Search results for "lcsh:Evolution"

showing 4 items of 34 documents

Individual differences in behavioral consistency are related to sequential access to resources and body condition in a producer-scrounger game

2014

Investigating the evolution of consistent between-individual behavioral differences necessitates to explain the emergence of within-individual consistency. Relying on a recent mathematical model, we here test the prediction that the emergence of differences in within-individual consistency is related to the sequential access to resources in a frequency-dependent foraging game. To this end we used flocks of zebra finches (Taeniopygia guttata) engaged in a producer-scrounger foraging game. Tactic investment (i.e., the proportion of hops with the head down) significantly predicted successful tactic use (i.e., the proportion of seeds produced). In support of predictions, we found that individua…

media_common.quotation_subjectForaginglcsh:EvolutionEcology and EvolutionVariation (game tree)explorationConsistency (negotiation)lcsh:QH540-549.5state-dependencelcsh:QH359-425PersonalityBig Five personality traitsTaeniopygia guttataEcology Evolution Behavior and Systematicsmedia_commonbehavioral flexibilitybiologyEcologyEcologyFlexibility (personality)biology.organism_classificationSequential accessintra-individual variabilitypersonalitylcsh:Ecologybody conditionPsychologysocial foragingTaeniopygiaCognitive psychologyFrontiers in Ecology and Evolution
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Sequential infection can decrease virulence in a fish–bacterium–fluke interaction: Implications for aquaculture disease management

2019

Hosts are typically infected with multiple strains or genotypes of one or several parasite species. These infections can take place simultaneously, but also at different times, i.e. sequentially, when one of the parasites establishes first. Sequential parasite dynamics are common in nature, but also in intensive farming units such as aquaculture. However, knowledge of effects of previous exposures on virulence of current infections in intensive farming is very limited. This is critical as consecutive epidemics and infection history of a host could underlie failures in management practises and medical intervention of diseases. Here, we explored effects of timing of multiple infection on viru…

sequential infectionaquaculturelcsh:Evolutionlcsh:QH359-425epidemiologymultiple infectionmultiple infectionsepidemiologiadynamic infectionspatiotemporal variationvesiviljely (kalatalous)infektiot
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Editorial: From Meristems to Floral Diversity: Developmental Options and Constraints

2021

spatial constraintsEcologymeristem expansionmedia_common.quotation_subjectlcsh:EvolutionBiologyMeristemmeristem identityfloral unit meristemEvolutionary biologylcsh:QH540-549.5heterochronylcsh:QH359-425lcsh:Ecologyflower meristemHeterochronyEcology Evolution Behavior and SystematicsDiversity (politics)media_commonFrontiers in Ecology and Evolution
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Chemicals and chemoreceptors: ecologically relevant signals driving behavior in Drosophila

2015

Insects encounter a vast repertoire of chemicals in their natural environment, which can signal positive stimuli like the presence of a food source, a potential mate, or a suitable oviposition site as well as negative stimuli such as competitors, predators, or toxic substances reflecting danger. The presence of specialized chemoreceptors like taste and olfactory receptors allows animals to detect chemicals at short and long distances and accordingly, trigger proper behaviors toward these stimuli. Since the first description of olfactory and taste receptors in Drosophila melanogaster 15 years ago, our knowledge on the identity, properties, and function of specific chemoreceptors has increase…

tastelcsh:QH540-549.5receptorfungilcsh:Evolutionlcsh:QH359-425Ecology and EvolutionDrosophilalcsh:Ecologyecological nicherepulsionOlfactionattractionFrontiers in Ecology and Evolution
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