A growth model to estimate economic values for food intake capacity in pigs

Abstract

A biological growth model was developed to study economic values for averagead libitumfood intake capacity (FIC) in growing pigs. The model was based on the linear/plateau relationship between protein deposition and food intake. Input variables were: minimum fat to protein deposition ratio (R), maximum protein deposition rate (Pdmax)and food intake (FI). Output variables were production traits and production costs.Economic values (under commercial conditions withad libitumfeeding) were derived with the growth model for each of the traits FIC, R, and Pdmax keeping the other two traits constant, for three alternative levels of FIC. If FIC was too low to realize Pdmax, FIC had a positive economic value, R had a negative economic value and the value of Pd_maxwas zero. If FIC was higher than necessary to realize Pd_max, economic values were negative, zero and positive for FIC, R, and Pd_maxrespectively. If FIC was just sufficient to realise Pdmax, the lowest production costs occurred. Now, R had a negative economic value and Pdmax had a positive economic value.With a restricted feeding regimen under commercial conditions a daily food supply just sufficient to realize Pd_maxshould be pursued. It was concluded that use of a biological growth model to estimate economic values for FIC would give more insight into correct selection strategies than would the use of an economic model.