Your search keyword '"Balenghien, T."' showing total 12 results

1. Assessing Diversity and Abundance of Vector Populations at a National Scale: Example of Culicoides Surveillance in France After Bluetongue Virus Emergence

Author

Venail, R., Balenghien, T., Guis, H., Tran, A., Setier-Rio, M.-L., Delécolle, J.-C., Mathieu, B., Cêtre-Sossah, C., Martinez, D., Languille, J., Baldet, T., Garros, C., and Mehlhorn, Heinz, editor

Published

2012

2. Schmallenberg virus in <italic>Culicoides</italic> Latreille (Diptera: Ceratopogonidae) populations in France during 2011‐2012 outbreak.

Author

Ségard, A., Gardès, L., Jacquier, E., Grillet, C., Mathieu, B., Rakotoarivony, I., Setier‐Rio, M.‐L., Chavernac, D., Cêtre‐Sossah, C., Balenghien, T., and Garros, C.

Subjects

CULICOIDES, SCHMALLENBERG virus, INSECT populations, EPIDEMIOLOGY, REVERSE transcriptase polymerase chain reaction

Abstract

Summary: Following the emergence of the Schmallenberg virus (SBV) in 2011 in Germany and its rapid spread in Europe, Culicoides (Diptera: Ceratopogonidae) collected through the French surveillance network were analysed in order to record the presence of virus genome into species diversity collected, to assess the minimum infectious rates (MIR) and the virus circulation dynamics in Culicoides populations. Two vector activity periods were selected (2011, August to October, 53 sites and 2012, June to October, 35 sites) corresponding to 704 night collections. A total of 29,285 individual midges covering at least 50 species were tested either in pools of maximum 50 females or individually (for Culicoides obsoletus/Culicoides scoticus) using real‐time RT‐PCR. Nine species were found SBV positive (C. obsoletus, C. scoticus, Culicoides chiopterus, Culicoides dewulfi, Culicoides imicola, Culicoides pulicaris, Culicoides newsteadi, Culicoides lupicaris and Culicoides nubeculosus) with overall MIR ranging from 0.2% to 4.2%. While the Culicoides nubeculosus laboratory strain is generally considered to have only low vector competence for viruses, interestingly, field‐caught C. nubeculosus specimens were found positive twice for SBV. The first SBV‐positive pool was recorded in August 2011 in north‐eastern France, dating the virus circulation in France 5 months earlier than the first recorded congenital malformations and 2 months earlier than the former recorded date based on retrospective serological data. The MIR were maximum in October 2011, and in July 2012 according to dates of virus arrival in the studied areas. Moreover, our study also showed that virus circulation could be locally intense with infection rate (IR) reaching up to 16% for C. obsoletus/C. scoticus in July 2012 in one site of western France. This retrospective study demonstrates the importance of large‐scale analysis to describe the spatio‐temporal dynamics of virus circulation. [ABSTRACT FROM AUTHOR]

Published

2018

3. Dynvest's overview of the Culicoides surveillance systems in the EU and distribution maps of key species

Author

Balenghien, T., Bødker, Rene, Kiel, E., De Deken, R., Chirico, J., Lucientes, J., Carpenter, S., Elbers, A.R.W., Calistri, P., Miranda, M., Staubach, C., Van der Stede, Y., and Guis, H.

