Modelling group dynamic animal movement

Group dynamic movement is a fundamental aspect of many species' movements. The need to adequately model individuals' interactions with other group members has been recognised, particularly in order to differentiate the role of social forces in individual movement from environmental factors...

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Bibliographic Details
Main Authors: Langrock, Roland, Hopcraft, J. Grant C., Blackwell, Paul G., Goodall, Victoria, King, Ruth, Niu, Mu, Patterson, Toby A., Pedersen, Martin W., Skarin, Anna, Schick, Robert S.
Format: Text
Language:unknown
Published: arXiv 2013
Subjects:
Quantitative Methods q-bio.QM
Applications stat.AP
FOS Biological sciences
FOS Computer and information sciences
Rangifer tarandus
Online Access:https://dx.doi.org/10.48550/arxiv.1308.5850
https://arxiv.org/abs/1308.5850
Description
Summary:Group dynamic movement is a fundamental aspect of many species' movements. The need to adequately model individuals' interactions with other group members has been recognised, particularly in order to differentiate the role of social forces in individual movement from environmental factors. However, to date, practical statistical methods which can include group dynamics in animal movement models have been lacking. We consider a flexible modelling framework that distinguishes a group-level model, describing the movement of the group's centre, and an individual-level model, such that each individual makes its movement decisions relative to the group centroid. The basic idea is framed within the flexible class of hidden Markov models, extending previous work on modelling animal movement by means of multi-state random walks. While in simulation experiments parameter estimators exhibit some bias in non-ideal scenarios, we show that generally the estimation of models of this type is both feasible and ecologically informative. We illustrate the approach using real movement data from 11 reindeer (Rangifer tarandus). Results indicate a directional bias towards a group centroid for reindeer in an encamped state. Though the attraction to the group centroid is relatively weak, our model successfully captures group-influenced movement dynamics. Specifically, as compared to a regular mixture of correlated random walks, the group dynamic model more accurately predicts the non-diffusive behaviour of a cohesive mobile group.

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