Prediction of Live Weight and Carcass Characteristics from Linear Body Measurements of Yearling Male Local Sheep
DOI:
https://doi.org/10.24925/turjaf.v12i4.625-630.6676Anahtar Kelimeler:
carcass- linear body measurements- live weight- local sheep- prediction equationÖzet
Measurements of the body structure in sheep are worthy of judging the quantitative features of meat and useful in developing appropriate selection requirements. The current study was aimed to predict live weight and hot carcass weight from linear body measurements of yearling male local sheep. 84 days feeding period fortnightly taken data on 24 local sheep for body weight, body length, heart girth, wither height, sub-sternal height, tail length, tail width, scrotal circumference, and scrotal length were analyzed to study the relationship between linear body measurements and body weight. At the end of the trial all sheep were slaughtered to measure the relationship between body measurements, and hot carcass weight. Microsoft Excel 2010 was used for data analysis. The relationships between the various body measurements were calculated using pearson's correlation coefficient. The backward stepwise multiple regression procedure was used for the determination of the most suitable model for the prediction of the live weight and hot carcass weight. Hot carcass weight was highly correlated (P<0.01) with body weight and scrotal circumference. Besides, it was significantly (P<0.05) correlated with tail width. Body weight was significantly (P<0.05) correlated with all body measurements except tail length and scrotal length. It is concluded that the body weight of the local sheep can be predicted with heart girth, sub-sternal height and tail width; the equation is LW= -97.2 + 0.36HG + 2.1SBSH + 0.57TW with a better coefficient of determination; R2 = 0.55 and the hot carcass weight can be predicted with sub-sternal height and tail width; the equation is HCW= -75.66 + 1.75SBSH + 0.85TW with a coefficient of determination; R2 = 0.33. But, hot carcass can be predicted with body weight, the equation is HCW= -9.39+0.85BWT when weighing scales are affordable with a better coefficient of determination; R2= 0.557.
Referanslar
Atta, M., and O. A. El Khidir. (2004). Use of heart girth, wither height and scapuloischial length for prediction of liveweight of Nilotic sheep. Small ruminant research 55(1–3): 233–37.
Attah, S., A. O. Okubanjo, A. B. Omojola. and A. O.K. Adesehinwa. (2004). Body and carcass linear measurements of goats slaughtered at different weights. Livestock Research for Rural Development 16(8).
Cam, M. A., M. Olfaz. and E, Soydan. (2010). Body measurements reflect body weights and carcass yields in Karayaka sheep. Asian Journal of Animal and Veterinary Advances 5(2): 120–27.
El-Khidir, O A. (1980). Note on prediction of liveweight of growing kenana heifers from linear body measurements. Sudan journal of veterinary science and animal husbandry.
Eyduran, E.,Waheed, A., Tariq, M. M., Iqbal, F. and Ahmad, S. (2013). Prediction of live weight from morphological characteristics of commercial goat in Pakistan using factor and principal component scores in multiple linear regression. Journal of Animal and Plant Sciences 23(6): 1532–40.
Fasae, O.A.1., A.C. Chineke. and J.A, Alokan. (2005). Relationship between some physical parameters of grazing Yankasa ewes in the humid zone of Nigeria.
Gebremichael, S G. (2008). Sheep resources of Ethiopia: Genetic diversity and breeding strategy. Sheep resources of Ethiopia: Genetic diversity and breeding strategy: 145 pp.-145 pp.
Goe, M R., J R,Alldredge. and D, Light. (2001). Use of heart girth to predict body weight of working oxen in the Ethiopian highlands. Livestock Production Science 69: 187-195.
Grum, Gebreyesus., Aynalem Haile. and Tadelle, Dessie. (2012). Body weight prediction equations from different linear measurements in the short-eared somali goat population of eastern Ethiopia. Research journal of animal sciences 6(4–6): 90–93.
Islam, M R., M, Saadullah., A R , Howlider. and M A, Huq. (1991). Estimation of live weight and dressed carcass weight from the different body measurements of goats. Indian Journal of Animal Sciences 61(4): 460–61.
Johanson, I. and S E, Hildman. (1954). The relationship between certain body measurement and live and slaughter weights in cattle. In Animal Breeding Abstract, 1–17.
Kumar, Sandeep., S P, Dahiya., Z S., Malik. and C S, Patil. (2018). Prediction of body weight from linear body measurements in sheep. Indian Journal of Animal Research 52(9): 1263–66.
Lawrence, T L J. and V R Fowler. (1997). Growth of farm animals. CAB International.
Mohammad, M. T., Rafeeq, M., Bajwa, M. A., Awan, M. A., Abbas, F., Waheed, A., Bukhari, F. A. and Akhtar, P. (2012). Prediction of body weight from body measurements using regression tree (RT) method for indigenous sheep breeds in Balochistan, Pakistan. Journal of Animal and Plant Sciences 22(1): 20–24.
Mohammed, Tassew., Kefelegn, Kebede., Yoseph, Mekasha. and Bosenu, Abera. (2014). Herd management and breeding practices of sheep owners in North Wollo zone, Northern Ethiopia. Middle East Journal of Scientific Research 21(9): 1570–78. http://search.ebscohost.com/login.aspx?direct=true&db=lah&AN=20143348635&site=ehost-live%5Cnhttp://www.idosi.org/mejsr/mejsr21(9)14/22.pdf.
Musa, A M., N Z Idam. and K M, Elamin. (2012). Regression analysis of linear body measurements on live weight in Sudanese Shugor sheep. Online Journal of Animal and Feed Research 2(1): 27–29.
Otoikhian, C S O., Otoikhian, A M., Akporhuarho, O P., Oyefia, V E. and Isidahomen, C E. (2008). Body measurement parameters as a function of assessing body weight in goats under on-farm research environment. African Journal of General Agriculture 4(3): 135–40.
Ra, Afolayan., Adeyinka, IA. and Lakpini, CAM. (2018). The estimation of live weight from body measurements in Yankasa sheep. Czech Journal of Animal Science 51(No. 8): 343–48.
Ravimurugan, T., Thiruvenkadan, A K.,Sudhakar, K.,Panneerselvam, S. and Elango, A. (2013). The estimation of body weight from body measurements in Kilakarsal sheep of Tamil Nadu , India. 3: 357–60.
Riva, J., R, Rizzi., S. Marelli. and L. G, Cavalchini. (2004). Body measurements in Bergamasca sheep. Small Ruminant Research 55(1–3): 221–27.
Sharaby, M.A., Suleiman, I.O. (2013). Factors Influencing Meat Production Traits and Their Association with Body Dimensions.23(4): 85–85.
Tadesse, Alemayehu. and Tikabo, Gebremariam. (2010). Application of linear body measurements for live body weight estimation of highland sheep in Tigray region , North-Ethiopia. Journal of the Drylands 3(2): 203–7.
Thiruvenkadan, A. K. (2005). Determination of best-fitted regression model for estimation of body weight in Kanni Adu kids under farmer’s management system. Livestock Research for Rural Development 17(7).
Verma, S K., Dahiya, S P., Malik, Z S., Patil, C S. and Patil H R. (2019). Biometrical characterization of Harnali sheep: A new synthetic strain. American Sociological Review 2(2): 271–72. http://www.indianjournals.com/ijor.aspx?target=ijor:ijphrd&volume=10&issue=6&article=265.
Yilmaz, Onur., Ibrahim, Cemal., and Orhan, Karaca. (2012). Estimation of mature live weight using some body measurements in Karya sheep. Tropical Animal Health and Production 45(1): 397–403.
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