disjunct. The present study used a higher sampling intensity and a combination of mitochondrial and four microsatellite markers to reveal population structuring between and within basins. Between basins, both marker sets indicated significant differentiation confirming earlier results that gene flow is probably absent between the respective S. setosa populations. At the within-basin scale, we found no evidence of spatial or temporal structuring within the NE Atlantic. In the Mediterranean basin, both marker sets indicated significant structuring, but only the mtDNA data indicated a sharp genetic division between Adriatic and all other Mediterranean populations. Data were inconclusive about population structuring in the Black Sea. The levels of differentiation indicated by the two marker sets differed substantially, with far less pronounced structure detected by microsatellite than mtDNA data. This study also uncovered the presence of highly divergent mitochondrial lineages that were discordant with morphology, geography and nuclear DNA. We thus propose the hypothesis that highly divergent mitochondrial lineages may be present within interbreeding S. setosa populations. [ABSTRACT FROM AUTHOR]

Published

2006

6. Nuclear and mitochondrial markers reveal distinctiveness of a small population of bottlenose whales ( Hyperoodon ampullatus) in the western North Atlantic.

Author

Dalebout, Merel L., Ruzzante, Daniel E., Whitehead, Hal, and Øien, Nils I.

Subjects

*MOLECULAR population biology, *CETACEA, *PHYLOGEOGRAPHY, *WHALING, *BIOMARKERS, *BEAKED whales

Abstract

Small populations at the edge of a species’ distribution can represent evolutionary relics left behind after range contractions due to climate change or human exploitation. The distinctiveness and genetic diversity of a small population of bottlenose whales in the Gully, a submarine canyon off Nova Scotia, was quantified by comparison to other North Atlantic populations using 10 microsatellites and mitrochondrial DNA (mtDNA) control region sequences (434 bp). Both markers confirmed the distinctiveness of the Gully ( n = 34) from the next nearest population, off Labrador ( n = 127; microsatellites – FST= 0.0243, P<0.0001; mtDNA –ΦST = 0.0456, P<0.05). Maximum likelihood microsatellite estimates suggest that less than two individuals per generation move between these areas, refuting the hypothesis of population links through seasonal migration. Both males and females appear to be philopatric, based on significant differentiation at both genomes and similar levels of structuring among the sexes for microsatellites. mtDNA diversity was very low in all populations ( h = 0.51, π = 0.14%), a pattern which may be due to selective sweeps associated with this species’ extreme deep-diving ecology. Whaling had a substantial impact on bottlenose whale abundance, with over 65 000 animals killed before the hunt ceased in the early 1970s. Genetic diversity was similar among all populations, however, and no signal for bottlenecks was detected, suggesting that the Gully is not a relic of a historically wider distribution. Instead, this unique ecosystem appears to have long provided a stable year-round habitat for a distinct population of bottlenose whales. [ABSTRACT FROM AUTHOR]

Published

2006

7. An unexpected recent ancestor of unisexual Ambystoma.

Author

Robertson, Alexander V., Ramsden, Cadhla, Niedzwiecki, John, Fu, Jinzhong, and Bogart, James P.

Subjects

*MOLECULAR population biology, *AMBYSTOMA, *CYTOCHROME b, *SPECIES hybridization, *MITOCHONDRIAL DNA, *POLYPLOIDY

Abstract

Previous research has shown that members of the unisexual hybrid complex of the genus Ambystoma possess a mitochondrial genome that is unrelated to their nuclear parental species, but the origin of this mitochondrion has remained unclear. We used a 744-bp fragment of the mitochondrial gene cytochrome b within a comparative phylogenetic framework to infer the maternal ancestor of this unisexual lineage. By examining a broader range of species than has previously been compared, we were able to uncover a recent maternal ancestor to this complex. Unexpectedly, Ambystoma barbouri, a species whose nuclear DNA has not been identified in the unisexuals, was found to be the recent maternal ancestor of the individuals examined through the discovery of a shared mtDNA haplotype between the unisexuals and A. barbouri. Based on a combination of sequence data and glacial patterning, we estimate that the unisexual lineage probably originated less than 25 000 years ago. In addition, all unisexuals examined showed extremely similar mtDNA sequences and the resultant phylogeny was consistent with a single origin for this lineage. These results confirm previous suggestions that the unisexual Ambystoma complex was formed from a hybridization event in which the nuclear DNA of the original maternal species was subsequently lost. [ABSTRACT FROM AUTHOR]

Published

2006

8. Dispersal, philopatry and intergroup relatedness: fine-scale genetic structure in the white-breasted thrasher, Ramphocinclus brachyurus.

