Your search keyword '"*STABILIZING selection (Biological evolution)"' showing total 28 results

1. Can Aging Develop as an Adaptation to Optimize Natural Selection? (Application of Computer Modeling for Searching Conditions When the "Fable of Hares" Can Explain the Evolution of Aging).

Author

Markov, A. V., Barg, M. A., and Yakovleva, E. Yu.

Subjects

*AGING, *HYPOTHESIS, *STABILIZING selection (Biological evolution), *COMPUTER simulation, *MULTICELLULAR organisms

Abstract

There are two points of view on the evolution of aging. The classical theory of aging suggests that natural selection does not efficiently eliminate mutations or alleles that are harmful to organisms at later age. Another hypothesis is that the genetic program of aging has evolved as an adaptation that contributes to the optimization of the evolutionary process. Academician V. P. Skulachev advocates the latter hypothesis, which he has illustrated with the "Fable of hares". In this paper, we have used computer simulation to search for conditions when, according to the "Fable", aging develops as an adaptation required for the evolution of useful traits. The simulation has shown that the evolutionary mechanism presented in the "Fable of hares" is only partially functional. We have found that under certain conditions, programmed deterioration of some organismal functions makes it possible to increase the efficiency of natural selection of other functions. However, we have not identified mechanisms that would ensure the distribution and support of genes of aging within the population. [ABSTRACT FROM AUTHOR]

Published

2018

2. Stabilizing selection, mutational bias, and the evolution of sex.

Author

Vanhoenacker, Eloïse, Roze, Denis, and Sandell, Linnéa

Subjects

*REPRODUCTION, *STABILIZING selection (Biological evolution), *BIOLOGICAL evolution, *GENETIC mutation, *PHENOTYPES

Abstract

Abstract: Stabilizing selection around a fixed phenotypic optimum is expected to disfavor sexual reproduction, since asexually reproducing organisms can maintain a higher fitness at equilibrium, while sex disrupts combinations of compensatory mutations. This conclusion rests on the assumption that mutational effects on phenotypic traits are unbiased, that is, mutation does not tend to push phenotypes in any particular direction. In this article, we consider a model of stabilizing selection acting on an arbitrary number of polygenic traits coded by bialellic loci, and show that mutational bias may greatly reduce the mean fitness of asexual populations compared with sexual ones in regimes where mutations have weak to moderate fitness effects. Indeed, mutation and drift tend to push the population mean phenotype away from the optimum, this effect being enhanced by the low effective population size of asexual populations. In a second part, we present results from individual‐based simulations showing that positive rates of sex are favored when mutational bias is present, while the population evolves toward complete asexuality in the absence of bias. We also present analytical (QLE) approximations for the selective forces acting on sex in terms of the effect of sex on the mean and variance in fitness among offspring. [ABSTRACT FROM AUTHOR]

Published

2018

3. Sharing the burden: A neutral approach to socioecological theory.

Author

Génin, Fabien and Masters, Judith C.

Subjects

*BAYESIAN analysis, *MATE selection, *STABILIZING selection (Biological evolution), *GENDER stereotypes

Abstract

Abstract: Objective: The socioecological model (SEM) is a popular collection of controversial models purporting to explain mating systems in terms of ecological and social parameters. Despite its guise of objectivity, several of its hypotheses assume Victorian gender stereotypes of active, competing males heedlessly sowing their seeds, and cautious, passive females, imprisoned by greater costs of reproduction and their consequent resourceߚdependence. Methods: We enter this debate by taking a previously neglected explanatory approach borrowed from species theory. According to the Recognition Concept of sexual species, the unit of reproductive success/fitness is irreducible to fewer than two integrated subparts (minimally a male and a female). Phyletic changes in mating systems logically effect changes in fertilization systems, leading to reproductive isolation. We take our primary assumption of the average equivalence of female and male contributions to successful reproduction from the writings of the natural philosopher, Antoinette Blackwell. Results: We revisit the SEM with its contradictions and extrapolations, and develop a genderߚneutral alternative hypothesis termed SpecificߚMate Contact (SMC), centered on two fundamental mating strategies: sexual animals may behave as synchronous mateߚattractors or asynchronous mateߚseekers, generating four possible mating system combinations (monogamy: two attractors; promiscuity: two seekers; polygyny: male attractor and female seeker; polyandry: female attractor and male seeker). Conclusions: Our approach predicts all known primate mating systems using a neutral (nonߚsexist) principle. The approach is also neutral in the sense that it does not invoke either competition or cooperation: fertilization success is considered a posteriori and males and females are coߚadapted to this end rather than cognitively cooperative. [ABSTRACT FROM AUTHOR]

Published

2018

4. Selection Constrains High Rates of Tandem Repetitive DNA Mutation in Daphnia pulex.

Author

Flynn, Jullien M., Caldas, Ian, Cristescu, Melania E., and Clark, Andrew G.

