TY - JOUR T1 - Longitudinal monitoring of Culicoides in Belgium between 2007 and 2011: local variation in population dynamics parameters warrant cautious use of monitoring data. JF - Parasit Vectors Y1 - 2018 A1 - Charlotte Sohier A1 - Deblauwe, Isra A1 - De Deken, Reginald A1 - Madder, Maxime A1 - Fassotte, Christiane A1 - Losson, Bertrand A1 - Nick De Regge KW - Animals KW - Belgium KW - Bluetongue KW - Bluetongue virus KW - Bunyaviridae Infections KW - Ceratopogonidae KW - Epidemiological Monitoring KW - Female KW - Insect Vectors KW - Livestock KW - Longitudinal Studies KW - Male KW - Orthobunyavirus KW - Population Dynamics KW - Risk Assessment KW - Seasons KW - Species Specificity AB -

BACKGROUND: Several European countries suffered important economic losses during the past decade due to the emergence of bluetongue and Schmallenberg viruses. Both are viruses of veterinary importance and are spread by Culicoides spp. This triggered many European countries to start Culicoides population monitoring. Recently a one year monitoring study at 16 sites in Belgium revealed that important variation existed in Culicoides abundance and species diversity between collection sites. In order to analyze whether this variation is consistent over years, a detailed analysis of monitoring data collected at seven locations in Belgium between 2007 and 2011 was performed in this study. At all locations, biting midges were collected with OVI black light traps set-up in close proximity to livestock.

RESULTS: In total, 42 different Culicoides species were morphologically identified. Species of the subgenus Avaritia represented 83% of all collected midges. Nevertheless, important differences in species composition were found between sites. Furthermore, statistical differences between sites were found for the total and maximum annual abundance, showing that a consistent higher or lower number of Culicoides could be collected depending on the selected collection site. Yearly, up to 16 and 30-fold differences in total and maximum annual abundances between sites, respectively, were found. Also the month in which most Culicoides were collected varied greatly between years, both at local (from May to October) and country level [May (2008), June (2010), July (2009), August (2011), October (2007)]. Finally, the average vector-free period over all sites and years was 173 days and could roughly be defined between November and the end of April. Interestingly, important yearly variations of up to two months in the duration of the vector-free period were found between the studied collection sites. In contrast to the abundance parameters, no specific sites could however be identified where monitoring consistently showed shorter or longer vector-free periods.

CONCLUSIONS: In conclusion, our results show that the selection of collection sites for Culicoides monitoring, even in a small country such as Belgium, strongly influences abundance parameters and that yearly variation in seasonality occurs. This emphasizes that care should be taken when using such parameters in risk assessments for transmission of Culicoides-borne diseases and that more clear and strict guidelines for Culicoides monitoring should be considered when monitoring data are used for legislative purposes.

VL - 11 CP - 1 M3 - https://doi.org/10.1186/s13071-018-3082-3 ER -