Author

Temple, H. J., Hoffman, J. I., and Amos, W.

Subjects

*MOLECULAR population biology, *SEXUAL behavior in birds, *KINSHIP, *MICROSATELLITE repeats, *INTERGROUP relations, *ANIMAL dispersal, *THRASHERS (Birds)

Abstract

Dispersal is a fundamental process influencing evolution, social behaviour, and the long-term persistence of populations. We use both observational and genetic data to investigate dispersal, kin-clustering and intergroup relatedness in the white-breasted thrasher, Ramphocinclus brachyurus, a cooperatively breeding bird that is globally endangered. Mark-resighting data suggested sex-biased dispersal, with females dispersing over greater distances while males remained philopatric. Accordingly, spatial autocorrelation analysis showed highly significant fine-scale genetic structure among males, but not among females. This fine-scale genetic structuring of the male population resulted in very high levels of relatedness between dominant males at neighbouring nests, similar to that seen within cooperative groups in many species where kin selection is cited as a cause of cooperation. By implication, between-group as well as within-group cooperation may be important, potentially creating a feedback loop in which short-distance dispersal by males leads to the formation of male kin clusters that in turn facilitate nepotistic interactions and favour further local recruitment. The strength of spatial autocorrelation, as measured by the autocorrelation coefficient, r, was approximately two to three times greater than that reported in previous studies of animals. Relatively short dispersal distances by both males and females may have a negative impact on the white-breasted thrasher's ability to colonize new areas, and may influence the long-term persistence of isolated populations. This should be taken into account when designating protected areas or selecting sites for habitat restoration. [ABSTRACT FROM AUTHOR]

Published

2006

9. Presumptive horizontal symbiont transmission in the fungus-growing termite Macrotermes natalensis.

Author

de Fine Licht, H. H., Boomsma, J. J., and Aanen, D. K.

Subjects

*MOLECULAR population biology, *MUTUALISM (Biology), *GENETIC recombination, *SYMBIOSIS, *TERMITOMYCES, *MACROTERMES

Abstract

All colonies of the fungus-growing termite Macrotermes natalensis studied so far are associated with a single genetically variable lineage of Termitomyces symbionts. Such limited genetic variation of symbionts and the absence of sexual fruiting bodies (mushrooms) on M. natalensis mounds would be compatible with clonal vertical transmission, as is known to occur in Macrotermes bellicosus. We investigated this hypothesis by analysing DNA sequence polymorphisms as codominant SNP markers of four single-copy gene fragments of Termitomyces isolates from 31 colonies of M. natalensis. A signature of free recombination was found, indicative of frequent sexual horizontal transmission. First, all 31 strains had unique multilocus genotypes. Second, SNP markers ( n = 55) were largely in Hardy–Weinberg equilibrium (90.9%) and almost all possible pairs of SNPs between genetically unlinked loci were in linkage equilibrium (96.7%). Finally, extensive intragenic recombination was found, especially in the EF1α fragment. Substantial genetic variation and a freely recombining population structure can only be explained by frequent horizontal and sexual transmission of Termitomyces. The apparent variation in symbiont transmission mode among Macrotermes species implies that vertical symbiont transmission can evolve rapidly. The unexpected finding of horizontal transmission makes the apparent absence of Termitomyces mushrooms on M. natalensis mounds puzzling. To our knowledge, this is the first detailed study of the genetic population structure of a single lineage of Termitomyces. [ABSTRACT FROM AUTHOR]

Published

2006

10. An empirical verification of population assignment methods by marking and parentage data: hatchery and wild steelhead ( Oncorhynchus mykiss) in Forks Creek, Washington, USA.

Author

Hauser, L., Seamons, T. R., Dauer, M., Naish, K. A., and Quinn, T. P.

