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Populations as fluid on a landscape under global environmental change
Peter Chesson, Patricia J. Yang
Ecology and Evolutionary Biology
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Article
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peer-review
6
Scopus citations
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Keyphrases
Global Environmental Change
100%
Temporal Change
100%
Response to Climate Change
50%
Global Change
50%
Changes with Time
50%
Long-term Ecological Change
50%
Landscape Change
50%
Ecosystem Response
50%
Local Community
50%
Long-term Climate Change
50%
Natural World
50%
Ecological Model
50%
Long-term Trends
50%
Spatial Modeling
50%
Multiple Temporal Scales
50%
Multiple Spatial Scales
50%
Local Population
50%
Process Complexity
50%
Ecological Theory
50%
Temporal Trends
50%
Drivers of Change
50%
Paleoecological
50%
Anthropogenic Drivers
50%
Ecological Concept
50%
Dispersal Process
50%
Ecological Methods
50%
Landscape Complexity
50%
Earth and Planetary Sciences
Global Environmental Change
100%
Climate Change
100%
Locale
50%
Environmental Change
50%
Global Change
50%
Ecosystem Response
50%
Long-Term Trend
50%
Social Sciences
Climate Change
100%
Environmental Degradation
100%
Empirical Research
50%
Communities
50%
Global Change
50%
Local Population
50%
Agricultural and Biological Sciences
Climate Change
100%
Global Change
50%
Temporal Scale
50%