Duggan Brendan M, Rae Anne M, Clements Dylan N, Hocking Paul M
The Roslin Institute and Royal (Dick) School of Veterinary Studies, University of Edinburgh, Easter Bush, Midlothian, EH25 9RG, UK.
Cherry Valley Farms Ltd., Laceby Business Park, Grimsby Road, Laceby, North Lincolnshire, DN37 7DP, UK.
Genet Sel Evol. 2017 May 2;49(1):42. doi: 10.1186/s12711-017-0317-2.
Genetic progress in selection for greater body mass and meat yield in poultry has been associated with an increase in gait problems which are detrimental to productivity and welfare. The incidence of suboptimal gait in breeding flocks is controlled through the use of a visual gait score, which is a subjective assessment of walking ability of each bird. The subjective nature of the visual gait score has led to concerns over its effectiveness in reducing the incidence of suboptimal gait in poultry through breeding. The aims of this study were to assess the reliability of the current visual gait scoring system in ducks and to develop a more objective method to select for better gait.
Experienced gait scorers assessed short video clips of walking ducks to estimate the reliability of the current visual gait scoring system. Kendall's coefficients of concordance between and within observers were estimated at 0.49 and 0.75, respectively. In order to develop a more objective scoring system, gait components were visually scored on more than 4000 pedigreed Pekin ducks and genetic parameters were estimated for these components. Gait components, which are a more objective measure, had heritabilities that were as good as, or better than, those of the overall visual gait score.
Measurement of gait components is simpler and therefore more objective than the standard visual gait score. The recording of gait components can potentially be automated, which may increase accuracy further and may improve heritability estimates. Genetic correlations were generally low, which suggests that it is possible to use gait components to select for an overall improvement in both economic traits and gait as part of a balanced breeding programme.
在家禽选育更大体重和肉产量的过程中,遗传进展与步态问题的增加有关,这些问题对生产力和福利有害。通过使用视觉步态评分来控制种禽群中步态欠佳的发生率,这是对每只禽类行走能力的主观评估。视觉步态评分的主观性引发了人们对其通过育种降低家禽步态欠佳发生率有效性的担忧。本研究的目的是评估当前鸭视觉步态评分系统的可靠性,并开发一种更客观的方法来选择更好的步态。
经验丰富的步态评分者评估了行走鸭子的短视频片段,以估计当前视觉步态评分系统的可靠性。观察者之间和观察者内部的肯德尔和谐系数分别估计为0.49和0.75。为了开发更客观的评分系统,对4000多只纯种北京鸭的步态组成部分进行了视觉评分,并估计了这些组成部分的遗传参数。步态组成部分作为一种更客观的测量方法,其遗传力与整体视觉步态评分相当或更好。
步态组成部分的测量比标准视觉步态评分更简单,因此更客观。步态组成部分的记录有可能实现自动化,这可能会进一步提高准确性,并可能改善遗传力估计。遗传相关性通常较低,这表明作为平衡育种计划的一部分,可以使用步态组成部分来选择经济性状和步态的整体改善。