Subjects

*MOLECULAR population biology, *HATCHERY fishes, *MICROSATELLITE repeats, *SALMONIDAE, *STEELHEAD trout, *RAINBOW trout

Abstract

Assignment tests are increasingly applied in ecology and conservation, although empirical comparisons of methods are still rare or are restricted to few of the available approaches. Furthermore, the performance of assignment tests in cases with low population differentiation, violations of Hardy–Weinberg equilibrium and unbalanced sampling designs has not been verified. The release of adult hatchery steelhead to spawn in Forks Creek in 1996 and 1997 provided an opportunity to compare the power of different assignment methods to distinguish their offspring from those of sympatric wild steelhead. We compared standard assignment methods requiring baseline samples (frequency, distance and Bayesian) and clustering approaches with and without baseline information, using six freely available computer programs. Assignments were verified by parentage data obtained for a subset of returning offspring. All methods provided similar assignment success, despite low differentiation between wild and hatchery fish ( FST = 0.02). Bayesian approaches with baseline data performed best, whereas the results of clustering methods were variable and depended on the samples included in the analysis and the availability of baseline information. Removal of a locus with null alleles and equalizing sample sizes had little effect on assignments. Our results demonstrate the robustness of most assignment tests to low differentiation and violations of assumptions, as well as their utility for ecological studies that require correct classification of different groups. [ABSTRACT FROM AUTHOR]

Published

2006

11. Fine-scale genetic structure and dispersal in cooperatively breeding apostlebirds.

Author

Woxvold, Iain A., Adcock, Greg J., and Mulder, Raoul A.

Subjects

*MOLECULAR population biology, *SEXUAL behavior in birds, *MICROSATELLITE repeats, *KIN selection (Evolution), *ANIMAL dispersal

Abstract

In cooperatively breeding species, restricted dispersal of offspring leads to clustering of closely related individuals, increasing the potential both for indirect genetic benefits and inbreeding costs. In apostlebirds ( Struthidea cinerea), philopatry by both sexes results in the formation of large (up to 17 birds), predominantly sedentary breeding groups that remain stable throughout the year. We examined patterns of relatedness and fine-scale genetic structure within a population of apostlebirds using six polymorphic microsatellite loci. We found evidence of fine-scale genetic structure within the study population that is consistent with behavioural observations of short-distance dispersal, natal philopatry by both sexes and restricted movement of breeding groups between seasons. Global FST values among breeding groups were significantly positive, and the average level of pairwise relatedness was significantly higher for individuals within groups than between groups. For individuals from different breeding groups, geographical distance was negatively correlated with pairwise relatedness and positively correlated with pairwise FST. However, when each sex was examined separately, this pattern was significant only among males, suggesting that females may disperse over longer distances. We discuss the potential for kin selection to influence the evolution and maintenance of cooperative breeding in apostlebirds. Our results demonstrate that spatial genetic structural analysis offers a useful alternative to field observations in examining dispersal patterns of cooperative breeders. [ABSTRACT FROM AUTHOR]

Published

2006

12. Molecular marker systems in insects: current trends and future avenues.

Author

Behura, Susanta K.

Subjects

*MOLECULAR population biology, *MOLECULAR entomology, *BIOMARKERS, *DNA microarrays, *TRANSPOSONS, *GENETIC polymorphisms

Abstract

Insects comprise the largest species composition in the entire animal kingdom and possess a vast undiscovered genetic diversity and gene pool that can be better explored using molecular marker techniques. Current trends of application of DNA marker techniques in diverse domains of insect ecological studies show that mitochondrial DNA (mtDNA), microsatellites, random amplified polymorphic DNA (RAPD), expressed sequence tags (EST) and amplified fragment length polymorphism (AFLP) markers have contributed significantly for progresses towards understanding genetic basis of insect diversity and for mapping medically and agriculturally important genes and quantitative trait loci in insect pests. Apart from these popular marker systems, other novel approaches including transposon display, sequence-specific amplification polymorphism (S-SAP), repeat-associated polymerase chain reaction (PCR) markers have been identified as alternate marker systems in insect studies. Besides, whole genome microarray and single nucleotide polymorphism (SNP) assays are becoming more popular to screen genome-wide polymorphisms in fast and cost effective manner. However, use of such methodologies has not gained widespread popularity in entomological studies. The current study highlights the recent trends of applications of molecular markers in insect studies and explores the technological advancements in molecular marker tools and modern high throughput genotyping methodologies that may be applied in entomological researches for better understanding of insect ecology at molecular level. [ABSTRACT FROM AUTHOR]

Published

2006

13. Divergence in mating signals correlates with ecological variation in the migratory songbird, Swainson's thrush ( Catharus ustulatus).

