Brain size predicts the success of mammal species introduced into novel environments.
about
Integrating brain, behavior, and phylogeny to understand the evolution of sensory systems in birdsPlasticity-mediated persistence in new and changing environmentsHow Can We Study the Evolution of Animal Minds?Testing the stages model in the adaptive radiation of cichlid fishes in East African Lake TanganyikaThe evolution of self-controlElephants can determine ethnicity, gender, and age from acoustic cues in human voices.Brains, innovations, tools and cultural transmission in birds, non-human primates, and fossil homininsDevelopmental constraints on behavioural flexibilityBrain reorganization, not relative brain size, primarily characterizes anthropoid brain evolutionClimatic patterns predict the elaboration of song displays in mockingbirds.Evolution and behavioural responses to human-induced rapid environmental change.Smart moves: effects of relative brain size on establishment success of invasive amphibians and reptilesPrimate brain size is predicted by diet but not socialityBrains, brawn and sociality: a hyaena's taleIs bigger always better? A critical appraisal of the use of volumetric analysis in the study of the hippocampusHigh individual consistency in fear of humans throughout the adult lifespan of rural and urban burrowing owls.Touch screen assays of behavioural flexibility and error characteristics in Eastern grey squirrels (Sciurus carolinensis).The evolution of general intelligence.Evolutionary divergence in brain size between migratory and resident birds.Sex, ecology and the brain: evolutionary correlates of brain structure volumes in Tanganyikan cichlidsBrains and the city: big-brained passerine birds succeed in urban environments.Inter-individual variability in fear of humans and relative brain size of the species are related to contemporary urban invasion in birds.Exploring or avoiding novel food resources? The novelty conflict in an invasive birdComparing determinants of alien bird impacts across two continents: implications for risk assessment and managementDesiccation risk drives the spatial ecology of an invasive anuran (Rhinella marina) in the Australian semi-desert.The paradox of invasion in birds: competitive superiority or ecological opportunism?Large brains buffer energetic effects of seasonal habitats in catarrhine primates.Hotter nests produce smarter young lizardsDifferences in evolutionary history translate into differences in invasion success of alien mammals in South Africa.TEASIng apart alien species risk assessments: a framework for best practices.Tracking changing environments: innovators are fast, but not flexible learners.A larger brain confers a benefit in a spatial mate search learning task in male guppiesThe diversification of Heliconius butterflies: what have we learned in 150 years?The role of life history traits in mammalian invasion success.Key Questions on the Role of Phenotypic Plasticity in Eco-Evolutionary Dynamics.Know when to run, know when to hide: can behavioral differences explain the divergent invasion success of two sympatric lizards?Brain development and predation: plastic responses depend on evolutionary history.The reluctant innovator: orangutans and the phylogeny of creativity.Large-brained birds suffer less oxidative damage.Brain size affects female but not male survival under predation threat.
P2860
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P2860
Brain size predicts the success of mammal species introduced into novel environments.
description
2008 nî lūn-bûn
@nan
2008 թուականի Յուլիսին հրատարակուած գիտական յօդուած
@hyw
2008 թվականի հուլիսին հրատարակված գիտական հոդված
@hy
2008年の論文
@ja
2008年論文
@yue
2008年論文
@zh-hant
2008年論文
@zh-hk
2008年論文
@zh-mo
2008年論文
@zh-tw
2008年论文
@wuu
name
Brain size predicts the success of mammal species introduced into novel environments.
@ast
Brain size predicts the success of mammal species introduced into novel environments.
@en
type
label
Brain size predicts the success of mammal species introduced into novel environments.
@ast
Brain size predicts the success of mammal species introduced into novel environments.
@en
prefLabel
Brain size predicts the success of mammal species introduced into novel environments.
@ast
Brain size predicts the success of mammal species introduced into novel environments.
@en
P50
P356
P1476
Brain size predicts the success of mammal species introduced into novel environments.
@en
P2093
Louis Lefebvre
P304
P356
10.1086/588304
P478
172 Suppl 1
P577
2008-07-01T00:00:00Z