Üstündağ Yasemin, Kartal Mehmet
Veterinary Faculty, Department of Anatomy, Dokuz Eylül University, İzmir, Turkey.
Health Sciences Faculty, İstanbul Gelişim University, İstanbul, Turkey.
Vet Med Sci. 2024 Jul;10(4):e1544. doi: 10.1002/vms3.1544.
Morphologic measurements such as body lenght, wither height, heart girth, chest width, body leght, cannon-bone circumference is used to predict carcass weight. For this purpose, estimating carcass weight with measurements of key bones such as ankle bones, which play a significant role in the balance distribution of body weight, seems possible.
The aim of this study is to create new regression models for effective carcass weight estimation by using the morphometric data of the talus and calcaneus bones of hair goats.
Study materials consisted of talus and calcaneus bones obtained from abattoir products of hair goat kids (12-18 months old, 20 female and 20 male) and adult hair goats (36-48 months old, 20 female and 20 male). Morphometric measurements of the talus and calcaneus of each animal were taken by a digital caliper. Using the morphometric measurements, an index and a factor were calculated for each bone. Regression analysis and correlations were examined in IBM SPSS 21 programme.
As a result, statistical analysis of GLc, GLt, Bd, Calfactor and Talfactor were statistically significant on predicting carcass weight.
Specific anatomical structures, such as certain bone measurements, such as talus and calnaneus could serve as indicators of growth performance and also carcass weight performance. In addition new anatomical factors and indices may be produced and new regression methods may be applied with these new parameters to predict carcass weight.
诸如体长、鬐甲高、胸围、胸宽、体长、管围等形态学测量用于预测胴体重量。为此,通过测量诸如踝骨等在体重平衡分布中起重要作用的关键骨骼来估计胴体重量似乎是可行的。
本研究的目的是利用毛用山羊距骨和跟骨的形态测量数据创建新的回归模型,以有效估计胴体重量。
研究材料包括从毛用山羊羔(12 - 18月龄,20只雌性和20只雄性)和成年毛用山羊(36 - 48月龄,20只雌性和20只雄性)的屠宰产品中获取的距骨和跟骨。每只动物的距骨和跟骨的形态测量由数字卡尺进行。利用形态测量数据,为每块骨头计算一个指数和一个因子。在IBM SPSS 21程序中进行回归分析和相关性检验。
结果表明,GLc、GLt、Bd、Calfactor和Talfactor在预测胴体重量方面具有统计学意义。
特定的解剖结构,如距骨和跟骨等某些骨骼测量值,可作为生长性能以及胴体重量性能的指标。此外,可以产生新的解剖学因子和指数,并应用新的回归方法结合这些新参数来预测胴体重量。