Author

Ruegg, K., Slabbekoorn, H., Clegg, S., and Smith, T. B.

Subjects

*MOLECULAR population biology, *SEXUAL behavior in birds, *BIRDSONGS, *CATHARUS, *MICROSATELLITE repeats, *BIOLOGICAL divergence

Abstract

Song divergence among populations of passerine birds is recognized as a potentially important premating isolation mechanism and may represent the first step in speciation. Because song divergence may be influenced by an array of acoustic, ecological, and genetic factors, the study of its origin requires a multifaceted approach. Here we describe the relationship between acoustic, neutral genetic and ecological variation in five populations of the Swainson's thrush: two from coastal temperate rainforest habitat representing the ‘russet-backed’ subspecies group, two from inland coniferous forest habitat representing the ‘olive-backed’ subspecies group, and one mixed locality that resides within a contact zone between the two groups. Song in the five populations is analysed using a multivariate analysis of spectral and temporal measurements, population genetic structure is assessed using an analysis of five microsatellite loci and ecological differences between populations are quantified using an analysis of climatic parameters. Matrix correspondence tests are used to distinguish between the potential for drift and selection in driving song divergence. No significant correlation was found between acoustic and genetic distance suggesting that song divergence cannot be explained by drift alone. A significant correlation between ecological and acoustic distance after accounting for genetic distance, suggests a potential role for ecological selection on divergence in spectral and temporal components of Swainson's thrush song. [ABSTRACT FROM AUTHOR]

Published

2006

14. Decomposed pairwise regression analysis of genetic and geographic distances reveals a metapopulation structure of stream-dwelling Dolly Varden charr.

Author

Koizumi, Itsuro, Yamamoto, Shoichiro, and Maekawa, Koji

Subjects

*MOLECULAR ecology, *MOLECULAR population biology, *DOLLY Varden (Fish), *BIOLOGICAL extinction, *FISH colonization

Abstract

Isolation by distance is usually tested by the correlation of genetic and geographic distances separating all pairwise populations’ combinations. However, this method can be significantly biased by only a few highly diverged populations and lose the information of individual population. To detect outlier populations and investigate the relative strengths of gene flow and genetic drift for each population, we propose a decomposed pairwise regression analysis. This analysis was applied to the well-described one-dimensional stepping-stone system of stream-dwelling Dolly Varden charr ( Salvelinus malma). When genetic and geographic distances were plotted for all pairs of 17 tributary populations, the correlation was significant but weak ( r2 = 0.184). Seven outlier populations were determined based on the systematic bias of the regression residuals, followed by Akaike's information criteria. The best model, 10 populations included, showed a strong pattern of isolation by distance ( r2 = 0.758), suggesting equilibrium between gene flow and genetic drift in these populations. Each outlier population was also analysed by plotting pairwise genetic and geographic distances against the 10 nonoutlier populations, and categorized into one of the three patterns: strong genetic drift, genetic drift with a limited gene flow and a high level of gene flow. These classifications were generally consistent with a priori predictions for each population (physical barrier, population size, anthropogenic impacts). Combined the genetic analysis with field observations, Dolly Varden in this river appeared to form a mainland-island or source-sink metapopulation structure. The generality of the method will merit many types of spatial genetic analyses. [ABSTRACT FROM AUTHOR]

Published

2006

15. Bayesian identification of admixture events using multilocus molecular markers.

Author

CORANDER, JUKKA and MARTTINEN, PEKKA

Subjects

*BAYESIAN analysis, *POPULATION genetics -- Mathematical models, *GENETIC research, *BIOLOGICAL divergence, *GENOMES, *GENOMICS, *HEREDITY, *MOLECULAR population biology, *MOLECULAR biology

Abstract

Bayesian statistical methods for the estimation of hidden genetic structure of populations have gained considerable popularity in the recent years. Utilizing molecular marker data, Bayesian mixture models attempt to identify a hidden population structure by clustering individuals into genetically divergent groups, whereas admixture models target at separating the ancestral sources of the alleles observed in different individual s. We discuss the difficulties involved in the simultaneous estimation of the number of ancestral populations and the levels of admixture in studied individuals’ genomes. To resolve this issue, we introduce a computationally efficient method for the identification of admixture events in the population history. Our approach is illustrated by analyses of several challenging real and simulated data sets. The software (baps), implementing the methods introduced here , is freely available at . [ABSTRACT FROM AUTHOR]

Published

2006

16. The incomplete natural history of mitochondria.

Author

Ballard, J. William O. and Whitlock, Michael C.

