Effects of levels of energetic supplement for beef cattle grazing tropical pastures on forage intake and ruminal fermentation

The objective of this trial was to evaluate the effects of different levels of energy supplementation on metabolic parameters (blood and ruminal), forage intake, animal behavior and ruminal kinetics of Nelore steers raised in tropical pasture during the rainy season. Each level of supplementation was considered a treatment and consisted of: T1) control (only mineral supplementation); T2) supply of 0.3% BW of energetic concentrate; T3) supply of 0.6% of BW of energetic concentrate; T4) supply of 0.9% of BW of energetic concentrate. Eight Nelore rumen-cannulated steers, averaging 410 kg BW and 48 months of age were assigned to two 4x4 Latin square and allotted in 1 ha of Brachiaria brizantha cv. Marandu pasture. The parameters evaluated were forage intake, ruminal pH and concentration of NH3 and short chain fatty acids (SCFA), blood nitrogen urea and blood glucose, ruminal kinetics, microbial synthesis, nitrogen excretion and animal behavior. The marker that better estimated the intake was chromium oxide. Forage intake (% BW) decreased (P<0.05) and total DM intake increased (P<0.05) as levels of supplementation increased. Substitution rates decreased (P<0.05) as the supplementation level increased, explaining the higher total DM intake. Among the ingestive behavior variables, only grazing time, that decreased (P<0.05), and rest time, that increased (P<0.10), as the supplement level increased, were affected by supplementation. Among the SCFA, only the propionate concentration was affected (P<0.05) by the treatments, increasing as the levels increased. The ruminal pH was not affected by supplementation and was among the recommended values for maintenance of cellulolytic microorganisms. The concentration of NH3 and nitrogen excretion decreased (P<0.05), and the microbial synthesis increased (P<0.05) as levels of supplement increased, as a result of the better synchronization between energy and protein in the rumen. Blood variables (glucose and urea nitrogen content) were not affected by treatments. Supplementation improved fiber degradation, by increasing the potential degradable fraction of NDF (P<0.05). There was no effect on the lag time of fiber degradation, confirming that the supplementation had no negative effects on the ruminal environment. The decreasing on forage intake as the supplement level increased was not associated neither to inadequate ruminal pH nor to impairment of fiber degradation. Energetic supplementation for beef cattle grazing tropical pastures intensively managed during rainy season improves microbial synthesis and fiber degradation. (AU)