Joseph D. Bailey scite author profile

Abstract. Understanding how an individual animal is able to navigate through its environment is a key question in movement ecology that can give insight into observed movement patterns and the mechanisms behind them. Efficiency of navigation is important for behavioral processes at a range of different spatio-temporal scales, including foraging and migration. Random walk models provide a standard framework for modeling individual animal movement and navigation. Here we consider a vector-weighted biased and correlated random walk (BCRW) model for directed movement (taxis), where external navigation cues are balanced with forward persistence. We derive a mathematical approximation of the expected navigational efficiency for any BCRW of this form and confirm the model predictions using simulations. We demonstrate how the navigational efficiency is related to the weighting given to forward persistence and external navigation cues, and highlight the counter-intuitive result that for low (but realistic) levels of error on forward persistence, a higher navigational efficiency is achieved by giving more weighting to this indirect navigation cue rather than direct navigational cues. We discuss and interpret the relevance of these results for understanding animal movement and navigation strategies.

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“Micropersonality” traits and their implications for behavioral and movement ecology research

Bailey

King

Codling

et al. 2021

Ecology and Evolution

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Walking behaviour in the ground beetle,Poecilus cupreus: dispersal potential, intermittency and individual variation

Bailey

Benefer

Blackshaw

et al. 2020

Bull. Entomol. Res.

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Dispersal is a key ecological process affecting community dynamics and the maintenance of populations. There is increasing awareness of the need to understand individual dispersal potential to better inform population-level dispersal, allowing more accurate models of the spread of invasive and beneficial insects, aiding crop and pest management strategies. Here, fine-scale movements of Poecilus cupreus, an important agricultural carabid predator, were recorded using a locomotion compensator and key movement characteristics were quantified. Net displacement increased more rapidly than predicted by a simple correlated random walk model with near ballistic behaviour observed. Individuals displayed a latent ability to head on a constant bearing for protracted time periods, despite no clear evidence of a population level global orientation bias. Intermittent bouts of movement and non-movement were observed, with both the frequency and duration of bouts of movement varying at the inter- and intra-individual level. Variation in movement behaviour was observed at both the inter- and intra- individual level. Analysis suggests that individuals have the potential to rapidly disperse over a wider area than predicted by simple movement models parametrised at the population level. This highlights the importance of considering the role of individual variation when analysing movement and attempting to predict dispersal distances.

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Mathematical Bases for 2D Insect Trap Counts Modelling

Ahmed

Bailey

Petrovskii

et al. 2021

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Emergence of the wrapped Cauchy distribution in mixed directional data

Bailey

Codling

2020

AStA Adv Stat Anal

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Joseph D. Bailey

Navigational efficiency in a biased and correlated random walk model of individual animal movement

“Micropersonality” traits and their implications for behavioral and movement ecology research

Walking behaviour in the ground beetle,Poecilus cupreus: dispersal potential, intermittency and individual variation

Mathematical Bases for 2D Insect Trap Counts Modelling

Emergence of the wrapped Cauchy distribution in mixed directional data

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