Abstract
Bovine viral diarrhea virus (BVDV) is an economically important disease in Australian beef farming. The disease typically results in low-level production losses that can be difficult to detect for several years. Simulation modeling can be used to support the decision to control BVDV; however, current BVDV simulation models do not adequately reflect the extensive farming environment of Australian beef production. Therefore, the objective of this study was to develop a disease simulation model to explore the impact of BVDV on beef cattle production in south-east Australia. A dynamic, individual-based, stochastic, discrete-time simulation model was created to simulate within-herd transmission of BVDV in a seasonal, self-replacing beef herd. We used the model to simulate the effect of herd size and BVDV introduction time on disease transmission and assessed the short- and long-term impact of BVDV on production outputs that influence the economic performance of beef farms. We found that BVDV can become established in a herd after a single PI introduction in 60% of cases, most frequently associated with the breeding period. The initial impact of BVDV will be more severe in smaller herds, although self-elimination is more likely in small herds than in larger herds, in which there is a 23% chance that the virus can persist for >15 years following a single incursion in a herd with 800 breeders. The number and weight of steers sold was reduced in the presence of BVDV and the results demonstrated that repeat incursions exacerbate long-term production losses, even when annual losses appear marginal. This model reflects the short- and long-term production losses attributed to BVDV in beef herds in southeast Australia and provides a foundation from which the influence and economic utility of BVDV prevention in Australian beef herds can be assessed.
Highlights
Endemic diseases are responsible for significant economic losses in the Australian beef industry
This novel disease simulation model reflects the impact of bovine viral diarrhea virus (BVDV) in settings consistent with Australian beef production at the individual farm level
Model outputs indicated that a single BVDV incursion is likely to cause the birth of at least one persistently infected (PI) animal in ∼60% of all simulations
Summary
Endemic diseases are responsible for significant economic losses in the Australian beef industry. Calf mortality rate expected to be due to BVDV [65] following an outbreak in a NSW beef herd of 400-breeders. Percentage of steers estimated to be lightweight at slaughter (at 2–3 years old) following an outbreak of BVDV in a QLD beef herd with 900-breeders Source [52]. In addition to elimination time, data from the model for the 400-breeder herd showed that the 2-and 4-year seroprevalence in the 73-day period prior to joining were comparable to the values reported by Allworth et al [65]. The model demonstrated that the highest daily prevalence of viremia following subsequent BVDV introductions became lower as herd seroprevalence increases; a relationship which is well recognized in the literature [11] These examples, as well as those found, further validate the disease transmission component of the BVDV simulation model described in this study
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