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ABSTRACT: Entomological monitoring was carried out from April 2007 to May 2008 at 20 locations in the areas of Lower Saxony, Schleswig-Holstein,
Hamburg, and Bremen. A total number of 26 Culicoides species were sampled by light traps during the first week of every month. Culicoides diversity was highest in summer, achieving more than 20 species and genera per month. Numbers of Culicoides were highest in spring and summer with a maximum of 325,000 individuals in May 2008 at a single location. During the winter,
the number of individuals decreased considerably, but few individuals of Culicoides were present even during the coldest months in January and February with Culicoides obsoletus remaining the only species complex. The total number of Ceratopogonidae and the number of individuals from C. obsoletus complex and Culicoides pulicaris complex were significantly correlated with temperature almost at any date and location.
Parasitology Research 04/2012; 105(2):351-357. · 2.15 Impact Factor
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Bernd Hoffmann,
Burkhard Bauer,
Christian Bauer,
Hans Joachim Bätza,
Martin Beer,
Peter Henning Clausen,
Martin Geier,
Jörn M Gethmann,
Ellen Kiel, Gabriele Liebisch,
Arndt Liebisch,
Heinz Mehlhorn,
Günter A Schaub,
Doreen Werner,
Franz J Conraths
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ABSTRACT: To identify the vectors of bluetongue virus (BTV) in Germany, we monitored Culicoides spp. biting midges during April 2007-May 2008. Molecular characterization of batches of midges that tested positive for BTV suggests C. obsoletus sensu stricto as a relevant vector of bluetongue disease in central Europe.
Emerging Infectious Diseases 09/2009; 15(9):1481-4. · 6.79 Impact Factor
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Parasitology Research 06/2009; · 2.15 Impact Factor
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ABSTRACT: Entomological monitoring was carried out from April 2007 to May 2008 at 20 locations in the areas of Lower Saxony, Schleswig-Holstein, Hamburg, and Bremen. A total number of 26 Culicoides species were sampled by light traps during the first week of every month. Culicoides diversity was highest in summer, achieving more than 20 species and genera per month. Numbers of Culicoides were highest in spring and summer with a maximum of 325,000 individuals in May 2008 at a single location. During the winter, the number of individuals decreased considerably, but few individuals of Culicoides were present even during the coldest months in January and February with Culicoides obsoletus remaining the only species complex. The total number of Ceratopogonidae and the number of individuals from C. obsoletus complex and Culicoides pulicaris complex were significantly correlated with temperature almost at any date and location.
Parasitology Research 04/2009; 105(2):351-7. · 2.15 Impact Factor
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Heinz Mehlhorn,
Volker Walldorf,
Sven Klimpel,
Günter Schaub,
Ellen Kiel,
René Focke, Gabriele Liebisch,
Arndt Liebisch,
Doreen Werner,
Christian Bauer,
Henning Clausen,
Burkhard Bauer,
Martin Geier,
Thomas Hörbrand,
Hans-Joachim Bätza,
Franz J Conraths,
Bernd Hoffmann,
Martin Beer
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ABSTRACT: In the summer of 2006, a bluetongue epidemic started in the border area of Belgium, The Netherlands, and Germany, spread within 2 years over large areas of Western and Central Europe, and caused substantial losses in farm ruminants. Especially sheep and cattle were severely affected, leading to a case-fatality ratio of nearly 40% in sheep (Conraths et al., Emerg Inf Dis 15(3):433-435, 2009). The German federal ministry of food, agriculture, and consumer protection (BMELV) established a countrywide monitoring on the occurrence of the vectors of this virus, i.e., midges (family Ceratopogonidae) of the genus Culicoides. The monitoring was done on 91 sites, most of which were localized in the 150-km restriction zone that existed in December 2006. A grid consisting of 45 x 45 km(2) cells was formed that covered the monitoring area. As a rule, one trap was placed into each grid cell. The monitoring program started at the end of March 2007 and lasted until May 2008. It included the catching of midges by ultraviolet light traps-done each