Keel bone fractures affect laying hens' mobility, but no evidence for reciprocal effects

Keel bone fractures affect laying hens' mobility, but no evidence for reciprocal effects

Keel bone fractures (KBF) are prevalent in commercial laying hens and are considered one of the greatest welfare concerns in the egg-production industry. While clear associations exist between KBF and animal mobility, suggesting that KBF impair mobility, the effect of mobility on KBF remains unclear...

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Veröffentlicht in:PloS one 2024-07, Vol.19 (7), p.e0306384
Hauptverfasser: Montalcini, Camille M, Toscano, Michael J, Asher, Lucy, Petelle, Matthew B
Format: Artikel
Sprache:eng
Schlagworte:
Analysis
Animal Welfare
Animals
Bayes Theorem
Bayesian analysis
Behavior
Behavior, Animal
Biology and Life Sciences
Bone healing
Chickens
Data collection
Datasets
Dynamic models
Earth Sciences
Eggs
Feeds
Female
Fractures
Fractures, Bone - physiopathology
Locomotion
Medicine and Health Sciences
Mobility
Poultry
Radiographs
Radiography
Social Sciences
Unevenness
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Toscano, Michael J
Asher, Lucy
Petelle, Matthew B
description Keel bone fractures (KBF) are prevalent in commercial laying hens and are considered one of the greatest welfare concerns in the egg-production industry. While clear associations exist between KBF and animal mobility, suggesting that KBF impair mobility, the effect of mobility on KBF remains unclear. We combined data from three studies that assessed keel bone fracture severity through radiographs and monitored hens' transitions between different zones of a multi-tier aviary system (the three tiers, a littered floor, and a winter garden) the week prior to radiograph. For each hen, we extracted two daily movement behaviours: the vertical distance travelled and the mean number of zones crossed within one transition; and two daily space-use behaviours: the time spent in the top tier and the unevenness of time spent across zones. We used hierarchical Bayesian continuous time dynamic modelling to estimate how a change in a behaviour predicted a later change in keel bone fracture severity, and vice versa. Increased fracture severity did not predict later changes in space-use behaviours, but it did predict changes in movement behaviours. Specifically, increased fracture severity led to decreased vertical travelled distance and a tendency to cross more zones within one transition, suggesting impaired mobility in hens with increased fracture severity. In contrast, we found no evidence that movement or space-use behaviours predict later change in fracture severity, challenging previous literature suggesting that vertical locomotion through jumping and flying may exacerbate keel bone fractures in complex three-dimensional systems due to increased risk of collisions. However, similar efforts accounting for the location of fractures on the keel could unveil the potential influence of movement and space-use behaviours in the formation and change (healing or worsening) of KBF and increase our ability to mitigate their effects.
doi_str_mv 10.1371/journal.pone.0306384
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While clear associations exist between KBF and animal mobility, suggesting that KBF impair mobility, the effect of mobility on KBF remains unclear. We combined data from three studies that assessed keel bone fracture severity through radiographs and monitored hens' transitions between different zones of a multi-tier aviary system (the three tiers, a littered floor, and a winter garden) the week prior to radiograph. For each hen, we extracted two daily movement behaviours: the vertical distance travelled and the mean number of zones crossed within one transition; and two daily space-use behaviours: the time spent in the top tier and the unevenness of time spent across zones. We used hierarchical Bayesian continuous time dynamic modelling to estimate how a change in a behaviour predicted a later change in keel bone fracture severity, and vice versa. Increased fracture severity did not predict later changes in space-use behaviours, but it did predict changes in movement behaviours. 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subjects Analysis
Animal Welfare
Animals
Bayes Theorem
Bayesian analysis
Behavior
Behavior, Animal
Biology and Life Sciences
Bone healing
Chickens
Data collection
Datasets
Dynamic models
Earth Sciences
Eggs
Feeds
Female
Fractures
Fractures, Bone - physiopathology
Locomotion
Medicine and Health Sciences
Mobility
Poultry
Radiographs
Radiography
Social Sciences
Unevenness
title Keel bone fractures affect laying hens' mobility, but no evidence for reciprocal effects
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