Subjects

*DAPHNIA pulex, *DNA mutational analysis, *NUCLEOTIDE sequencing, *EUKARYOTIC genomes, *STABILIZING selection (Biological evolution)

Abstract

A long-standing evolutionary puzzle is that all eukaryotic genomes contain large amounts of tandemly-repeated DNA whose sequence motifs and abundance vary greatly among even closely related species. To elucidate the evolutionary forces governing tandem repeat dynamics, quantification of the rates and patterns of mutations in repeat copy number and tests of its selective neutrality are necessary. Here, we used whole-genome sequences of 28 mutation accumulation (MA) lines of Daphnia pulex, in addition to six isolates from a non-MA population originating from the same progenitor, to both estimate mutation rates of abundances of repeat sequences and evaluate the selective regime acting upon them. We found that mutation rates of individual repeats were both high and highly variable, ranging from additions/deletions of 0.29-105 copies per generation (reflecting changes of 0.12-0.80% per generation). Our results also provide evidence that new repeat sequences are often formed from existing ones. The non-MA population isolates showed a signal of either purifying or stabilizing selection, with 33% lower variation in repeat copy number on average than the MA lines, although the level of selective constraint was not evenly distributed across all repeats. The changes between many pairs of repeats were correlated, and the pattern of correlations was significantly different between the MA lines and the non-MA population. Our study demonstrates that tandem repeats can experience extremely rapid evolution in copy number, which can lead to high levels of divergence in genome-wide repeat composition between closely related species. [ABSTRACT FROM AUTHOR]

Published

2017

5. The influence of natural selection in breeding programs: A simulation study.

Author

García-Ballesteros, Silvia, Gutiérrez, Juan Pablo, Varona, Luis, and Fernández, Jesús

Subjects

*NATURAL selection, *BREEDING, *COMPUTER simulation, *STABILIZING selection (Biological evolution), *GENETIC mutation

Abstract

Natural selection, acting directly on fitness or through stabilizing selection for other traits, has always been present in natural populations. In principle, this force will reduce the genetic variability, which is required for artificial selection programs. The genetic improvement of a trait with economic interest by selection programs depends on the amount of genetic diversity for that trait in a particular population. Most studies on the development of breeding programs account only for the genetic variation for the target trait itself. The objective in this work is determining, through computer simulations, the consequences for the evolution of selection programs, considering not only the variability for the trait of interest but also for fitness under different mutational models. Additionally, a scenario where the trait was subjected to stabilizing selection was also studied. Different parameters as effective population size, phenotypic mean, phenotypic variance and heterozygosity were used to monitor the performance in the different scenarios. In conclusion, considering the action of direct natural selection does not lead to lower levels of genetic variability for neutral traits, and thus it does not reduce the ability of populations to respond to artificial selection regardless of the mutational model used. On the other hand, stabilizing selection penalizes individuals with an extreme phenotype (which is the major objective in the artificial selection), reducing their fitness. Therefore, the artificial selection was ineffective in improving traits subjected to stabilizing selection. [ABSTRACT FROM AUTHOR]

Published

2017

6. A GENERALIZED PREDATOR-PREY SYSTEM WITH HABITAT COMPLEXITY.

Author

MA, ZHIHUI, WANG, SHUFAN, WANG, TINGTING, TANG, HAOPENG, and LI, ZIZHEN

Subjects

*PREDATION, *HOPF bifurcations, *HABITATS, *POPULATION dynamics, *STABILIZING selection (Biological evolution)

Abstract

This paper presents a generalized predator-prey system and considers the effect of habitat complexity on the dynamical consequences. The results show that habitat complexity has a major impact on the dynamical consequences of the considered system. On the one hand, habitat complexity has a stabilizing impact under certain conditions. A numerical simulation in our study and in experiments conducted in the published studies elaborate on this stabilizing effect. On the other hand, the most interesting and open issue is that a destabilizing effect of habitat complexity is found theoretically. All results are explained and illustrated from the ecological viewpoint. [ABSTRACT FROM AUTHOR]

Published

2017

7. Cryptic lineage divergence in marine environments: genetic differentiation at multiple spatial and temporal scales in the widespread intertidal goby Gobiosoma bosc.

Author

Milá, Borja, Van Tassell, James L., Calderón, Jatziri A., Rüber, Lukas, and Zardoya, Rafael

Subjects

*ADAPTIVE radiation, *GENETIC speciation, *PHYLOGEOGRAPHY, *STABILIZING selection (Biological evolution), *BIODIVERSITY

Abstract

The adaptive radiation of the seven-spined gobies (Gobiidae: Gobiosomatini) represents a classic example of how ecological specialization and larval retention can drive speciation through local adaptation. However, geographically widespread and phenotypically uniform species also do occur within Gobiosomatini. This lack of phenotypic variation across large geographic areas could be due to recent colonization, widespread gene flow, or stabilizing selection acting across environmental gradients. We use a phylogeographic approach to test these alternative hypotheses in the naked goby Gobiosoma bosc, a widespread and phenotypically invariable intertidal fish found along the Atlantic Coast of North America. Using DNA sequence from 218 individuals sampled at 15 localities, we document marked intraspecific genetic structure in mitochondrial and nuclear genes at three main geographic scales: (i) between Gulf of Mexico and Atlantic Coast, (ii) between the west coast of the Florida peninsula and adjacent Gulf of Mexico across the Apalachicola Bay, and (iii) at local scales of a few hundred kilometers. Clades on either side of Florida diverged about 8 million years ago, whereas some populations along the East Cost show divergent phylogroups that have differentiated within the last 200,000 years. The absence of noticeable phenotypic or ecological differentiation among lineages suggests the role of stabilizing selection on ancestral phenotypes, together with isolation in allopatry due to reduced dispersal and restricted gene flow, as the most likely explanation for their divergence. Haplotype phylogenies and spatial patterns of genetic diversity reveal frequent population bottlenecks followed by rapid population growth, particularly along the Gulf of Mexico. The magnitude of the genetic divergence among intraspecific lineages suggests the existence of cryptic species within Gobiosoma and indicates that modes of speciation can vary among lineages within Gobiidae. [ABSTRACT FROM AUTHOR]

