87 Awardee Talk: Frequency of Energy Supplementation Modulates Growth, Reproduction, Immune Function, and Fetal Programming in Beef Cattle

Abstract

Abstract Fluctuations in nutrient intake and metabolism can be detrimental to beef cattle performance. Multiple studies evaluated the impacts of reducing the frequency of energy supplementation from daily (7X) to once (1X) or 3 times (3X) weekly during heifer development, calf preconditioning, and late gestation of beef cows on growth, reproduction, immune function, and progeny performance. Reducing the supplementation frequency from 7X to 3X weekly: (1) did not impact average daily gain (ADG; P = 0.52) but hastened (P ≤ 0.05) puberty and pregnancy attainment of beef heifers; and (2) reduced ADG (P = 0.02), increased (P ≤ 0.03) plasma indicators of physiological stress (cortisol and haptoblogin), and decreased (P ≤ 0.05) humoral immune response against pathogens associated with bovine respiratory disease (BRD) in preconditioning beef steers. Reducing the supplementation frequency from 7X to either 3X or 1X weekly during late gestation did not (P ≥ 0.21) impact cow prepartum body condition score and reproduction, but linearly decreased (P = 0.05) calf preweaning growth. The negative effects of infrequent energy supplementation may be attributed to greater fluctuations in plasma concentrations of insulin growth factor-1, glucose, insulin, and urea nitrogen compared to frequent energy supplementation. Later attempts to offset such negative effects of infrequent supplementation observed that neither increasing the supplementation amount (P ≥ 0.21) nor altering the timing of vaccination relative to weaning (P ≥ 0.12) prevented performance reductions in beef cattle supplemented infrequently. Only a gradual reduction in supplementation frequency for preconditioning calves prevented a reduction on growth and improved (P ≤ 0.05) the immune response against BRD pathogens. Combined, these results revealed that frequent energy supplementation during preconditioning of beef steers, development of replacement beef heifers, and late gestation of beef cows was required to optimize their growth, immunity, and reproduction, and the growth performance of their progeny.