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Publication DateAmerican Naturalist, ISSN 0003-0147, 07/2008, Volume 172, Issue S1, pp. S34 - S48
Current approaches to modeling range advance assume that the distribution describing dispersal distances in the population (the "dispersal kernel") is a static...
Climate change | Exotic species | Introduced species | Rhinella | Lag phase | Nonequilibrium | MIGRATION | lag phase | nonequilibrium | TOAD BUFO-MARINUS | CANE TOADS | MODEL | SPATIAL SPREAD | SPEED | TROPICAL AUSTRALIA | EVOLUTIONARY BIOLOGY | INVASION FRONT | exotic species | DYNAMICS | ECOLOGY | POPULATION SPREAD | introduced species | climate change | Biological Evolution | Geography | Bufo marinus - genetics | Predatory Behavior | Animals | Models, Biological | Ecosystem | Selection, Genetic | Australia | Population Dynamics | Climate | Global temperature changes | Growth | Amphibians
Climate change | Exotic species | Introduced species | Rhinella | Lag phase | Nonequilibrium | MIGRATION | lag phase | nonequilibrium | TOAD BUFO-MARINUS | CANE TOADS | MODEL | SPATIAL SPREAD | SPEED | TROPICAL AUSTRALIA | EVOLUTIONARY BIOLOGY | INVASION FRONT | exotic species | DYNAMICS | ECOLOGY | POPULATION SPREAD | introduced species | climate change | Biological Evolution | Geography | Bufo marinus - genetics | Predatory Behavior | Animals | Models, Biological | Ecosystem | Selection, Genetic | Australia | Population Dynamics | Climate | Global temperature changes | Growth | Amphibians
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Loading RightsProceedings of the National Academy of Sciences of the United States of America, ISSN 0027-8424, 08/2013, Volume 110, Issue 33, pp. 13452 - 13456
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Loading RightsAmerican Naturalist, ISSN 0003-0147, 03/2011, Volume 177, Issue 3, pp. 382 - 388
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Loading RightsJournal of Evolutionary Biology, ISSN 1010-061X, 09/2019, Volume 32, Issue 9, pp. 994 - 1001
Spatial sorting on invasion fronts drives the evolution of dispersive phenotypes, and in doing so can push phenotypes in the opposite direction to natural...
amplexus | Bufo marinus | male rivalry | sexual selection | competition | amphibian | trade‐off | DIMORPHISM | PERSPECTIVE | trade-off | CANE TOADS | TOADS RHINELLA-MARINA | POPULATIONS | DISPERSAL | EVOLUTIONARY BIOLOGY | GENETICS & HEREDITY | ECOLOGY | TRADE-OFFS | MALES | RAPID EVOLUTION | Amphibians | Competition | Phenotypes | Forearm | Dispersal | Toads | Body length | Conspecifics | Males | Dispersion | Natural selection | Fitness
amplexus | Bufo marinus | male rivalry | sexual selection | competition | amphibian | trade‐off | DIMORPHISM | PERSPECTIVE | trade-off | CANE TOADS | TOADS RHINELLA-MARINA | POPULATIONS | DISPERSAL | EVOLUTIONARY BIOLOGY | GENETICS & HEREDITY | ECOLOGY | TRADE-OFFS | MALES | RAPID EVOLUTION | Amphibians | Competition | Phenotypes | Forearm | Dispersal | Toads | Body length | Conspecifics | Males | Dispersion | Natural selection | Fitness
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Loading RightsCOPEIA, ISSN 0045-8511, 03/2019, Volume 107, Issue 1, pp. 71 - 77
Because of their small size and fragility, larvae of many amphibian species are difficult to mark unambiguously for experimental studies. This constraint...