Published

2017

8. Sexual selection constrains the body mass of male but not female mice.

Author

Ruff, James S., Cornwall, Douglas H., Morrison, Linda C., Cauceglia, Joseph W., Nelson, Adam C., Gaukler, Shannon M., Meagher, Shawn, Carroll, Lara S., and Potts, Wayne K.

Subjects

*SEXUAL selection, *SEXUAL dimorphism, *STABILIZING selection (Biological evolution), *COMPETITION (Biology), *MICE behavior, *RODENTS, *MAMMALS

Abstract

Sexual size dimorphism results when female and male body size is influenced differently by natural and sexual selection. Typically, in polygynous species larger male body size is thought to be favored in competition for mates and constraints on maximal body size are due to countervailing natural selection on either sex; however, it has been postulated that sexual selection itself may result in stabilizing selection at an optimal mass. Here we test this hypothesis by retrospectively assessing the influence of body mass, one metric of body size, on the fitness of 113 wild-derived house mice (Mus musculus) residing within ten replicate semi-natural enclosures from previous studies conducted by our laboratory. Enclosures possess similar levels of sexual selection, but relaxed natural selection, relative to natural systems. Heavier females produced more offspring, while males of intermediate mass had the highest fitness. Female results suggest that some aspect of natural selection, absent from enclosures, acts to decrease their body mass, while the upper and lower boundaries of male mass are constrained by sexual selection. [ABSTRACT FROM AUTHOR]

Published

2017

9. Reproductive failure: a new paradigm for extinction.

Author

Wiens, Delbert and Worsley, Thomas

Subjects

*CATASTROPHISM, *ANTHROPOGENIC effects on nature, *PALEOCLIMATOLOGY, *REPRODUCTIVE health, *STABILIZING selection (Biological evolution)

Abstract

Extinction was recognized as a scientific fact 200 years ago, although no adequate paradigm has emerged to explain the process. Prevailing theory has focused on 'cause(s)' of extinction but has neglected 'effect' and 'mechanism'. These omissions preclude the formulation of a functional paradigm necessary for remedial action in response to the impending anthropogenic mediated, worldwide extinction crisis. The new paradigm is defined as the multi-generational, attritional loss of reproductive fitness. Stabilizing selection continuously adapts species to specific ecosystems, which often results in highly evolved species prone to extinction when environments shift. Some species survive by tracking the declining palaeoclimates in which they presumably evolved, often becoming relicts prior to extinction. Compelling new evidence shows that even mass extinctions are largely a result of environmental change leading to widespread, attritional reproductive decline, rather than a result of instantaneous global catastrophes. [ABSTRACT FROM AUTHOR]

Published

2016

10. Evolution of a butterfly dispersal syndrome.

Author

Legrand, Delphine, Larranaga, Nicolas, Calvez, Olivier, Stevens, Virginie M., Bertrand, Romain, Baguette, Michel, and Ducatez, Simon

Subjects

*BUTTERFLIES, *DISPERSAL of insects, *GENETIC correlations, *STABILIZING selection (Biological evolution), *PHENOTYPES

Abstract

The existence of dispersal syndromes contrasting disperser from resident phenotypes within populations has been intensively documented across taxa. However, how such suites of phenotypic traits emerge and are maintained is largely unknown, although deciphering the processes shaping the evolution of dispersal phenotypes is a key in ecology and evolution. In this study, we created artificial populations of a butterfly, in which we controlled for individual phenotypes and measured experimentally the roles of selection and genetic constraints on the correlations between dispersal- related traits: flight performance and wing morphology. We demonstrate that (i) trait covariations are not due to genetic correlations, (ii) the effects of selection are sex-specific, and (iii) both divergent and stabilizing selection maintain specific flight performance phenotypes and wing morphologies. Interestingly, some trait combinations are also favoured, depending on sex and fitness components. Moreover, we provide evidence for the role of (dis)assortative mating in the evolution of these dispersal-related traits. Our results suggest that dispersal syndromes may have high evolutionary potential, but also that they may be easily disrupted under particular environmental conditions. [ABSTRACT FROM AUTHOR]

Published

2016

11. A comparison of ancestral state reconstruction methods for quantitative characters.

Author

Royer-Carenzi, Manuela and Didier, Gilles

Subjects

*STABILIZING selection (Biological evolution), *BIOLOGICAL evolution, *BROWNIAN motion, *MAXIMUM likelihood statistics, *LEAST squares

