Search results for "evolutionary simulation"

showing 2 items of 2 documents

Consequences of single-locus and tightly linked genomic architectures for evolutionary responses to environmental change

2020

AbstractGenetic and genomic architectures of traits under selection are key factors influencing evolutionary responses. Yet, knowledge of their impacts has been limited by a widespread assumption that most traits are controlled by unlinked polygenic architectures. Recent advances in genome sequencing and eco-evolutionary modelling are unlocking the potential for integrating genomic information into predictions of population responses to environmental change. Using eco-evolutionary simulations, we demonstrate that hypothetical single-locus control of a life history trait produces highly variable and unpredictable harvesting-induced evolution relative to the classically applied multi-locus mo…

0301 basic medicineAcademicSubjects/SCI011400106 biological sciencesLinkage disequilibriumMultifactorial Inheritanceevolutionary simulationEnvironmental changeGenetic LinkageJhered/401 natural sciencesGenetics (clinical)recombination rate0303 health scienceseducation.field_of_studystructural genomic variationInheritance (genetic algorithm)Adaptation PhysiologicalBiological Evolutionclimate changePerspectiveTraitympäristönmuutoksetBiotechnologyPopulationevoluutioEnvironmentBiology010603 evolutionary biologyLife history theory03 medical and health sciencesVDP::Matematikk og Naturvitenskap: 400::Basale biofag: 470GeneticsEvolutionary dynamicseducationMolecular BiologySelection (genetic algorithm)030304 developmental biologygeenitModels GeneticGenetic Driftilmastonmuutoksetgenetic architectureGenetic architectureEditor's Choice030104 developmental biologyEvolutionary biologyperimäGene-Environment InteractionAdaptationlinkage disequilibrium
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No synergy needed: ecological constraints favor the evolution of eusociality.

2015

In eusocial species, some individuals sacrifice their own reproduction for the benefit of others. It has been argued that the evolution of sterile helpers in eusocial insects requires synergistic efficiency gains through cooperation that are uncommon in cooperatively breeding vertebrates and that this precludes a universal ecological explanation of social systems with alloparental care. In contrast, using a model that incorporates realistic ecological mechanisms of population regulation, we show here that constraints on independent breeding (through nest-site limitation and dispersal mortality) eliminate any need for synergistic efficiency gains: sterile helpers may evolve even if they are …

Maleevolutionary simulationEvolution of eusocialityhelpingPopulationAltruism (biology)BiologyModels BiologicalNesting BehavioraltruismiCooperative breedingAnimalsCooperative BehavioreducationSocial Behaviorsocial evolutionEcology Evolution Behavior and Systematicsauttamineneducation.field_of_studyPloidiesecological constraintsEcologyReproductionHelping BehaviorEusocialityBiological EvolutionaltruismSocial systemBiological dispersalta1181FemaleGenetic FitnessSocial evolutionThe American naturalist
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