Changes in waterfowl movement behavior in response to hunting pressure

Changes in waterfowl movement behavior in response to hunting pressure

Abstract Background Anthropogenic activity can modify how wildlife perceives risks and rewards across the landscape (the ‘Landscape of Fear’) and affect animal movement and behavior. Studying movement patterns allows researchers to infer anti-predator behaviors and their drivers that affect survival...

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Bibliographic Details
Main Authors: Karen E. Beatty, Nathaniel R. Huck, Frances E. Buderman
Format: Article
Language:English
Published: BMC 2025-06-01
Series:Movement Ecology
Subjects:
Anti-predator behavior
Goose
Hidden markov model
Hunting
Predator avoidance
Landscape of fear
Online Access:https://doi.org/10.1186/s40462-025-00565-2
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Summary:Abstract Background Anthropogenic activity can modify how wildlife perceives risks and rewards across the landscape (the ‘Landscape of Fear’) and affect animal movement and behavior. Studying movement patterns allows researchers to infer anti-predator behaviors and their drivers that affect survival. We studied a game species, the Canada goose (Branta canadensis), to understand how hunting affects prey movement and in turn guide management decisions to maximize species abundance and hunting. Methods We used GPS receivers to track the movements of geese at two study sites in Pennsylvania during two hunting seasons. The hunting season in this system includes two distinct periods (hunting periods) in which hunting is permitted on alternating days (hunting days). We fitted hidden Markov models to analyze individual movement at three spatiotemporal scales and estimated how various environmental factors, such as habitat and hunting pressure, influenced the transition probabilities between behavioral states. Results We found that geese were less likely to take flight during hunting periods and on hunting days, and that geese were more likely to transition to a low ambulation state on hunting days. Overall, we found that resident Canada geese employed two nested anti-predator behaviors: individuals proactively decreased their movement during hunting, but as they neared the threat, they were more likely to take flight. Conclusions Our study provides further evidence that animals maintain a landscape of fear and a schedule of fear. We observed decreased movement during the hunting season and hypothesize that this was due to the stationary nature of risk (hunting blinds). Based on our results, we hypothesize that goose movement may be increased during hunting with an unpredictable spatial-temporal distribution of risk.
ISSN:2051-3933

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