# Research note: top-view walking features as proxy for walking ability in broilers and their potential use in breeding

**Authors:** Malou van der Sluis, Marjaneh Taghavi, István Fodor, Elianne G.T. van der Valk, Jesus Arango, Esther D. Ellen

PMC · DOI: 10.1016/j.psj.2025.106215 · Poultry Science · 2025-12-09

## TL;DR

This study explores how top-view video analysis of broiler chickens can help assess their walking ability, which is important for improving their welfare through breeding.

## Contribution

The study introduces top-view walking features as a novel proxy for evaluating and breeding for improved walking ability in broilers.

## Key findings

- Walking features like lateral body oscillation and speed varied significantly between gait score groups.
- Higher gait scores correlated with increased steps taken at different body weights.
- Several walking features and manual gait scores showed low to moderate heritability in broilers.

## Abstract

Impaired walking ability is a welfare concern that affects many broilers. Walking ability can potentially be improved through genetic selection, but this requires objective data on large numbers of broilers in the breeding program. Here, it was studied whether top-view video recordings of broilers in a walkway can provide insight into walking ability. Five walking features were analysed from the videos for 595 female, pure-line broilers: 1) lateral body oscillation (LBO), 2) number of steps taken (STEP), 3) mean overall speed (MEAN_SPEED), 4) maximum forward moving speed (MAX_SPEED), and 5) maximum forward acceleration (MAX_ACC). Birds’ gait scores (GS) were furthermore manually assessed (n = 153 with GS1; n = 344 with GS2; n = 87 with GS3 and n = 11 with GS4) and the heritabilities of the manual GS and the top-view derived walking features were estimated. The walking features all differed between GS groups, with a higher level of LBO in GS2 birds than in all other GS groups and a decrease in MEAN_SPEED and MAX_SPEED with increasing GS from GS1 to GS3. MEAN_ACC was lower for GS3 than GS1 birds. An interaction effect between body weight and GS was furthermore observed, in which - within the different body weight levels - higher GS levels were associated with more steps taken. Moreover, LBO, STEP, MEAN_SPEED and manual GS were found to be low to moderately heritable in broilers. Overall, the results of this study indicate that top-view derived features can provide insight into broiler walking ability and these outcomes can contribute to breeding for improved walking ability in broilers.

## Full text

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## Figures

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## References

9 references — full list in the complete paper: https://tomesphere.com/paper/PMC12757484/full.md

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Source: https://tomesphere.com/paper/PMC12757484