Abstract

Choosing an ancestral state reconstruction method among the alternatives available for quantitative characters may be puzzling. We present here a comparison of seven of them, namely the maximum likelihood, restricted maximum likelihood, generalized least squares under Brownian, Brownian-with-trend and Ornstein–Uhlenbeck models, phylogenetic independent contrasts and squared parsimony methods. A review of the relations between these methods shows that the maximum likelihood, the restricted maximum likelihood and the generalized least squares under Brownian model infer the same ancestral states and can only be distinguished by the distributions accounting for the reconstruction uncertainty which they provide. The respective accuracy of the methods is assessed over character evolution simulated under a Brownian motion with (and without) directional or stabilizing selection. We give the general form of ancestral state distributions conditioned on leaf states under the simulation models. Ancestral distributions are used first, to give a theoretical lower bound of the expected reconstruction error, and second, to develop an original evaluation scheme which is more efficient than comparing the reconstructed and the simulated states. Our simulations show that: (i) the distributions of the reconstruction uncertainty provided by the methods generally make sense (some more than others); (ii) it is essential to detect the presence of an evolutionary trend and to choose a reconstruction method accordingly; (iii) all the methods show good performances on characters under stabilizing selection; (iv) without trend or stabilizing selection, the maximum likelihood method is generally the most accurate. [ABSTRACT FROM AUTHOR]

Published

2016

12. Many lncRNAs, 5’UTRs, and pseudogenes are translated and some are likely to express functional proteins.

Author

Zhe Ji, Ruisheng Song, Regev, Aviv, and Struhl, Kevin

Subjects

*GENETIC translation, *PSEUDOGENES, *STABILIZING selection (Biological evolution), *RIBOSOMES, *NON-coding RNA, *LABORATORY mice

Abstract

Using a new bioinformatic method to analyze ribosome profiling data, we show that 40% of lncRNAs and pseudogene RNAs expressed in human cells are translated. In addition, ~35% of mRNA coding genes are translated upstream of the primary protein-coding region (uORFs) and 4% are translated downstream (dORFs). Translated lncRNAs preferentially localize in the cytoplasm, whereas untranslated lncRNAs preferentially localize in the nucleus. The translation efficiency of cytoplasmic lncRNAs is nearly comparable to that of mRNAs, suggesting that cytoplasmic lncRNAs are engaged by the ribosome and translated. While most peptides generated from lncRNAs may be highly unstable byproducts without function, ~9% of the peptides are conserved in ORFs in mouse transcripts, as are 74% of pseudogene peptides, 24% of uORF peptides and 32% of dORF peptides. Analyses of synonymous and nonsynonymous substitution rates of these conserved peptides show that some are under stabilizing selection, suggesting potential functional importance. [ABSTRACT FROM AUTHOR]

Published

2015

13. Low flower-size variation in bilaterally symmetrical flowers: Support for the pollination precision hypothesis.

Author

Nikkeshi, Aoi, Kurimoto, Daiki, and Ushimaru, Atushi

Subjects

*POLLINATORS, *PLANT communities, *PLANT diversity, *STABILIZING selection (Biological evolution), FLOWER size

Abstract

PREMISE OF THE STUDY: The evolutionary shift from radial to bilateral symmetry in flowers is generally associated with the evolution of low flower-size variation. This phenomenon supports the hypothesis that the lower size variation in bilateral flowers can be attributed to low pollinator diversity. In this study, we propose two other hypotheses to explain low flower-size variation in bilateral symmetrical flowers. To test the three hypotheses, we examined the relative importance of pollinator diversity, composition, and bilateral symmetry itself as selective forces on low flower-size variation. METHODS: We examined pollinator diversity and composition and flower-size variation for 36 species in a seminatural ecosystem with high bee richness and frequent lepidopteran visitation. KEY RESULTS: Bilateral flowers were more frequently visited than radial flowers by larger bees, but functional-group diversity of the pollinators did not differ between symmetry types. Although bilateral flowers had significantly lower flower-size variation than radial flowers, flower-size variation did not vary with pollinator diversity and composition but was instead related to bilateral symmetry. CONCLUSIONS: Our results suggest that the lower size variation in bilateral flowers might have evolved under selection favoring the control of pollinator behavior on flowers to enhance the accurate placement of pollen on the body of the pollinator, independent of pollinator type. Because of the limited research on this issue, future work should be conducted in various types of plant-pollinator communities worldwide to further clarify the issue. [ABSTRACT FROM AUTHOR]

Published

2015

14. Evolutionary quantitative genetics of nonlinear developmental systems.

Author

Morrissey, Michael B.