PREDATION | SHAPE | ZOOLOGY | PERFORMANCE | CONSEQUENCES | INJURY | PLASTICITY | CUES | Larvae | Aquatic reptiles | Amphibiotic species | Zoology | Fins | Identification | Juveniles | Tissues | Reptiles & amphibians | Tails | Training | Process controls | Swimming | Deoxyribonucleic acid--DNA | Equipment costs | Toads | Monographs | Cohorts | Ecology | Marking | Survival | Fragility | Researchers | Equipment | Biopsy | Animal behavior | DNA | Clipping | Interactions | Predation | Fitness
PREDATION | SHAPE | ZOOLOGY | PERFORMANCE | CONSEQUENCES | INJURY | PLASTICITY | CUES | Larvae | Aquatic reptiles | Amphibiotic species | Zoology | Fins | Identification | Juveniles | Tissues | Reptiles & amphibians | Tails | Training | Process controls | Swimming | Deoxyribonucleic acid--DNA | Equipment costs | Toads | Monographs | Cohorts | Ecology | Marking | Survival | Fragility | Researchers | Equipment | Biopsy | Animal behavior | DNA | Clipping | Interactions | Predation | Fitness
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Loading RightsAnimal Behaviour, ISSN 0003-3472, 07/2019, Volume 153, pp. 131 - 136
In many species of anurans, males produce advertisement calls that function to attract reproductively active females. Rival males may use the public...
Bufo marinus | competition | amphibian | communication | sexual selection | SUCCESS | REPRODUCTIVE STRATEGIES | RECOGNITION | BODY-SIZE | ANURA | CHOICE | EVOLUTION | ZOOLOGY | RHINELLA-MARINA | BEHAVIORAL SCIENCES | Frogs | Advertising | Acoustic properties
Bufo marinus | competition | amphibian | communication | sexual selection | SUCCESS | REPRODUCTIVE STRATEGIES | RECOGNITION | BODY-SIZE | ANURA | CHOICE | EVOLUTION | ZOOLOGY | RHINELLA-MARINA | BEHAVIORAL SCIENCES | Frogs | Advertising | Acoustic properties
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Loading RightsFrontiers in Neurology, ISSN 1664-2295, 2015, Volume 6, p. 194
Rationale: Individuals with Parkinson's disease (PD) often have deficits in kinesthesia. There is a need for rehabilitation interventions that improve these...
Neuroplasticity | Exercise | Rehabilitation | Motor function | Movement disorders | Bradykinesia | CLINICAL-TRIAL | GAIT | BASAL GANGLIA | exercise | bradykinesia | RANDOMIZED CONTROLLED-TRIAL | PROPRIOCEPTION | NEUROSCIENCES | CLINICAL NEUROLOGY | PATHOPHYSIOLOGY | rehabilitation | ARGENTINE TANGO | movement disorders | motor function | RATING-SCALE | neuroplasticity | Psychological aspects | Physiological aspects | Cycling | Care and treatment | Parkinson's disease | Health aspects
Neuroplasticity | Exercise | Rehabilitation | Motor function | Movement disorders | Bradykinesia | CLINICAL-TRIAL | GAIT | BASAL GANGLIA | exercise | bradykinesia | RANDOMIZED CONTROLLED-TRIAL | PROPRIOCEPTION | NEUROSCIENCES | CLINICAL NEUROLOGY | PATHOPHYSIOLOGY | rehabilitation | ARGENTINE TANGO | movement disorders | motor function | RATING-SCALE | neuroplasticity | Psychological aspects | Physiological aspects | Cycling | Care and treatment | Parkinson's disease | Health aspects
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Loading RightsEcology, ISSN 0012-9658, 6/2010, Volume 91, Issue 6, pp. 1617 - 1627
Most evolutionary theory does not deal with populations expanding or contracting in space. Invasive species, climate change, epidemics, and the breakdown of...
