| scholarly article | Q13442814 |
| P6179 | Dimensions Publication ID | 1023054517 |
| P356 | DOI | 10.1038/NATURE09449 |
| P953 | full work available at URL | http://www.nature.com/articles/nature09449 |
| http://www.nature.com/articles/nature09449.pdf | ||
| P698 | PubMed publication ID | 20944628 |
| P5875 | ResearchGate publication ID | 47415509 |
| P50 | author | Lutz Becks | Q46242723 |
| P2093 | author name string | Aneil F. Agrawal | |
| P2860 | cites work | The Evolutionary Enigma of Sex | Q22066104 |
| Interference among deleterious mutations favours sex and recombination in finite populations | Q22122238 | ||
| Sex increases the efficacy of natural selection in experimental yeast populations | Q22122472 | ||
| Sex releases the speed limit on evolution | Q22122522 | ||
| Evolution of sex: why do organisms shuffle their genotypes? | Q28261551 | ||
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| The evolutionary advantage of recombination. II. Individual selection for recombination | Q42974108 | ||
| Increased recombination frequencies resulting from directional selection for geotaxis in Drosophila | Q50115982 | ||
| Differences between selection on sex versus recombination in red queen models with diploid hosts. | Q50608260 | ||
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| Crossing the hopf bifurcation in a live predator-prey system. | Q52071518 | ||
| The theoretical population genetics of variable selection and migration | Q52863175 | ||
| Deleterious mutations as an evolutionary factor: 1. The advantage of recombination | Q56341012 | ||
| SELECTION FOR RECOMBINATION IN SMALL POPULATIONS | Q63379851 | ||
| Experimental evidence for the adaptive value of sexual reproduction | Q68244634 | ||
| Classification of hypotheses on the advantage of amphimixis | Q70503887 | ||
| The effect of linkage on limits to artificial selection | Q72951099 | ||
| Migration versus mutation in the evolution of recombination under multilocus selection | Q77149156 | ||
| Selection for recombination in small populations | Q77401068 | ||
| Short- and long-term benefits and detriments to recombination under antagonistic coevolution | Q80231867 | ||
| P433 | issue | 7320 | |
| P407 | language of work or name | English | Q1860 |
| P921 | main subject | evolution | Q1063 |
| P304 | page(s) | 89-92 | |
| P577 | publication date | 2010-10-13 | |
| P1433 | published in | Nature | Q180445 |
| P1476 | title | Higher rates of sex evolve in spatially heterogeneous environments | |
| P478 | volume | 468 |
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| Q28742040 | Cryptic sexual populations account for genetic diversity and ecological success in a widely distributed, asexual fungus-growing ant |
| Q38018134 | Current hypotheses for the evolution of sex and recombination |
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| Q35895511 | Does the avoidance of sexual costs increase fitness in asexual invaders? |
| Q46592456 | Eco-evolutionary feedback promotes Red Queen dynamics and selects for sex in predator populations. |
| Q39675173 | Evolution of sex: Using experimental genomics to select among competing theories |
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| Q33877473 | Experimental Evolution with Caenorhabditis Nematodes. |
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| Q48155499 | General environmental heterogeneity as the explanation of sexuality? Comparative study shows that ancient asexual taxa are associated with both biotically and abiotically homogeneous environments |
| Q42698149 | Genomics of Natural Populations: Evolutionary Forces that Establish and Maintain Gene Arrangements in Drosophila pseudoobscura. |
| Q37456378 | Habitat heterogeneity favors asexual reproduction in natural populations of grassthrips |
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| Q37684612 | Interlocus sexually antagonistic coevolution can create indirect selection for increased recombination |
| Q36754889 | Inventory and phylogenetic analysis of meiotic genes in monogonont rotifers |
| Q42236265 | Just like the rest of evolution in Mother Nature, the evolution of cancers may be driven by natural selection, and not by haphazard mutations |
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| Q35457373 | Loss of sexual recombination and segregation is associated with increased diversification in evening primroses |
| Q34450640 | Multiple mating but not recombination causes quantitative increase in offspring genetic diversity for varying genetic architectures |
| Q37369438 | Patterns and dynamics of rapid local adaptation and sex in varying habitat types in rotifers |
| Q46737421 | Rapid adaptation of herbivore consumers to nutrient limitation: eco-evolutionary feedbacks to population demography and resource control |
| Q34036864 | Reassortment of CRISPR repeat-spacer loci in Sulfolobus islandicus |
| Q46625832 | Sex at the origin: an Asian population of the rice blast fungus Magnaporthe oryzae reproduces sexually |
| Q33757377 | Sex initiates adaptive evolution by recombination between beneficial loci |
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| Q30606317 | Synaptonemal complex extension from clustered telomeres mediates full-length chromosome pairing in Schmidtea mediterranea. |
| Q36990499 | Temporal dynamics of outcrossing and host mortality rates in host-pathogen experimental coevolution |
| Q58725917 | The Genome of the Human Pathogen Is Shaped by Mutation and Cryptic Sexual Recombination |
| Q36000559 | The Integral Role of Genetic Variation in the Evolution of Outcrossing in the Caenorhabditis elegans-Serratia marcescens Host-Parasite System |
| Q46472951 | The consequences of facultative sex in a prey adapting to predation |
| Q33831372 | The ecology of sexual reproduction |
| Q37822889 | The effect of sex on the mean and variance of fitness in facultatively sexual rotifers |
| Q36274907 | The effect of sex on the repeatability of evolution in different environments |
| Q35911799 | The evolution of obligate sex: the roles of sexual selection and recombination |
| Q31061059 | The evolution of sex is favoured during adaptation to new environments |
| Q44997442 | The link between environmental variation and evolutionary shifts in dormancy in zooplankton |
| Q90431025 | Turnover in local parasite populations temporarily favors host outcrossing over self-fertilization during experimental evolution |
| Q59036810 | Variety sparks sexual evolution |
| Q38952360 | What does the geography of parthenogenesis teach us about sex? |
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