Incorporating body measurement traits to increase genetic gain of feed efficiency and carcass traits in Japanese Black steers.

ABSTRACT

The objective of the present study was to comprehensively evaluate whether body measurement traits, including body weight and body size, could be used as indicators of genetic selection for feed efficiency and carcass traits in Japanese Black steers. First, we estimated the genetic parameters for body measurements, feed efficiency, and carcass traits. Second, we estimated the correlated responses in feed efficiency and carcass traits when selection was applied to one or multiple-body measurement traits. In total, 4,578 Japanese Black steers with phenotypic values of residual feed intake (RFI) and residual body weight gain (RG) as feed efficiency traits and carcass weight (CWT) and beef marbling standard (BMS) as carcass traits were used. Eleven body measurement traits were measured at the start and finish of the fattening periods (BMT1 and BMT2, respectively), and their growth during the fattening period (BMT3) was used for genetic analyses. The results of genetic parameters showed that the heritability estimates were low to moderate (0.10 to 0.66), and the genetic correlations among body measurement traits were also estimated to be positively moderate to high in each measuring point (0.23 to 0.99). The genetic correlations of body measurement traits with RFI and BMS were estimated to be low (-0.14 to 0.30 and -0.17 to 0.35, respectively), but those with CWT were positively low to high (0.12 to 0.97). The genetic correlation estimates between BMT3 and RG were moderate to high (0.38 to 0.78). Second, correlated responses were estimated under positive selection for body measurement traits. Positive selection for BMT2 and BMT3 increased CWT and RG; however, positive selection for body measurement traits resulted in no change in RFI and BMS. Favorable directions of genetic gains, which were positive for RG, CWT, and BMS and negative for RFI, were obtained by selection indices, including multiple traits in BMT1. Our results suggest that using only one-body measurement trait as an indicator of genetic selection for RFI is difficult. However, body measurement traits can be indirect indicators of improved RG. Our results also suggest that genetic improvement of both RFI and RG without reducing CWT and BMS could be achieved using selection indices that account for a balance of body conformation using multiple-body measurement traits in Japanese Black cattle.

Improving feed efficiency is a key objective in the beef cattle industry. Still, high costs and logistical efforts make measuring daily feed intake per animal in many cattle difficult. Here, we focused on body measurement traits, including body weight and body size, as indirect indicators of feed efficiency in Japanese Black cattle, as measuring these traits is easy and inexpensive. When selection was applied to one- or multiple-body measurement traits, we estimated the correlated responses in feed efficiency and carcass traits. We also estimated the genetic relationships of body measurement traits with feed efficiency and carcass traits. Our results showed body measurement traits were heritable and had weak genetic relationships with residual feed intake. Regarding the possibility of genetic selection for residual feed intake using body measurement traits as indirect indicators, our results suggest that using a single body measurement trait as an indicator is difficult. However, our results also suggest that the genetic improvement of residual feed intake could be possible using selection indices that account for a balance of body conformation using multiple-body measurement traits in Japanese Black cattle.