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Individual Movement Strategies Revealed through Novel Clustering of Emergent Movement Patterns.


ABSTRACT: Understanding movement is critical in several disciplines but analysis methods often neglect key information by adopting each location as sampling unit, rather than each individual. We introduce a novel statistical method that, by focusing on individuals, enables better identification of temporal dynamics of connectivity, traits of individuals that explain emergent movement patterns, and sites that play a critical role in connecting subpopulations. We apply this method to two examples that span movement networks that vary considerably in size and questions: movements of an endangered raptor, the snail kite (Rostrhamus sociabilis plumbeus), and human movement in Florida inferred from Twitter. For snail kites, our method reveals substantial differences in movement strategies for different bird cohorts and temporal changes in connectivity driven by the invasion of an exotic food resource, illustrating the challenge of identifying critical connectivity sites for conservation in the presence of global change. For human movement, our method is able to reliably determine the origin of Florida visitors and identify distinct movement patterns within Florida for visitors from different places, providing near real-time information on the spatial and temporal patterns of tourists. These results emphasize the need to integrate individual variation to generate new insights when modeling movement data.

SUBMITTER: Valle D 

PROVIDER: S-EPMC5341027 | biostudies-literature | 2017 Mar

REPOSITORIES: biostudies-literature

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Individual Movement Strategies Revealed through Novel Clustering of Emergent Movement Patterns.

Valle Denis D   Cvetojevic Sreten S   Robertson Ellen P EP   Reichert Brian E BE   Hochmair Hartwig H HH   Fletcher Robert J RJ  

Scientific reports 20170308


Understanding movement is critical in several disciplines but analysis methods often neglect key information by adopting each location as sampling unit, rather than each individual. We introduce a novel statistical method that, by focusing on individuals, enables better identification of temporal dynamics of connectivity, traits of individuals that explain emergent movement patterns, and sites that play a critical role in connecting subpopulations. We apply this method to two examples that span  ...[more]

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