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How does bluetongue virus survive through the winter?
August 26, 2008In 2006, Bluetongue virus - which infects livestock - reached Northern Europe for the first time. Some people thought that the outbreak would be limited to that particular year, as winter was expected to kill off the midges that host and spread the disease, bringing the threat of infection to an end. In actuality, the disease escalated in the following year, spreading to the UK. So, how did the virus survive the winter?
Drs Anthony Wilson, Karin Darpel and Philip Mellor of the Institute for Animal Health have discussed this puzzling question in an Unsolved Mystery article, published in the open access journal PLoS Biology, freely available to read from publication on the 26th of August.
The answer to this question is of great practical importance, as it will affect both national and international trade of Ruminants, the livestock susceptible to infection, and will dictate trade rules for a long time even after the infection has passed. The answer is also relevant to how we can deal with bluetongue and other unpleasant midge-transmitted diseases in the future.
Dr Mellor said: "Although the major mechanism of bluetongue virus spread is undoubtedly that of Culicoides midges feeding on infected ruminants, growing the virus and then transmitting it to further susceptible animals, other mechanisms may also be at work. These may assume greater importance during the midge-free season (winter), such as we in northern latitudes experience."
Wilson and colleagues point out that evidence to date does not support the winter survival of bluetongue virus in the eggs of Culicoides midges. An alternative hypothesis is that, in mild winters such as that of 2006-07 in northern Europe, sufficient infected midges might survive until they become active again in spring. The midges may enter livestock barns to overwinter. Two other possibilities for disease endurance during winter are that bluetongue is spread by some susceptible species of long-lived ticks and/or by simple mechanical transmission by Melophagus ovinus, a wingless parasite that lives in the fleece of sheep.
Additionally, there is evidence from Australia that bluetongue virus can survive in midges and in a small proportion of infected cattle for three to four months, which would be long enough for winter to come and go without killing the virus.
Closer to home, the recent outbreaks of bluetongue in northern Europe have provided evidence for a different overwinter route-transplacental infections; the virus spreading from an infected pregnant animal to its fetus, a phenomenon also demonstrated by experiment. This phenomenon might be particularly important in cattle, where the long gestation period of nine months (four for sheep) means that the virus can grow and survive within a fetus, at just the right temperature, throughout the coldest of winters. There is also circumstantial evidence that cattle could become infected orally if they eat the afterbirth of an infected offspring from another cow.
As Dr. Mellor summarizes, "Experiments have revealed a toolbox of possible mechanisms, with the potential to interact with and complement one another."
Public Library of Science
Dr Mellor said: "Although the major mechanism of bluetongue virus spread is undoubtedly that of Culicoides midges feeding on infected ruminants, growing the virus and then transmitting it to further susceptible animals, other mechanisms may also be at work. These may assume greater importance during the midge-free season (winter), such as we in northern latitudes experience."
Wilson and colleagues point out that evidence to date does not support the winter survival of bluetongue virus in the eggs of Culicoides midges. An alternative hypothesis is that, in mild winters such as that of 2006-07 in northern Europe, sufficient infected midges might survive until they become active again in spring. The midges may enter livestock barns to overwinter. Two other possibilities for disease endurance during winter are that bluetongue is spread by some susceptible species of long-lived ticks and/or by simple mechanical transmission by Melophagus ovinus, a wingless parasite that lives in the fleece of sheep.
Additionally, there is evidence from Australia that bluetongue virus can survive in midges and in a small proportion of infected cattle for three to four months, which would be long enough for winter to come and go without killing the virus.
Closer to home, the recent outbreaks of bluetongue in northern Europe have provided evidence for a different overwinter route-transplacental infections; the virus spreading from an infected pregnant animal to its fetus, a phenomenon also demonstrated by experiment. This phenomenon might be particularly important in cattle, where the long gestation period of nine months (four for sheep) means that the virus can grow and survive within a fetus, at just the right temperature, throughout the coldest of winters. There is also circumstantial evidence that cattle could become infected orally if they eat the afterbirth of an infected offspring from another cow.
As Dr. Mellor summarizes, "Experiments have revealed a toolbox of possible mechanisms, with the potential to interact with and complement one another."
Public Library of Science
Bluetongue Current Events and Bluetongue News RSSResearchers examine role of climate change in disease spread
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Towards understanding bluetongue outbreaks
A recent article published in Virology (www.elsevier.com/locate/yviro), reports the identification of a bluetongue virus strain that caused the northern European Bluetongue outbreak in 2006. Comparison of the virus strain with the sequences of other previously isolated strains showed that it originated in sub-Saharan Africa, rather than from vaccine strains or strains circulating in southern Europe.
Toll of climate change on world food supply could be worse than thought
Global agriculture, already predicted to be stressed by climate change in coming decades, could go into steep, unanticipated declines in some regions due to complications that scientists have so far inadequately considered, say three new scientific reports.
IAH at the BA Festival: bluetongue virus moves into Europe
After this summer¡¦s record temperatures, UK sheep could soon be at risk from a deadly virus that is spreading north throughout Europe. The effect of climate change on the distribution of infectious disease will be discussed today (Tuesday 09 September 2003) at the BA festival of Science. Bluetongue is on the OIE¡¦s "A" list of infectious diseases. Until recently most of Europe was protected from bluetongue by a natural boundary ¡V the climate. But the disease has killed over half a million sheep in southern Europe since 1998. Dr Philip Mellor of the Institute for Animal Health says, ¡§We have studied the spread of the insect carrier of bluetongue virus (BTV) from North
Institute for Animal Health at the BA: the changing world of animal disease
Where do new diseases come from and how do they spread? The Institute for Animal Health will address these questions at the BA Festival of Science on Tuesday 09 September. A press conference will be held at 1100 hrs in the Newton Building, University of Salford.
IAH appoints new Head of Epidemiology
The Institute for Animal Health is pleased to announce that Dr Matthew Baylis has been appointed as Head of the Division of Epidemiology. Dr Baylis will take charge of a re-structured division responsible for experimental epidemiology and mathematical modelling of a number of infectious diseases across the Institute's three laboratories at Compton, Edinburgh and Pirbright. Dr Baylis joined the Institute in 1993 as a postdoctoral researcher, and became a research group leader in 2000. During this time he has made a significant impact in the development of mathematical models to predict the spread of BSE, scrapie, bluetongue, and African horse sickness. IAH Director Professor Paul-Pierre Pasto
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