Subjects

*QUANTITATIVE genetics, *STABILIZING selection (Biological evolution), *EPISTASIS (Genetics), *MICROEVOLUTION, *GENETIC pleiotropy

Abstract

In quantitative genetics, the effects of developmental relationships among traits on microevolution are generally represented by the contribution of pleiotropy to additive genetic covariances. Pleiotropic additive genetic covariances arise only from the average effects of alleles on multiple traits, and therefore the evolutionary importance of nonlinearities in development is generally neglected in quantitative genetic views on evolution. However, nonlinearities in relationships among traits at the level of whole organisms are undeniably important to biology in general, and therefore critical to understanding evolution. I outline a system for characterizing key quantitative parameters in nonlinear developmental systems, which yields expressions for quantities such as trait means and phenotypic and genetic covariance matrices. I then develop a system for quantitative prediction of evolution in nonlinear developmental systems. I apply the system to generating a new hypothesis for why direct stabilizing selection is rarely observed. Other uses will include separation of purely correlative from direct and indirect causal effects in studying mechanisms of selection, generation of predictions of medium-term evolutionary trajectories rather than immediate predictions of evolutionary change over single generation time-steps, and the development of efficient and biologically motivated models for separating additive from epistatic genetic variances and covariances. [ABSTRACT FROM AUTHOR]

Published

2015

15. Adaptive Fixation in Two-Locus Models of Stabilizing Selection and Genetic Drift.

Author

Wollstein, Andreas and Stephan, Wolfgang

Subjects

*STABILIZING selection (Biological evolution), *NATURAL selection, *BIOLOGICAL evolution, *GENETIC drift, *GENE frequency

Abstract

The relationship between quantitative genetics and population genetics has been studied for nearly a century, almost since the existence of these two disciplines. Here we ask to what extent quantitative genetic models in which selection is assumed to operate on a polygenic trait predict adaptive fixations that may lead to footprints in the genome (selective sweeps). We study two-locus models of stabilizing selection (with and without genetic drift) by simulations and analytically. For symmetric viability selection we find that ~16% of the trajectories may lead to fixation if the initial allele frequencies are sampled from the neutral site-frequency spectrum and the effect sizes are uniformly distributed. However, if the population is preadapted when it undergoes an environmental change (i.e., sits in one of the equilibria of the model), the fixation probability decreases dramatically. In other two-locus models with general viabilities or an optimum shift, the proportion of adaptive fixations may increase to >24%. Similarly, genetic drift leads to a higher probability of fixation. The predictions of alternative quantitative genetics models, initial conditions, and effect-size distributions are also discussed. [ABSTRACT FROM AUTHOR]

Published

2014

16. Indirect costs counteract the effects of pollinator-mediated phenotypic selection on corolla size in the Mediterranean shrub Halimium atriplicifolium.

Author

Teixido, Alberto L.

Subjects

COROLLA (Botany), SHRUBS, OVERHEAD costs, POLLINATORS, PHENOTYPIC plasticity in plants, STABILIZING selection (Biological evolution)

Abstract

Aims Larger corollas receive more pollinator visits but involve higher production and maintenance costs, especially under hot and dry conditions. This can result in indirect costs on reproductive output, which may counteract the effects of pollinator-mediated phenotypic selection on corolla size. In this study, I explored the relationship between corolla size and indirect costs and whether these costs counteract the effects of pollinator-mediated phenotypic selection on this trait in the Mediterranean shrub Halimium atriplicifolium. I hypothesized that (i) corolla production entails direct costs in dry mass, N and P, (ii) corollas entail significant indirect costs in terms of fruit and seed production, (iii) indirect costs increase with corolla size, (iv) this species may suffer pollen limitation to a certain degree and (v) indirect costs counteract the effects of pollinator-mediated selection on corolla size. Methods I compared fruit set and seed production of petal-removed flowers (R flowers) and unmanipulated control flowers (C flowers) and evaluated the influence of individual mean corolla size on relative fruit and seed gain of R compared to C flowers. I also estimated phenotypic selection on corolla size mediated by indirect costs and the combined effect of costs and pollinators (i.e. total selection). Important Findings Corollas allocated sizeable amount of resources in terms of dry mass relative to the other floral structures. Fruit set and seed per fruit were significantly higher in R flowers, while individual mean corolla size showed a positive relationship with relative fruit gain. Phenotypic selection analysis revealed cost-mediated negative directional selection and absence of positive directional total selection on corolla size through fruit set. This translated into stabilizing total selection. These results suggest that Mediterranean environments can impose constraints on corolla size, counteracting advantages of larger corollas from the pollination point of view with increased indirect costs of such flowers. [ABSTRACT FROM AUTHOR]

Published

2014

17. An assay for quantitative virulence in Rhynchosporium commune reveals an association between effector genotype and virulence.

Author

Stefansson, T. S., Willi, Y., Croll, D., and McDonald, B. A.