contemporary evolution | enemy escape | defense allocation | dispersal rate | reproductive rate | rapid life-history evolution | genotype "smearing" | range shift | density dependence | climate change | nonequilibrium processes | Population ecology | Invasive species | Ecological genetics | Population growth | Ecological life histories | Biological evolution | Ecological invasion | Evolution | CONCEPTS & SYNTHESIS: EMPHASIZING NEW IDEAS TO SIMULATE RESEARCH IN ECOLOGY | Population density | Phenotypic traits | Climate change | Reproductive rate | Range shift | Rapid life-history evolution | Contemporary evolution | Density dependence | Defense allocation | Dispersal rate | Enemy escape | Nonequilibriumprocesses | Genotype "smearing" | genotype "smearing | ENEMY RELEASE HYPOTHESIS | CLIMATE-CHANGE | DISPERSAL STRATEGIES | LANDSCAPE STRUCTURE | INVASIVE PLANT | NATURAL ENEMIES | REIDS PARADOX | GENERALIST HERBIVORES | ECOLOGY | INCREASED COMPETITIVE ABILITY | RAPID EVOLUTION | Biological Evolution | Animals | Demography | Climate Change | Models, Biological | Selection, Genetic | Plants | Population Dynamics | Evolutionary biology | Population biology | Research
contemporary evolution | enemy escape | defense allocation | dispersal rate | reproductive rate | rapid life-history evolution | genotype "smearing" | range shift | density dependence | climate change | nonequilibrium processes | Population ecology | Invasive species | Ecological genetics | Population growth | Ecological life histories | Biological evolution | Ecological invasion | Evolution | CONCEPTS & SYNTHESIS: EMPHASIZING NEW IDEAS TO SIMULATE RESEARCH IN ECOLOGY | Population density | Phenotypic traits | Climate change | Reproductive rate | Range shift | Rapid life-history evolution | Contemporary evolution | Density dependence | Defense allocation | Dispersal rate | Enemy escape | Nonequilibriumprocesses | Genotype "smearing" | genotype "smearing | ENEMY RELEASE HYPOTHESIS | CLIMATE-CHANGE | DISPERSAL STRATEGIES | LANDSCAPE STRUCTURE | INVASIVE PLANT | NATURAL ENEMIES | REIDS PARADOX | GENERALIST HERBIVORES | ECOLOGY | INCREASED COMPETITIVE ABILITY | RAPID EVOLUTION | Biological Evolution | Animals | Demography | Climate Change | Models, Biological | Selection, Genetic | Plants | Population Dynamics | Evolutionary biology | Population biology | Research
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Loading RightsProceedings: Biological Sciences, ISSN 0962-8452, 11/2014, Volume 281, Issue 1795, pp. 1 - 7
At the edge of a biological invasion, evolutionary processes (spatial sorting, natural selection) often drive increases in dispersal. Although numerous traits...
Statistical variance | Animals | Ecological life histories | Toads | Ecological invasion | Biological invasions | Evolution | Fractals | Fractal dimensions | Phenotypic traits
Statistical variance | Animals | Ecological life histories | Toads | Ecological invasion | Biological invasions | Evolution | Fractals | Fractal dimensions | Phenotypic traits
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10.
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An evolutionary process that assembles phenotypes through space rather than through time
Proceedings of the National Academy of Sciences of the United States of America, ISSN 0027-8424, 4/2011, Volume 108, Issue 14, pp. 5708 - 5711
In classical evolutionary theory, traits evolve because they facilitate organismal survival and/or reproduction. We discuss a different type of evolutionary...
