Vaccination and monitoring strategies for epidemic prevention and detection in the Channel Island fox (Urocyon littoralis).
Autor: | Sanchez JN; Institute for Wildlife Studies, Arcata, California, United States of America., Hudgens BR; Institute for Wildlife Studies, Arcata, California, United States of America. |
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Jazyk: | angličtina |
Zdroj: | PloS one [PLoS One] 2020 May 18; Vol. 15 (5), pp. e0232705. Date of Electronic Publication: 2020 May 18 (Print Publication: 2020). |
DOI: | 10.1371/journal.pone.0232705 |
Abstrakt: | Disease transmission and epidemic prevention are top conservation concerns for wildlife managers, especially for small, isolated populations. Previous studies have shown that the course of an epidemic within a heterogeneous host population is strongly influenced by whether pathogens are introduced to regions of relatively high or low host densities. This raises the question of how disease monitoring and vaccination programs are influenced by spatial heterogeneity in host distributions. We addressed this question by modeling vaccination and monitoring strategies for the Channel Island fox (Urocyon littoralis), which has a history of substantial population decline due to introduced disease. We simulated various strategies to detect and prevent epidemics of rabies and canine distemper using a spatially explicit model, which was parameterized from field studies. Increasing sentinel monitoring frequency, and to a lesser degree, the number of monitored sentinels from 50 to 150 radio collared animals, reduced the time to epidemic detection and percentage of the fox population infected at the time of detection for both pathogens. Fox density at the location of pathogen introduction had little influence on the time to detection, but a large influence on how many foxes had become infected by the detection day, especially when sentinels were monitored relatively infrequently. The efficacy of different vaccination strategies was heavily influenced by local host density at the site of pathogen entry. Generally, creating a vaccine firewall far away from the site of pathogen entry was the least effective strategy. A firewall close to the site of pathogen entry was generally more effective than a random distribution of vaccinated animals when pathogens entered regions of high host density, but not when pathogens entered regions of low host density. These results highlight the importance of considering host densities at likely locations of pathogen invasion when designing disease management plans. Competing Interests: The authors have declared that no competing interests exist. |
Databáze: | MEDLINE |
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