Abstract
BackgroundSince feed represents 70% of the total cost in poultry production systems, an animal’s ability to convert feed is an important trait. In this study, residual feed intake (RFI) and residual body weight gain (RG), and their linear combination into residual feed intake and body weight gain (RIG) were studied to estimate their genetic parameters and analyze the potential differences in feed intake between the top ranked birds based on the criteria for each trait.MethodsPhenotypic and genetic analyses were completed on 8340 growing tom turkeys that were measured for feed intake and body weight gain over a four-week period from 16 to 20 weeks of age.ResultsThe heritabilities of RG and RIG were 0.19 ± 0.03 and 0.23 ± 0.03, respectively. Residual body weight gain had moderate genetic correlations with feed intake (−0.41) and body weight gain (0.43). All three linear combinations to form the RIG traits had genetic correlations ranging from −0.62 to −0.52 with feed intake, and slightly weaker, 0.22 to 0.34, with body weight gain. Sorted into three equal groups (low, medium, high) based on RG, the most efficient group (high) gained 0.62 and 1.70 kg more (P < 0.001) body weight than that of the medium and low groups, yet the feed intake for the high group was less (P < 0.05) than that of the medium group (19.52 vs. 19.75 kg). When separated into similar partitions, the high RIG group (most efficient) had both the lowest (P < 0.001) feed intake (18.86 vs. 19.57 and 20.41 kg) and the highest (P < 0.001) body weight gain (7.41 vs. 7.03 and 6.43 kg) relative to the medium and low groups, respectively.ConclusionsThe difference in feed intake between the top ranked birds based on different residual feed efficiency traits may be small when looking at the average individual, however, when extrapolated to the production level, the lower feed intake values could lead to significant savings in feed costs over time.
Highlights
Since feed represents 70% of the total cost in poultry production systems, an animal’s ability to convert feed is an important trait
Feed conversion ratio was phenotypically negatively correlated with feed intake (−0.27) but had a positive genetic correlation (0.21)
Feed conversion ratio was negatively correlated with body weight gain, both phenotypically (−0.68) and genetically (−0.64)
Summary
Since feed represents 70% of the total cost in poultry production systems, an animal’s ability to convert feed is an important trait. The most commonly used measures are feed conversion ratio (FCR) and residual feed intake (RFI) [1]. Feed conversion ratio is defined as the amount of feed consumed per unit of weight gain, and is a composite trait of start and end body weights and feed intake. Residual feed intake represents the amount of feed intake which is not accounted for by the expected requirements for production (e.g. milk and egg production or in this case body weight gain) and body weight maintenance [6]. Some of the cited advantages of RFI are that it is heritable, moderately correlated with FCR and feed intake, and ideally, independent of production traits [6,7]. Reported heritability estimates for FCR and RFI in the turkey were 0.22 and 0.24, respectively, with a genetic correlation of 0.80 [7]
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