Subjects

*GENETICS, *BIOLOGICAL evolution, *HOST-parasite relationships, *BARLEY leaf scald disease, *RHYNCHOSPORIUM, *MICROSATELLITE repeats, *STABILIZING selection (Biological evolution)

Abstract

Detailed knowledge of the evolutionary genetics of virulence is needed to understand and predict host-pathogen dynamics. This study used a virulence assay based on digital image analysis and treated virulence as a quantitative rather than a binary trait. Such quantitative data may better reflect the genetic underpinning of virulence in many pathogen systems and provide better resolution in statistical investigations. A greenhouse experiment based on a common garden design was conducted to measure virulence (% of leaf area covered by lesions) of 126 genetically distinct isolates of the barley scald pathogen, Rhynchosporium commune, originating from nine field populations around the world. Virulence in this pathosystem was found to be a quantitative trait with a continuous distribution in all populations. By comparing population genetic differentiation for virulence and neutral microsatellite markers (i.e. a QST/ GST comparison), evidence that virulence is under stabilizing selection across populations was found. Heritability values were high and ranged from 0·52 to 0·96 with a mean heritability of 0·84. Virulence was positively correlated with spore production as predicted by the trade-off theory of virulence evolution. Furthermore, an association analysis between virulence and sequence haplotypes of three known necrosis-inducing effector genes ( NIP1, NIP2 and NIP3) revealed a significant effect of NIP2 haplotypes and NIP1 deletions. Overall, the results support a quantitative model for virulence in the R. commune-barley pathosystem and very high evolutionary potential for this trait. [ABSTRACT FROM AUTHOR]

Published

2014

18. The signs of change in economic evolution.

Author

Andersen, Esben and Holm, Jacob

Subjects

EVOLUTIONARY economics, POPULATION & economics, ANALYSIS of covariance, DISTRIBUTION (Probability theory), STABILIZING selection (Biological evolution)

Abstract

Neo-Schumpeterian evolutionary economics has, since the early works of Nelson and Winter, defined evolution as the change of the mean of a characteristic of a population. This paper trancends the previous paradigm and explores novel aspects of evolution in economics. Within the traditional paradigm change is provided by directional selection (and directional innovation). However, the full definition of evolutionary processes has to include two important types of selection that change the variance without necessarily changing the mean. Stabilizing selection removes any outlier and diversifying selection promotes the coexistence of behavioural variants. This paper emphasizes the need for an integrated analysis of all three types of selection. It also demonstrates that the evolutionary algebra provided by Price's equation increases the intellectual coherence and power of thinking about selection and other aspects of evolutionary processes. Directional, stabilizing and diversifying selection are then related to fitness functions that can produce the different types of selection; and the functions are used for simple simulations of the change of the population distribution of a quantitative characteristic. Finally, the paper adds to evolutionary economics a novel way of using Price's equation to decompose the statistics of the changes of the frequency distributions. The changes of mean, variance, skewness and kurtosis are all decomposed as the sum of a selection effect and an intra-member effect. It is especially the signs of these effects that serve to define and characterize the different types of selection. Both this result and the general analysis of the types of selection are of relevance for applied evolutionary economics. [ABSTRACT FROM AUTHOR]

Published

2014

19. A Mixed Exam Format Closes the Gap for Students with a Conflict between Their Religious Belief & the Theory of Evolution.

Author

STANGER-HALL, KATHRIN F. and WENNER, JULIANNE A.

Subjects

*EVOLUTION research, *EVOLUTIONARY theories, *HIV, *STABILIZING selection (Biological evolution), *BIOLOGICAL fitness, *BIOLOGY education

Abstract

We assessed the performance of students with a self-reported conflict between their religious belief and the theory of evolution in two sections of a large introductory biology course (N = 373 students). Student performance was measured through pretest and posttest evolution essays and multiple-choice (MC) questions (evolution-related and non-evolution-related questions) on the final exam and posttest. The two class sections differed only in exam format: MC with or without constructed-response (CR) questions. Although students with a reported conflict scored significantly lower on the final exam in the MC-only section, they scored equally well in the MC+CR section, and all students in the MC+CR section performed significantly better overall. As a result, (1) a religious conflict with evolution can be negatively associated with student achievement in introductory biology, but (2) assessment with constructed response was associated with a closed performance gap between students with and without a conflict. We suggest that differences in exam format and focus on student acceptance of evolution (either evidence-based or opinion), rather than reported conflict, may contribute to the inconsistencies in student learning of evolution across research studies, and that CR questions may help students overcome other obstacles to learning evolution. [ABSTRACT FROM AUTHOR]

Published

2014

20. Mutual mate choice in the Asiatic toad, Bufo gargarizans, exerts stabilizing selection on body size.

Author

Luo, Zhenhua, Li, Chenliang, Wang, Hui, Zhao, Mian, Gu, Qi, Gu, Zhirong, Liao, Chunlin, and Wu, Hua

Subjects

*ANIMAL courtship, *BUFONIDAE, *STABILIZING selection (Biological evolution), *SEXUAL selection, *ANURA, *COMPETITION (Biology), *REPRODUCTION

Abstract

Sexual selection is critical to both reproduction and evolution. The effects of male-male competition and female choice regarding body size have been examined in a large number of taxa, including toad species. Males and females have different optimal reproductive strategies, achieving breeding advantages in discrepant ways. Further, the relative contributions of intra- and inter-sexual size selection vary among species. Thus, to understand the mechanisms affecting mating success, it is important to consider both male-male and male-female interactions simultaneously and elucidate their interrelationship. In this study, we measured body sizes of all mated and unmated individuals in a population of Asiatic toad ( Bufo gargarizans) and counted fertilized eggs of several clutches. Based on correlation and regression techniques, we tested for female choice and intra-sexual competition among males relative to body size gradients, and we compared the relative importance of these two processes for mating success. Our results reveal that male-male competition and female choice simultaneously contribute to sexual selection in toads. Furthermore, both interactions are most intense among smaller toads. The synergistic trends of male-male competition and female choice support the mutual mate choice hypothesis and works to stabilize body size in B. gargarizans. Normal distributions of breeding success relative to body size were detected for both sexes, suggesting that medium-sized individuals enjoy a reproductive advantage in the population studied. [ABSTRACT FROM AUTHOR]

Published

2014

21. WHY EPISTASIS IS IMPORTANT FOR SELECTION AND ADAPTATION.

Author

Hansen, Thomas F.

