Feed conversion ratio in the contro

Feed conversion ratio in the control groups varied among trial sites, i.e., outstanding in Trial 1 (FCR=1.55 for males and 1.52 for females), satisfactory in Trial 3 (FCR=1.70), and rather inefficient in Trial 2 (FCR=1.81). Still, FCR was improved by DMG in Trial 1 and Trial 3. In Trial 2, FCR was only improved during the starter phase. These data indicate a beneficial effect of dietary DMG on FCR over a wide range of broiler chickens, with growth performance being influenced by broiler strains, basal diets, and rearing conditions. Overall, the effect of dietary DMG on FCR was greatest and most consistently present during the starter phase. The underlying mechanism of improved feed efficiency is likely to be, at least partly, the result of improved digestibility of protein and N-free extract because of the emulsifying action of DMG at the intestinal tract (Kalmar et al., 2010 and Prola et al., 2013). The indirect effect of increased fat emulsification on improved digestibility of non-fat fractions can be explained by enhanced accessibility for digestive enzymes (Kalmar et al., 2011). Apart from yolk utilisation, for which the importance of pancreatic and biliary secretions seems to be negligible, the digestive capacity of fat in broilers increases with age (Freeman, 1976 and Krogdahl, 1985). In particular, digestion of vegetable oils, which were the sole or main fat source in current trials, is underdeveloped in broiler chicks until the first 2 wk of age (Freeman, 1976). Therefore, an emulsifying agent is indeed expected to be most efficient in improving digestibility in the broiler chicken during the starter phase. Furthermore, DMG also acts as a glycine precursor (Craig, 2004), and, consequently, leads to the improvement of protein biosynthesis in chicks, where this amino acid is essential (Klasing, 2000). The fact that highest effects of DMG on FCR are consistently noticed in the starter period is thus not surprising.

Although sample size was rather limited, an important increase in the ratio between meat yield and abdominal fat was observed in Trial 3. This implies enhanced lean growth in broiler chickens fed the diets supplemented with DMG. Fat accretion has a greater energetic cost per mass unit compared to lean accretion (protein plus water). Thus, an increase in meat to fat ratio also contributes to a more efficient feed conversion. These results are in agreement with previous data, in which a linear inverse relation was observed between abdominal fat pad and dietary DMG supplementation with a range of 0 to 1 g Na DMG/kg feed (Kalmar et al., 2011). A plausible cause of lower fat deposition relative to lean growth in DMG supplemented broilers can be an increase in protein supply as a result of its increased digestibility. This agrees with results of, for instance, Namroud et al. (2008). Those authors showed a decrease in abdominal fat deposition and a concomitant lower FCR in broiler chickens when increasing dietary protein content from 17% to 21%. This is within the range of protein content of current finisher diets. Abdominal depot fat in the control groups of current investigation was also inversely related to protein content of finisher diets. In contrast to Namroud et al. (2008), in which the degree of improvement in FCR was greatest when increasing dietary protein content from 17% to 19% compared to an increase from 19% to 21%, the lowest improvement in FCR on account of DMG was observed at lowest dietary protein content of finisher diet in the current trials. Hence, additional factors are likely to be involved in the working mechanism of DMG.