Phenotypes | Genetic variation | Biological evolution | Toads | Evolution | Evolutionary genetics | Endurance | Population genetics | Natural selection | Phenotypic traits | Nonadaptive evolution | Spatial disequilibrium | Colonization | AUSTRALIA | BUFO-MARINUS | nonadaptive evolution | MULTIDISCIPLINARY SCIENCES | CANE TOADS | POPULATIONS | evolution | GROWTH-RATES | spatial disequilibrium | DISPERSAL STRATEGIES | colonization | INVASION FRONT | RANGE EXPANSION | MUTATIONS | SELECTION | Biological Evolution | Spatial Behavior - physiology | Phenotype | Demography | Models, Biological | Adaptation, Biological - physiology | Evolutionary biology | Research | Biological Sciences
Phenotypes | Genetic variation | Biological evolution | Toads | Evolution | Evolutionary genetics | Endurance | Population genetics | Natural selection | Phenotypic traits | Nonadaptive evolution | Spatial disequilibrium | Colonization | AUSTRALIA | BUFO-MARINUS | nonadaptive evolution | MULTIDISCIPLINARY SCIENCES | CANE TOADS | POPULATIONS | evolution | GROWTH-RATES | spatial disequilibrium | DISPERSAL STRATEGIES | colonization | INVASION FRONT | RANGE EXPANSION | MUTATIONS | SELECTION | Biological Evolution | Spatial Behavior - physiology | Phenotype | Demography | Models, Biological | Adaptation, Biological - physiology | Evolutionary biology | Research | Biological Sciences
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11.
Evolution of dispersal and life history interact to drive accelerating spread of an invasive species
Ecology Letters, ISSN 1461-023X, 08/2013, Volume 16, Issue 8, p. 1079
Populations on the edge of an expanding range are subject to unique evolutionary pressures acting on their life-history and dispersal traits. Empirical...
Evolutionary biology | Toads | Biogeography | Ecology | Animal migration | Nonnative species
Evolutionary biology | Toads | Biogeography | Ecology | Animal migration | Nonnative species
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Nature, ISSN 0028-0836, 02/2006, Volume 439, Issue 7078, pp. 803 - 803
Cane toads (Bufo marinus) are large anurans (weighing up to 2 kg) that were introduced to Australia 70 years ago to control insect pests in sugar-cane fields....
DISPERSAL | POPULATIONS | AUSTRALIA | BUFO-MARINUS | MULTIDISCIPLINARY SCIENCES | Biological Evolution | Motor Activity - physiology | Bufo marinus - anatomy & histology | Animals | Time Factors | Ecosystem | History, 20th Century | Extremities - anatomy & histology | Australia | Extremities - physiology | Bufo marinus - physiology | Population Dynamics | Frogs | Pest control | Evolution | Environmental impact | Nonnative species
DISPERSAL | POPULATIONS | AUSTRALIA | BUFO-MARINUS | MULTIDISCIPLINARY SCIENCES | Biological Evolution | Motor Activity - physiology | Bufo marinus - anatomy & histology | Animals | Time Factors | Ecosystem | History, 20th Century | Extremities - anatomy & histology | Australia | Extremities - physiology | Bufo marinus - physiology | Population Dynamics | Frogs | Pest control | Evolution | Environmental impact | Nonnative species
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Loading RightsProceedings of the National Academy of Sciences of the United States of America, ISSN 0027-8424, 08/2013, Volume 110, Issue 33, p. 13452
Dispersal biology at an invasion front differs from that of populations within the range core, because novel evolutionary and ecological processes come into...
Climate change | Dispersal | Toads | Population biology | Biogeography | Ecology | Nonnative species
Climate change | Dispersal | Toads | Population biology | Biogeography | Ecology | Nonnative species
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Proceedings of the Royal Society B: Biological Sciences, ISSN 0962-8452, 11/2014, Volume 281, Issue 1795, pp. 20141385 - 20141385
At the edge of a biological invasion, evolutionary processes (spatial sorting, natural selection) often drive increases in dispersal. Although numerous traits...