Subjects

*MITOCHONDRIAL DNA, *PHYLOGEOGRAPHY, *MOLECULAR population biology, *NATURAL selection, *POPULATION genetics, *MOLECULAR ecology

Abstract

Mitochondrial DNA (mtDNA) has been used to study molecular ecology and phylogeography for 25 years. Much important information has been gained in this way, but it is time to reflect on the biology of the mitochondrion itself and consider opportunities for evolutionary studies of the organelle itself and its ecology, biochemistry and physiology. This review has four sections. First, we review aspects of the natural history of mitochondria and their DNA to show that it is a unique molecule with specific characteristics that differ from nuclear DNA. We do not attempt to cover the plethora of differences between mitochondrial and nuclear DNA; rather we spotlight differences that can cause significant bias when inferring demographic properties of populations and/or the evolutionary history of species. We focus on recombination, effective population size and mutation rate. Second, we explore some of the difficulties in interpreting phylogeographical data from mtDNA data alone and suggest a broader use of multiple nuclear markers. We argue that mtDNA is not a sufficient marker for phylogeographical studies if the focus of the investigation is the species and not the organelle. We focus on the potential bias caused by introgression. Third, we show that it is not safe to assume a priori that mtDNA evolves as a strictly neutral marker because both direct and indirect selection influence mitochondria. We outline some of the statistical tests of neutrality that can, and should, be applied to mtDNA sequence data prior to making any global statements concerning the history of the organism. We conclude with a critical examination of the neglected biology of mitochondria and point out several surprising gaps in the state of our knowledge about this important organelle. Here we limelight mitochondrial ecology, sexually antagonistic selection, life-history evolution including ageing and disease, and the evolution of mitochondrial inheritance. [ABSTRACT FROM AUTHOR]

Published

2004

17. Host–parasite determinants of parasite population structure: lessons from bats and mites on the importance of time.

Author

MCCOY, KAREN D.

Subjects

*HOST-parasite relationships, *POPULATION genetics, *POPULATION biology, *BAT physiology, *MOLECULAR population biology, *PARASITISM, *HOSTS (Biology), *PARASITIC insects, MITE physiology

Abstract

By definition, parasitic organisms are strongly dependant on their hosts, and for a great majority, this dependence includes host-to-host transmission. Constraints imposed by the host’s spatial distribution and demography, in combination with those of the parasite, can lead to a metapopulation structure, where parasite populations are highly stochastic (i.e. prone to frequent extinctions and re-colonizations) and where drift becomes a major force shaping standing genetic variation. This, in turn, will directly affect the observed population structure, along with the ability of the parasite to adapt (or co-adapt) to its host. However, only a specific consideration of temporal dynamics can reveal the extent to which drift shapes parasite population structure; this is rarely taken into account in population genetic studies of parasitic organisms. The study by Bruyndonckx et al. in this issue of Molecular Ecology does just this and, in doing so, illustrates how a comparison of host–parasite co-structures in light of temporal dynamics can be particularly informative for understanding the ecological and evolutionary constraints imposed by the host. More specifically, the authors examine spatial and temporal population genetic data of a parasitic mite Spinturnix bechsteini that exclusively exploits the Bechstein’s bat Myotis bechsteinii and consider these data in relation to host–parasite life histories and the population structure of the host. [ABSTRACT FROM AUTHOR]

Published

2009

18. Book Review: Molecular population genetics. Matthew Hahn.

Author

Smith, Chris C. R., Taylor, Scott A., Tittes, Silas, Vergara, Daniela, and Scordato, Elizabeth S. C.

Subjects

*MOLECULAR population biology, *NUCLEOTIDE sequencing, *NATURAL selection, *GENETICS

Abstract

Rapid progress in the field of population genetics, in particular advances in DNA sequencing technology, calls for an up‐to‐speed textbook that is appropriate for current researchers and students. Molecular Population Genetics, by Matthew Hahn (2018), is an informative and entertaining text that attempts to satisfy this demand. Although it has notable shortcomings and does not replace current texts for undergraduate courses, this book is a worthwhile resource for almost any researcher analysing population genetic data and is a must‐have for graduate student reading lists. [ABSTRACT FROM AUTHOR]

Published

2018