Inferences about the transmission of Schmallenberg virus within and between farms

Simon Gubbins; Joanne Turner; Matthew Baylis; Yves van der Stede; Gerdien van Schaik; José Cortiñas Abrahantes; Anthony J. Wilson

doi:10.1016/j.prevetmed.2014.04.011

Inferences about the transmission of Schmallenberg virus within and between farms

Simon Gubbins^*, Joanne Turner, Matthew Baylis, Yves van der Stede, Gerdien van Schaik, José Cortiñas Abrahantes, Anthony J. Wilson

^*Corresponding author for this work

FAH Veterinary Epidemiology

Research output: Contribution to journal › Article › Academic › peer-review

Abstract

In the summer of 2011 Schmallenberg virus (SBV), a Culicoides-borne orthobunyavirus, emerged in Germany and The Netherlands and subsequently spread across much of Europe. To draw inferences about the transmission of SBV we have developed two models to describe its spread within and between farms. The within-farm model was fitted to seroprevalence data for cattle and sheep farms in Belgium and The Netherlands, with parameters estimated using approximate Bayesian computation. Despite the short duration of viraemia in cattle and sheep (mean of 3-4 days) the within-farm seroprevalence can reach high levels (mean within-herd seroprevalence >80%), largely because the probability of transmission from host to vector is high (14%) and SBV is able to replicate quickly (0.03 per day-degree) and at relatively low temperatures (threshold for replication: 12.3 °C). Parameter estimates from the within-farm model were then used in a separate between-farm model to simulate the regional spread of SBV. This showed that the rapid spread of SBV at a regional level is primarily a consequence of the high probability of transmission from host to vector and the temperature requirements for virus replication. Our results, obtained for a region of the UK in a typical year with regard to animal movements, indicate that there is no need to invoke additional transmission mechanisms to explain the observed patterns of rapid spread of SBV in Europe. Moreover, the imposition of movement restrictions, even a total movement ban, has little effect on the spread of SBV at this scale.

Original language	English
Pages (from-to)	380-390
Number of pages	11
Journal	Preventive Veterinary Medicine
Volume	116
Issue number	4
DOIs	https://doi.org/10.1016/j.prevetmed.2014.04.011
Publication status	Published - 1 Jan 2014

Funding

This work was carried out under the auspices of the European Food Safety Authority (EFSA) Schmallenberg virus epidemiology working group. The authors are grateful to Estelle Méroc (CODA-CERVA, Belgium) and Anouk Veldhuis (GD Animal Health, The Netherlands) for providing the seroprevalence data. The authors would also like to acknowledge all reporting officers that have submitted data on SBV occurrence in European countries, the EFSA Animal Health and Welfare Network and the Ad-hoc working group on Schmallenberg virus experts and EFSA staff. The authors thank Simon Carpenter and Eva Veronesi (The Pirbright Institute) for discussions on vector competence and replication of SBV in Culicoides biting midges. S.G. and A.J.W. acknowledge funding by the Biotechnology and Biological Sciences Research Council (BBSRC) (Grant codes: BBS/E/I/00001409 and BBS/E/I/00001717 ). J.T. and M.B. acknowledge funding from the Leverhulme Trust (Research Leadership Award F/0025/AC ) awarded to M.B.

Keywords

Approximate Bayesian computation
Epidemiology
Modelling
SBV
Vector-borne disease

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abstract = "In the summer of 2011 Schmallenberg virus (SBV), a Culicoides-borne orthobunyavirus, emerged in Germany and The Netherlands and subsequently spread across much of Europe. To draw inferences about the transmission of SBV we have developed two models to describe its spread within and between farms. The within-farm model was fitted to seroprevalence data for cattle and sheep farms in Belgium and The Netherlands, with parameters estimated using approximate Bayesian computation. Despite the short duration of viraemia in cattle and sheep (mean of 3-4 days) the within-farm seroprevalence can reach high levels (mean within-herd seroprevalence >80%), largely because the probability of transmission from host to vector is high (14%) and SBV is able to replicate quickly (0.03 per day-degree) and at relatively low temperatures (threshold for replication: 12.3 °C). Parameter estimates from the within-farm model were then used in a separate between-farm model to simulate the regional spread of SBV. This showed that the rapid spread of SBV at a regional level is primarily a consequence of the high probability of transmission from host to vector and the temperature requirements for virus replication. Our results, obtained for a region of the UK in a typical year with regard to animal movements, indicate that there is no need to invoke additional transmission mechanisms to explain the observed patterns of rapid spread of SBV in Europe. Moreover, the imposition of movement restrictions, even a total movement ban, has little effect on the spread of SBV at this scale.",

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Inferences about the transmission of Schmallenberg virus within and between farms

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