Locomotor performance in an invasive species: cane toads from the invasion front have greater endurance, but not speed, compared to conspecifics from a long-colonised area.
about
Conciliation biology: the eco-evolutionary management of permanently invaded biotic systemsDoes greater thermal plasticity facilitate range expansion of an invasive terrestrial anuran into higher latitudes?Rapid differentiation of sexual signals in invasive toads: call variation among populationsIt is lonely at the front: contrasting evolutionary trajectories in male and female invadersThermal ecological physiology of native and invasive frog species: do invaders perform better?Expanding population edges: theories, traits, and trade-offs.Food availability determines the response to pond desiccation in anuran tadpoles.The early toad gets the worm: cane toads at an invasion front benefit from higher prey availability.Propagule pressure and climate contribute to the displacement of Linepithema humile by Pachycondyla chinensis.An evolutionary process that assembles phenotypes through space rather than through time.A genetic perspective on rapid evolution in cane toads (Rhinella marina).Invasive species as drivers of evolutionary change: cane toads in tropical Australia.Constructing an Invasion Machine: The Rapid Evolution of a Dispersal-Enhancing Phenotype During the Cane Toad Invasion of Australia.The genetics of phenotypic plasticity. XI. Joint evolution of plasticity and dispersal rate.Consequences of life history switch point plasticity for juvenile morphology and locomotion in the TĂșngara frog.Moving south: effects of water temperatures on the larval development of invasive cane toads (Rhinella marina) in cool-temperate Australia.Cane toads lack physiological enhancements for dispersal at the invasive front in Northern Australia.Is the enhanced dispersal rate seen at invasion fronts a behaviourally plastic response to encountering novel ecological conditions?Effects of invasion history on physiological responses to immune system activation in invasive Australian cane toads.Overland movement in African clawed frogs (Xenopus laevis): empirical dispersal data from within their native range.Methods for invasive species control are transferable across invaded areas.Molecular characterization of MHC class II in the Australian invasive cane toad reveals multiple splice variants.Living up to its name? The effect of salinity on development, growth, and phenotype of the "marine" toad (Rhinella marina).The things they carried: The pathogenic effects of old and new parasites following the intercontinental invasion of the Australian cane toad (Rhinella marina).Is the behavioural divergence between range-core and range-edge populations of cane toads (Rhinella marina) due to evolutionary change or developmental plasticity?'Stick with your own kind, or hang with the locals?' Implications of shoaling strategy for tropical reef fish on a range-expansion frontline.Rapid changes in phenotype distribution during range expansion in a migratory bird.The thermal dependency of locomotor performance evolves rapidly within an invasive species.Geographic divergence in dispersal-related behaviour in cane toads from range-front versus range-core populations in AustraliaAssessing upstream invasion risk in alien freshwater fishes based on intrinsic variations in swimming speed performanceAthletic anurans: the impact of morphology, ecology and evolution on climbing ability in invasive cane toadsTracking invasive animals with electronic tags to assess risks and develop management strategiesVariation in native crayfish agonistic response to the invasion of the rusty crayfish Orconectes rusticus (Girard, 1852)Improving science-based invasive species management with physiological knowledge, concepts, and toolsTo boldly go where no goby has gone before: boldness, dispersal tendency, and metabolism at the invasion frontA spatio-temporal contrast of the predatory impact of an invasive freshwater crustaceanEffect of Rhabdias pseudosphaerocephala on prey consumption of free-ranging cane toads (Rhinella marina) during Australian tropical wet seasonsTyphoid Mary in the frogpond: can we use native frogs to disseminate a lungworm biocontrol for invasive cane toads?Hydric balance and locomotor performance of an anuran (Rhinella marina) invading the Australian arid zoneNonnative African jewelfish are more fit but not bolder at the invasion front: a trait comparison across an Everglades range expansion
P2860
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P2860
Locomotor performance in an invasive species: cane toads from the invasion front have greater endurance, but not speed, compared to conspecifics from a long-colonised area.
description
2009 nß lƫn-bûn
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2009ćčŽăźè«æ
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name
Locomotor performance in an in ...... cs from a long-colonised area.
@en
Locomotor performance in an in ...... cs from a long-colonised area.
@nl
type
label
Locomotor performance in an in ...... cs from a long-colonised area.
@en
Locomotor performance in an in ...... cs from a long-colonised area.
@nl
prefLabel
Locomotor performance in an in ...... cs from a long-colonised area.
@en
Locomotor performance in an in ...... cs from a long-colonised area.
@nl
P50
P1433
P1476
Locomotor performance in an in ...... cs from a long-colonised area.
@en
P2093
Benjamin L Phillips
Ross A Alford
P2888
P304
P356
10.1007/S00442-009-1471-1
P407
P577
2009-10-16T00:00:00Z