Nutritional influences on breeding dynamics in elk

Abstract

Nutrition in summer and early autumn may influence pregnancy rates and recruitment in ungulate herds in temperate regions, yet this influence on the reproductive endocrinology of wild ungulates is poorly understood. We examined the effects of 3 levels of summer–autumn nutrition on timing of breeding, pregnancy rates, and concentration of fecal progestagens (P4) in 30 captive female elk (Cervus elaphus nelsoni). Digestible energy (DE) content for females on the high-nutrition treatment was maintained at 12.35 kJ/g, while DE content for females on the medium- and low-nutrition treatments was gradually reduced to 10.89 and 9.42 kJ/g, respectively, by the end of the breeding season (all feed was offered ad libitum) to mimic the natural decline in forage quality during summer and autumn. In addition, we used three females as a control; they were maintained on a high-nutrition diet and kept separate from a bull. Based on fecal P4 concentrations and visual observations, 90, 90, and 10% of the elk on the high-, medium-, and low-nutrition treatments bred, respectively. Nutritional restriction delayed breeding by an average of 8 and 28 days in the medium- and low-nutrition animals. Females in the low- and medium-nutrition treatments excreted significantly higher P4 concentrations prior to breeding than did animals in the high-nutrition treatment. Diet failed to affect P4 concentration during pregnancy, but we found evidence that P4 concentrations were positively correlated with body condition (ingesta-free body fat content) during early gestation. Females that did not breed failed to exhibit estrous behavior, and hormone-excretion profiles confirmed that these animals failed to ovulate. These results suggest that inadequate nutrition in summer and autumn reduce pregnancy rates by preventing estrus and ovulation rather than by inducing early-embryo mortality.