Subjects

*GENETICS, *BIOLOGICAL evolution, *EPISTASIS (Genetics), *GENE mapping, *PHENOTYPIC plasticity, *STABILIZING selection (Biological evolution), *BIOLOGICAL adaptation, *QUANTITATIVE genetics, *GENE expression

Abstract

Organisms are built from thousands of genes that interact in complex ways. Still, the mathematical theory of evolution is dominated by a gene-by-gene perspective in which genes are assumed to have the same effects regardless of genetic background. Gene interaction, or epistasis, plays a role in some theoretical developments such as the evolution of recombination, reproductive isolation, and canalization, but is strikingly missing from our standard accounts of phenotypic adaptation. This absence is most puzzling within the field of quantitative genetics, which, despite its polygenic perspective and elaborate statistical representation of epistasis, has not found a single important role for gene interaction in evolution. To the contrary, there is a widespread consensus that epistasis is evolutionary inert, and that all we need to know to predict evolutionary dynamics is the additive component of the genetic variance. This view may have roots in convenience, but also in theoretical results showing that the response to selection derived from epistatic variance components is not permanent and will decay when selection is relaxed. I show that these results are tied to a conceptual confusion, and are misleading as general statements about the significance of epistasis for the selection response and adaptation. [ABSTRACT FROM AUTHOR]

Published

2013

22. Variation in Apical Hook Length Reflects the Intensity of Sperm Competition in Murine Rodents.

Author

Šandera, Martin, Albrecht, Tomáš, and Stopka, Pavel

Subjects

*SPERM competition, *SEXUAL selection, *SPERMATOZOA, *PHENOTYPES, *PROMISCUITY, *STABILIZING selection (Biological evolution), *BIOLOGICAL variation

Abstract

Background: Post-copulatory sexual selection has been shown to shape morphology of male gametes. Both directional and stabilizing selection on sperm phenotype have been documented in vertebrates in response to sexual promiscuity. Methodology: Here we investigated the degree of variance in apical hook length and tail length in six taxa of murine rodents. Conclusions: Tail sperm length and apical hook length were positively associated with relative testis mass, our proxy for levels of sperm competition, thus indicating directional post-copulatory selection on sperm phenotypes. Moreover, our study shows that increased levels of sperm competition lead to the reduction of variance in the hook length, indicating stabilizing selection. Hence, the higher risk of sperm competition affects increasing hook length together with decreasing variance in the hook length. Species-specific post-copulatory sexual selection likely optimizes sperm morphology. [ABSTRACT FROM AUTHOR]

Published

2013

23. THE EVOLUTION OF GENES IN BRANCHED METABOLIC PATHWAYS.

Author

Rausher, Mark D.

Subjects

*BIOLOGICAL evolution, *SIMULATION methods & models, *STABILIZING selection (Biological evolution), *METABOLIC regulation, *MICHAELIS-Menten equation, *PREDICTION theory, *STATISTICAL hypothesis testing

Abstract

Simulation models of the evolution of genes in a branched metabolic pathway subject to stabilizing selection on flux are described and analyzed. The models are based either on metabolic control theory (MCT), with the assumption that enzymes are far from saturation, or on Michaelis-Menten kinetics, which allows for saturation and near saturation. Several predictions emerge from the models: (1) flux control evolves to be concentrated at pathway branch points, including the first enzyme in the pathway. (2) When flux is far from its optimum, adaptive substitutions occur disproportionately often in branching enzymes. (3) When flux is near its optimum, adaptive substitutions occur disproportionately often in nonbranching enzymes. (4) Slightly deleterious substitutions occur disproportionately often in nonbranching enzymes. (5) In terms of both flux control and patterns of substitution, pathway branches are similar to those predicted for linear pathways. These predictions provide null hypotheses for empirical examination of the evolution of genes in metabolic pathways. [ABSTRACT FROM AUTHOR]

Published

2013

24. QST < FST As a signature of canalization.

Author

Lamy, Jean-Baptiste, Plomion, Christophe, Kremer, Antoine, and Delzon, Sylvain

Subjects

*BIOLOGICAL evolution, *NATURAL selection, *QUANTITATIVE genetics, *GENETIC markers, *PHYLOGENY, *STABILIZING selection (Biological evolution)

