The fermentation of rehydrated corn grains influenced by the additives application: aspects of conservation and nutritive value for dairy cows

Rehydrated corn grain silage is an advantageous storage method, economically viable and improves starch digestibility. This study was carried out in two experiments - Experiment 1: Use of chemical and microbial additives on fermentation aspects and aerobic stability of rehydrated corn grain silage. The treatments consisted of rehydrated corn silage with different types of additives: control (no additive); Lactobacillus buchneri (LB - 5 × 105 cfu/g of fresh matter); homolactic bacteria (Homo - 5 × 105 cfu/g FM); Lactobacillus buchneri + homolactic bacteria (Combo LB - 5 × 105 cfu/g + LP - 5 × 105 cfu/g FM); Lactobacillus buchneri + sodium nitrite (LB - 5 × 105 cfu/g FM + nitrite - 1.5 g/kg FM) and sodium benzoate (Benz - 2.0 g/kg FM). The experiment was made in a completely randomized design with six treatments and four replications. Experiment 2: Use of rehydrated corn silage with or without sodium benzoate on the digestibility and performance of dairy cows. Eighteen Holstein cows were distributed in a replicated 3×3 latin square design with three periods (22-d) to evaluate the effect of control treatment (rehydrated corn silage); Benz (rehydrated corn silage plus sodium benzoate - 2.0 g/kg FM) and DGC (dry ground corn). In all diets the inclusion of corn was 17.3% in dry matter basis. In the first experiment, the chemical composition of silages was adequate and the fermentative DM losses were low (<1.6%) for all treatments. The presence of microbial additives resulted in well fermented silages, while Benz silages preserved WSC and showed lower concentration of fermentation products. The aerobic stability was highest for LB, Combo and Benz (240h) and intermediate for LBNit (151h). The Homo silages was less effective in promoting aerobic stability (74.7h), compared to the control (53.5h). The best parameters of ruminal DM degradability were obtained for LB and Combo silages. Benz and Homo silages were similar to the control, while LBNIT worsened the ruminal degrability of DM. In the second experiment, dry matter intake was similar across treatments with average of 21.1 kg/day, whereas starch and CNF digestibility was higher for fermented grains. The higher energy of silages tended to increase the production of 3.5 % fat-corrected milk. Therefore, animals fed rehydrated grain silages tended to present increased feed efficiency. Dairy cows fed silages had lower excretion of milk urea nitrogen, suggesting a better use of nitrogen for microbial protein synthesis. The use of additives sodium benzoate, L. buchneri and L. buchneri combined with homolactic bacteria is advisible to improve the fermentation, the aerobic stability and the nutritive value of rehydrated corn grain silages. (AU)