Single event or epidemic? Mating behaviour and movement patterns influence the dynamics of animal diseases
Swine fever, rabies, bird flu – outbreaks of diseases in wildlife populations often also affect farm animals and humans. However, their causes and the dynamics of their spread are often complex and not well understood. A team of scientists led by the Leibniz Institute for Zoo and Wildlife Research (Leibniz-IZW) has now carried out an analysis of long-term data of an outbreak of classical swine fever in wild boars in the German federal state of Mecklenburg-Vorpommern that occurred between 1993 and 2000. The results suggest that non-infected regions have a higher risk of infection due to changes in movement patterns, particularly during the mast and rutting seasons (autumn and winter), and thus highlighting the importance for focusing intervention efforts on specific individuals, seasons and areas in the event of future outbreaks. The findings are published in the “Journal of Animal Ecology”.
The study was conducted by a team of scientists from the Helmholtz Centre for Environmental Research (UFZ), the Friedrich Loeffler Institute (FLI) and the University of Potsdam under the direction of Leibniz-IZW. “Studies such as these help us to uncover the temporal and spatial dynamics of diseases such as classical swine fever and to use these findings to derive possible causes for long-lasting epidemics as well as measures to prevent new infections and outbreaks,” explains first author Cédric Scherer (Leibniz-IZW). The seasonal patterns of disease spread varied dramatically. “Interestingly, at the county level, infection was more likely to occur in autumn and winter, while individual wild boars, especially the young, are most likely to become infected in spring during birth season”, reports Stephanie Kramer-Schadt, who heads the Leibniz-IZW project. “We assume that this is due to the increased movement activity in autumn and winter. In particular, the search for mating partners and the shortage of food lead to more frequent changes of location and thus likely enable the spread of the disease beyond district boundaries”, Kramer-Schadt continues. Contrary to common interpretations, the density of wild boar in a municipality was not decisive. “This finding is understandable, as almost all districts have more wild boar than necessary for the spread of infectious diseases”, explains epidemiologist Hans-Herrmann Thulke (UFZ), who co-initiated the study.
The detailed long-term data collected by the authorities in Mecklenburg-Vorpommern during the outbreak made it possible to investigate the temporal and spatial differences in the spread of the disease. The authors analysed the data for different phases of disease spread on the one hand and for individual animals and entire municipalities on the other.
Classical swine fever (or European swine fever) is a viral infection affecting wild and domestic pigs. Despite similar symptoms, the pathogens of classical swine fever and African swine fever are not related in the course of the disease. Long-lasting outbreaks of classical swine fever among wild boars often lead to the spread of the infection to agricultural pig farms. This can cause considerable economic damage if millions of domestic pigs are emergency slaughtered and export bans are imposed on pork products.
In order to limit the spread of classical swine fever in a wildlife population, vaccination baits could be used and/or the density of wild boar could be reduced by hunting. Although lowering the density to a theoretical minimum was often discussed as a measure, this study shows that in later times of an outbreak it was not the density but the contact rates, which likely increased due to changes in movement behaviour and made it possible for the disease to persist for several years. In order to prevent such persistence or future outbreaks, the focus should therefore be on reducing the contact rates between wild boar groups.
C. Scherer, V. Radchuk, C. Staubach, S. Müller, N. Blaum, H.-H. Thulke & S. Kramer-Schadt (2019) Seasonal host life-history processes fuel disease dynamics at different spatial scales. Journal of Animal Ecology. DOI: 10.1111/1365-2656.13070
Leibniz Institute for Zoo and Wildlife Research (Leibniz-IZW)
in the Forschungsverbund Berlin e.V.
Alfred-Kowalke-Str. 17, 10315 Berlin
Scientific researcher in the Department of Ecological Dynamics
phone: +49(0)30 5168342
Prof. Dr. Kramer-Schadt
Head of the Department of Ecological Dynamics
phone: +49(0)30 5168714
Press Relations / Science Communication
phone: +49(0)30 5168121
Helmholtz Centre for Environmental Research - UFZ
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Dr. Hans-Herrmann Thulke
Scientist in the Department of Ecological Modelling
phone: +49(0) 0341 2351712
University of Potsdam
Am Neuen Palais 10, 14469 Potsdam
PD Dr. Niels Blaum
Scientist in the Research Group of Plant Ecology and Nature Conservation
Phone: +49 331 977 1959