Selecting the desirable method for predicting 305-day lactation yields in Mongolia.
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[1] J. Jensen,et al. Genetic evaluation of dairy cattle using test-day models. , 2001, Journal of dairy science.
[2] G. Pollott,et al. A biological approach to lactation curve analysis for milk yield. , 2000, Journal of dairy science.
[3] T. Meuwissen,et al. Prediction of daily milk yields from a limited number of test days using test day models. , 1999, Journal of dairy science.
[4] J. Dekkers,et al. Genetic evaluation of dairy cattle using test day yields and random regression model. , 1997, Journal of dairy science.
[5] J. Jamrozik,et al. Estimates of genetic parameters for a test day model with random regressions for yield traits of first lactation Holsteins. , 1997, Journal of dairy science.
[6] J. Jamrozik,et al. Multiple-trait prediction of lactation yields for dairy cows. , 1996, Journal of dairy science.
[7] L R Jones,et al. Estimating milk, fat, and protein lactation curves with a test day model. , 1992, Journal of dairy science.
[8] R. Everett,et al. Accuracy of Test Interval Method of Calculating Dairy Herd Improvement Association Records , 1968 .
[9] Mitsuyoshi Suzuki,et al. Comparison of the optimum lactation curve models in holstein population of Japan , 2007 .
[10] J.B.M Wilmink,et al. Comparison of different methods of predicting 305-day milk yield using means calculated from within-herd lactation curves , 1987 .
[11] F. Sargent,et al. Test Interval Method of Calculating Dairy Herd Improvement Association Records , 1968 .