Abstract

A key aim of evolutionary biology - inferring the action of natural selection on wild species - can be achieved by comparing neutral genetic differentiation between populations ( FST) with quantitative genetic variation ( QST). Each of the three possible outcomes of comparisons of QST and FST ( QST > FST, QST = FST, QST < FST) is associated with an inference (diversifying selection, genetic drift, uniform selection, respectively). However, published empirical and theoretical studies have focused on the QST > FST outcome. We believe that this reflects the absence of a straightforward biological interpretation of the QST < FST pattern. We here report recent evidence of this neglected evolutionary pattern, provide guidelines to its interpretation as either a canalization phenomenon or a consequence of uniform selection and discuss the significant importance this issue will have for the area of evolutionary biology. [ABSTRACT FROM AUTHOR]

Published

2012

25. COMPARISON OF NON-GAUSSIAN QUANTITATIVE GENETIC MODELS FOR MIGRATION AND STABILIZING SELECTION.

Author

Huisman, Jisca and Tufto, Jarle

Subjects

*QUANTITATIVE genetics, *GAUSSIAN processes, *STABILIZING selection (Biological evolution), *GENE expression, *COMPARATIVE studies, *PARSIMONIOUS models, *LOCUS (Genetics)

Abstract

The balance between stabilizing selection and migration of maladapted individuals has formerly been modeled using a variety of quantitative genetic models of increasing complexity, including models based on a constant expressed genetic variance and models based on normality. The infinitesimal model can accommodate nonnormality and a nonconstant genetic variance as a result of linkage disequilibrium. It can be seen as a parsimonious one-parameter model that approximates the underlying genetic details well when a large number of loci are involved. Here, the performance of this model is compared to several more realistic explicit multilocus models, with either two, several or a large number of alleles per locus with unequal effect sizes. Predictions for the deviation of the population mean from the optimum are highly similar across the different models, so that the non-Gaussian infinitesimal model forms a good approximation. It does, however, generally estimate a higher genetic variance than the multilocus models, with the difference decreasing with an increasing number of loci. The difference between multilocus models depends more strongly on the effective number of loci, accounting for relative contributions of loci to the variance, than on the number of alleles per locus. [ABSTRACT FROM AUTHOR]

Published

2012

26. Using the direct and indirect control to stabilize some classes of uncertain systems. II. Pulse and discrete systems.

Author

Gelig, A. and Zuber, I.

Subjects

*UNCERTAIN system stability, *DISCRETE systems, *STABILIZING selection (Biological evolution), *LYAPUNOV functions, *AVERAGING method (Differential equations)

Abstract

Consideration was given to several classes of the uncertain pulse systems with a sufficiently high impulsing frequency. Direct and indirect stabilizing controls that are robust to the plant matrix were constructed using the quadratic Lyapunov functions and the method of averaging. Direct stabilizing control was constructed for some classes of the uncertain discrete systems. [ABSTRACT FROM AUTHOR]

Published

2012

27. The design of digital stabilizing regulators for continuous systems based on the Lyapunov function approach.

Author

Sedova, N.

Subjects

*STABILIZING selection (Biological evolution), *REGULATORS (Mathematics), *LYAPUNOV functions, *PIECEWISE linear topology, *DISCRETE systems

Abstract

New results regarding asymptotic stability of continuous systems with piecewise constant control are derived. The results are expressed in terms of the Lyapunov-Razumikhin functions, taking into account the specifics of the selected type of control. Certain illustrative examples are provided. [ABSTRACT FROM AUTHOR]

Published

2012

28. Recognition of variable courtship song in the field cricket Gryllus assimilis.

Author

Vedenina, Varvara Yu. and Pollack, Gerald S.

Subjects

*INSECT physiology, *GRYLLUS, *COURTSHIP, *TICKS, *ACOUSTIC nerve, *STABILIZING selection (Biological evolution), *INTERNEURONS, *INSECTS

Abstract

We analyzed the courtship song of the field cricket Gryllus assimilis. The song comprises two elements: groups of ca. 10 pulses (chirps) with low fundamental frequency {3.5-3.7kHz) alternating with high-frequency (15-17kHz) pulses (ticks) that usually occur as doublets. Some elements of courtship song are quite variable (high coefficient of variation) both within and between males, whereas others are more stereotypical. In experiments with playback of synthesized courtship songs, we studied the importance of several song parameters for mating success, which we evaluated as the probability with which females mounted muted, courting males. Altering some features that show little variability, such as chirp-pulse rate or carrier frequency of ticks, resulted in significant decreases in mounting frequency, consistent with the notion that trait values showing little variability are constrained by stabilizing selection exerted by females. However, alteration of one invariant trait, the occurrence of both song cof-onents, by omitting either component from test songs only slightly affected female responsiveness. Alteration of a variable song trait, the number of ticks per song phrase, had no effect on female response rate, thus failing to provide support for the idea that variable traits provide a substrate for sexual selection. An unusual characteristic feature of the song of G. assimilis is that chirp pulses often contain substantial high-frequency power, and indeed may entirely lack power at the fundamental frequency. Playback experiments showed that such songs are, nevertheless, behaviorally effective. To understand the neural basis for this, we recorded the responses of the two principal ascending auditory interneurons of crickets, ANI and AN2. Our results suggest that the frequency selectivity of the neurons is sufficiently broad to tolerate the spectral variability of courtship chirps. [ABSTRACT FROM AUTHOR]

Published

2012