Effects of Pregnancy Prevention on Brucella abortus Shedding in American Bison (Bison bison)

Authors

Pauline Nol, Colorado Division of Parks and WildlifeFollow
Rebecca Frey, United States Department of Agriculture, Animal and Plant Health Inspection Service, Veterinary Services, Manhattan, Montana
Morgan Wehtje, United States National Park Service, Capitol Reef National ParkFollow
Jack C. Rhyan, United States Department of Agriculture, Animal and Plant Health Inspection Service, Veterinary Services, National Veterinary Services Laboratories, Ames, IowaFollow
Patrick Ryan Clarke, United States Department of Agriculture, Animal and Plant Health Inspection Service, Veterinary Services, Manhattan, Montana
Matthew McCollum, Colorado State University
Christine Quance, United States Department of Agriculture, Animal and Plant Health Inspection Service, Veterinary Services, National Veterinary Services Laboratories, Ames, Iowa
Douglas C. Eckery, United States Department of Agriculture, Animal and Plant Health Inspection Service, Wildlife Services, National Wildlife Research Center, Fort Collins, ColoradoFollow
Suelee Robbe-Austerman, United States Department of Agriculture, Animal and Plant Health Inspection Service, Veterinary Services, National Veterinary Services Laboratories, Ames, IowaFollow

Document Type

Article

Date of this Version

2024

Citation

Journal of Wildlife Diseases (2024) 60(2): 327–338

doi: 10.7589/JWD-D-21-00167

Comments

United States government work

Abstract

Products of parturition are the predominant source of Brucella abortus for transmission in bison (Bison bison). Our objective was to assess whether preventing pregnancy in Brucella-seropositive bison reduced B. abortus shedding. Brucella-seropositive and -seronegative bison from Yellowstone National Park, Wyoming, USA were used in a replicated experiment. Each of two replicates (rep1, rep2) included a group of seropositive females treated with a single dose of gonadotropin-releasing hormone-based immunocontraceptive (Treatment rep1, n = 15; Treatment rep2, n = 20) and an untreated group (Control rep1, n = 14; Control rep2, n = 16) housed separately. Seronegative sentinel females were placed in each group to monitor horizontal transmission. Seronegative males were co-mingled for breeding each year. Pregnant females were removed from treatment groups in the first year, but not thereafter. Each January–June we monitored for B. abortus shedding events—any parturition associated with culture-positive fluids or tissues. We analyzed probability of shedding events using a negative binomial generalized linear mixed model fit by maximum likelihood using Laplace approximation. Over 5 yr, we observed zero shedding events in Treatment rep1 vs. 12 in Control rep1. All five Control rep1 sentinels but zero (0/5) Treatment rep1 sentinels seroconverted. In the second replicate, Treatment rep2 had two shedding events over 3 yr and Control rep2 had five events over 2 yr. Sentinels in both Control rep2 (3/6) and Treatment rep2 (5/6) seroconverted by trial endpoint. Treatment rep1 showed a reduced shedding probability relative to Control rep1, Treatment rep2, and Control rep2 (log odds value −25.36 vs. −1.71, −1.39, and −0.23, respectively). Fixed effect predictor covariates, year and age, had no explanatory value. These data suggest that successful contraception of brucellosis-seropositive female bison prevents shedding of B. abortus by individual animals. However, contraceptive treatment may or may not sufficiently reduce disease transmission to reduce brucellosis prevalence in an affected herd.