month from days 1 until 8, the selection of midges of the Culicoides obsoletus, Culicoides pulicaris group, and other Culicoides spp., the testing of midges for bluetongue virus (BTV) by polymerase chain reaction (PCR), and the daily registration of weather data at each trap site for the whole monitoring period. The following main results were obtained: (1) Members of the C. obsoletus group were most commonly found in the traps, reaching often 3/4 of the catches. The African and South European vector of BTV-the species Culicoides imicola-was never found. (2) Members of the C. obsoletus group were most frequently found infected with BTV besides a few cases in the C. pulicaris group and other species. (3) Members of the C. obsoletus group were also found in winter. Their numbers were reduced, however, and they were caught mostly close to stables. Therefore, a true midge-free period does not exist during the year in Germany. (4) The amounts of midges caught daily depended on the weather conditions. If it was cold and/or windy, the traps contained only a few specimens. Since the months from January to May 2008 were considerably colder (at all farms) than their correspondents in 2007, the growing of the population of midges started 2-3 months later in 2008 than in 2007. (5) The highest populations of midges occurred in both years (2007 and 2008) during the months September and October. This corresponded significantly to the finding of highest numbers of infected midges and to the number of diseased cattle and sheep during these 2 months. (6) It is noteworthy that in general, the first virus-positive midges of the species C. obsoletus were found about 1 1/2 months later than the first clinical cases had occurred or later than the first PCR-proven virus-positive sentinel animals had been documented. In 2007, the first BTV-positive cattle were detected in May in North Rhine-Westphalia, while the first positive Culicoides specimens were only found in August on the same farm. Evaluating these main results of the entomological monitoring and the fact that many wild ruminants have also been infected with BTV, it becomes evident that bluetongue disease has become endemic in Central Europe, and that only constant effort including vaccination and perhaps also insecticidal protection of cattle and sheep will keep the economical losses at a reasonable level. The following papers (1-10) in this journal will contribute more details obtained from this worldwide unique entomological monitoring: Bartsch et al. 2009; Bauer et al. 2009; Stephan et al. 2009; Clausen et al. 2009; Hörbrand and Geier 2009; Kiehl et al. 2009; Mehlhorn et al. 2009; Kiel et al. 2009; Vorsprach et al. 2009; Balczun et al. 2009.
Parasitology Research 04/2009; 105(2):313-9. · 2.15 Impact Factor
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ABSTRACT: When in 2006 infection with bluetongue for the first time occurred in Germany the registered and already against flies and tabanids in cattle proofed Flectron ear tags were used against the blood feeding vector midges (Culicoides) also. However, the efficacy against gnats was not yet proofed. The efficacy of 1 and 2 ear tags (1,067 g cypermethrin per ear tag) per animal was investigated in North Germany with 237 heifers and dairy cows. Midges were caught in suction light traps close to the cattle on pasture or became trapped by mouth operated aspirators directly at the skin of the animal bodies. Within 12,051 specimens of midges 12 species of Culicoides could be identified. On grasslands 3 species, C. obsoletus, C. pulicaris and C. dewulfi were found to be dominant. These 3 species are also known to be vectors of BTV. The toxic efficacy was found for 14 days with 1 ear tag and up to 21 days with 2 ear tags. This duration of efficacy was confirmed in the laboratory with hair clippings from the dorsal line and the ventral abdomen (bioassay). In accordance with workers in the U.S.A. it is concluded that insecticide-impregnated ear tags will reduce the number of biting midges, and by this way the risk of infection with BTV in herds of treated cattle will be reduced as well as in other cattle of a particular region. It is concluded that ear tags are of considerable value as part of an integrated control program for BT, e.g. vaccination.
DTW. Deutsche tierärztliche Wochenschrift 07/2008; 115(6):220-30. · 0.41 Impact Factor
