Prediction of Live Body Weight from Body Measurements Using Stepwise Regression Analysis in Sohagi Sheep | ||||
Journal of Animal and Poultry Production | ||||
Article 2, Volume 8, Issue 10, October 2017, Page 415-418 PDF (209.47 K) | ||||
Document Type: Original Article | ||||
DOI: 10.21608/jappmu.2017.46040 | ||||
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Authors | ||||
A. Elnahas1; Manal ElSayed2; M. Elshennawy3 | ||||
1Animal Production Department, Faculty of Agriculture, Sohag University, Egypt | ||||
2Animal Production Department, Faculty of Agriculture, Ain Sham University, Egypt | ||||
3Sadat Branch, Environmental studies and Research Institute, Minufiya University, Egypt | ||||
Abstract | ||||
This study aimed at predicting of live body weight from body measurements using stepwise regression analysis. Body measurements data of 212 animals, Sohagi sheep flock (64 male and 148 female) were used. Body weight (BW) and four body measurements were measured: heart girth (HG), height at withers (HW), height at rump (HR) and body length (BL). The stepwise regression analysis was performed in order to retain the X variable(s) (the body measurements) that contribute significantly (P < 0.05) to the variability in the dependent variable (BW). Results indicated that, there were high and positive correlation coefficients between the body weight and all body measurements. The highest correlation coefficient (r=0.93) was obtained between BW and HG and the lowest correlation coefficient (r= 0.88) was between BW and BL. All the studied body measurements were entered into the model and through stepwise elimination procedure two of them were considered unfit in the model (HR) and (BL). The two body measurements that best fit the model are heart girth (HG) and height at withers (HW), accounting for 92% of the live weight in Sohagi sheep. Changes of R2 from the first model (R2=0.86, this model included HG only) to the third model (R2=0.92), explained that, the most important variable in predicting BW is HG. The standardized coefficient (Beta) is used to explain the contribution of each independent variable in the model. So, the most important variable is HG (Beta = 0.92), this variable is the most important variable to explain the variability in BW. The prediction equation explained that regression coefficient of BW/HG = 0.35, this means that when the heart girth increases by one unit (1cm), the live body weight increases by 0.35 kg in sohagi sheep. | ||||
Keywords | ||||
live body weight; body measurements; stepwise regression and sohagi sheep | ||||
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