Bufo marinus | Spatial sorting | Circular variance | Fractal dimension | Tortuosity | Range expansion | fractal dimension | range expansion | circular variance | spatial sorting | tortuosity | LIFE-HISTORIES | POPULATIONS | ADVANTAGE | STRATEGIES | EVOLUTIONARY BIOLOGY | BIOLOGY | MOVEMENT | FRACTAL ANALYSIS | ECOLOGY | LANDSCAPES | TRADE-OFFS | Biological Evolution | Animals | Animal Distribution | Introduced Species | Northern Territory | Telemetry | Bufo marinus - physiology | 1001
Bufo marinus | Spatial sorting | Circular variance | Fractal dimension | Tortuosity | Range expansion | fractal dimension | range expansion | circular variance | spatial sorting | tortuosity | LIFE-HISTORIES | POPULATIONS | ADVANTAGE | STRATEGIES | EVOLUTIONARY BIOLOGY | BIOLOGY | MOVEMENT | FRACTAL ANALYSIS | ECOLOGY | LANDSCAPES | TRADE-OFFS | Biological Evolution | Animals | Animal Distribution | Introduced Species | Northern Territory | Telemetry | Bufo marinus - physiology | 1001
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Loading RightsThe American Naturalist, ISSN 0003-0147, 03/2011, Volume 177, Issue 3, p. 382
Darwin's naturalization hypothesis predicts that the success of alien invaders will decrease with increasing taxonomic similarity to the native community....
Organismal biology | Hypotheses | Taxonomy | Evolution | Reptiles & amphibians
Organismal biology | Hypotheses | Taxonomy | Evolution | Reptiles & amphibians
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The American Naturalist, ISSN 0003-0147, 03/2011, Volume 177, Issue 3, p. 382
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Loading RightsGlobal Change Biology, ISSN 1354-1013, 2015, Volume 21, Issue 2, pp. 528 - 549
Global change is impacting forests worldwide, threatening biodiversity and ecosystem services including climate regulation. Understanding how forests respond...
tropical tree community | rain-forest | neotropical forest | phylogenetic structure | dispersal limitation | spatial-patterns | functional traits | el-nino | seedling recruitment | long-term nitrogen | biodiversity | spatial analysis | long‐term monitoring | Center for Tropical Forest Science (CTFS) | demography | forest dynamics plot | Forest Global Earth Observatory (ForestGEO) | climate change | Long-term monitoring | Climate change | Demography | Spatial analysis | Forest dynamics plot | Biodiversity | TROPICAL FOREST | RAIN-FOREST | PHYLOGENETIC STRUCTURE | TREE SPECIES RICHNESS | SPATIAL-PATTERNS | ENVIRONMENTAL SCIENCES | SEEDLING RECRUITMENT | LONG-TERM NITROGEN | FUNCTIONAL TRAITS | DISPERSAL LIMITATION | ECOLOGY | BIODIVERSITY CONSERVATION | long-term monitoring | EL-NINO | Environmental Monitoring | Forests | Conservation of Natural Resources | Climate Change | Sulfur compounds | Global temperature changes | Ecosystems | Analysis | Biomes | Network management systems | Forest conservation | Forests and forestry | Precipitation (Meteorology) | Satellite imaging | Environmental protection | Biological diversity
tropical tree community | rain-forest | neotropical forest | phylogenetic structure | dispersal limitation | spatial-patterns | functional traits | el-nino | seedling recruitment | long-term nitrogen | biodiversity | spatial analysis | long‐term monitoring | Center for Tropical Forest Science (CTFS) | demography | forest dynamics plot | Forest Global Earth Observatory (ForestGEO) | climate change | Long-term monitoring | Climate change | Demography | Spatial analysis | Forest dynamics plot | Biodiversity | TROPICAL FOREST | RAIN-FOREST | PHYLOGENETIC STRUCTURE | TREE SPECIES RICHNESS | SPATIAL-PATTERNS | ENVIRONMENTAL SCIENCES | SEEDLING RECRUITMENT | LONG-TERM NITROGEN | FUNCTIONAL TRAITS | DISPERSAL LIMITATION | ECOLOGY | BIODIVERSITY CONSERVATION | long-term monitoring | EL-NINO | Environmental Monitoring | Forests | Conservation of Natural Resources | Climate Change | Sulfur compounds | Global temperature changes | Ecosystems | Analysis | Biomes | Network management systems | Forest conservation | Forests and forestry | Precipitation (Meteorology) | Satellite imaging | Environmental protection | Biological diversity
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