Subjects

Culicoides, L73 - Maladies des animaux, L72 - Organismes nuisibles des animaux

Abstract

One of the aims of the DynVect project was to set up a network of European entomologists working on #Culicoides#, the vectors of bluetongue virus, to create a platform for discussion, data sharing and data analysis. The first task consisted in describing the surveillance systems in place in each country. For this, a questionnaire was sent to 9 countries: Belgium, Denmark, England, France, Germany, Italy, Spain, Sweden and The Netherlands. Between 1 and 9 institutes per country were involved in the surveillance. The first country to set up a surveillance system was Spain (in 2000), followed by other southern countries (Italy and France). A second wave of countries set up surveillance systems in 2006, with the arrival of bluetongue in northern Europe. All countries currently continue the surveillance except Germany (which stopped the surveillance in mid 2008). All countries shared common aims: defining "vector-free" periods and describing the diversity and dynamics of species. Except in Italy, all surveillance protocols evolved over the years, for example from covering specific regions to the entire country, and/or with an increasing number of traps. Surveillance systems vary between countries in terms of i) number of traps per country (5 - 300), ii) types of traps used (OVI, CDC, BG, Rieb, Rothamsted suction trap), although currently all countries use OVI traps except for Spain, iii) trapping frequency (day and night, weekly, fortnightly or monthly), iv) number of collection nights (mainly 1 night trapping, except Belgium with 2 consecutive nights and Germany with 7 consecutive days), v) trap location within farm (inside or outside buildings or both according to the season), vi) the level to which species are identified (Group, Complex or species) and vii) the definition of the vector-free period. Following this descriptive phase, participants discussed the data which could be shared and the associated aims as well as the database structure which should be used. This was fruitful and lead to the sharing of #Culicoides# data from 7 countries (Belgium, Denmark, France, Germany, Spain, Sweden, England), thus allowing, for the first time ever at that scale, to map #Culicoides# distribution, and to further analyze and model the dynamics and distribution of #Culicoides# in Europe. (Texte intégral)

Published

2010

4. A first estimation of Culicoides imicola and Culicoides obsoletus/Culicoides scoticus seasonality and abundance in Europe.

Author

Versteirt, V, Balenghien, T, Tack, W, and Wint, W

Subjects

*CULICOIDES, *DATA analysis

Published

2017

5. A spatiotemporal model to assess the introduction risk of African horse sickness by import of animals and vectors in France.

Author

Faverjon, C., Leblond, A., Hendrikx, P., Balenghien, T., de Vos, C. J., Fischer, E. A. J., and de Koeijer, A. A.

Subjects

AFRICAN horse sickness, HORSE viral diseases, VIRUS diseases, CULICOIDES, RISK assessment

Abstract

Background: African horse sickness (AHS) is a major, Culicoides-borne viral disease in equines whose introduction into Europe could have dramatic consequences. The disease is considered to be endemic in sub-Saharan Africa. Recent introductions of other Culicoides-borne viruses (bluetongue and Schmallenberg) into northern Europe have highlighted the risk that AHS may arrive in Europe as well. The aim of our study was to provide a spatiotemporal quantitative risk model of AHS introduction into France. The study focused on two pathways of introduction: the arrival of an infectious host (PW-host) and the arrival of an infectious Culicoides midge via the livestock trade (PW-vector). The risk of introduction was calculated by determining the probability of an infectious animal or vector entering the country and the probability of the virus then becoming established: i.e., the virus's arrival in France resulting in at least one local equine host being infected by one local vector. This risk was assessed using data from three consecutive years (2010 to 2012) for 22 regions in France. Results: The results of the model indicate that the annual risk of AHS being introduced to France is very low but that major spatiotemporal differences exist. For both introduction pathways, risk is higher from July to October and peaks in July. In general, regions with warmer climates are more at risk, as are colder regions with larger equine populations; however, regional variation in animal importation patterns (number and species) also play a major role in determining risk. Despite the low probability that AHSV is present in the EU, intra-EU trade of equines contributes most to the risk of AHSV introduction to France because it involves a large number of horse movements. Conclusion: It is important to address spatiotemporal differences when assessing the risk of ASH introduction and thus also when implementing efficient surveillance efforts. The methods and results of this study may help develop surveillance techniques and other risk reduction measures that will prevent the introduction of AHS or minimize AHS' potential impact once introduced, both in France and the rest of Europe. [ABSTRACT FROM AUTHOR]

Published

2015

6. Host preferences of Palaearctic Culicoides biting midges: implications for transmission of orbiviruses.

Author

VIENNET, E., GARROS, C., GARDÈS, L., RAKOTOARIVONY, I., ALLÈNE, X., LANCELOT, R., CROCHET, D., MOULIA, C., BALDET, T., and BALENGHIEN, T.

Subjects

CULICOIDES, CERATOPOGONIDAE, ORBIVIRUSES, BIOAVAILABILITY, ANIMAL defenses, PATHOGENIC microorganisms, DIPTERA, PALEARCTIC

Abstract

Feeding success depends on host availability, host defensive reactions and host preferences. Host choice is a critical determinant of the intensity at which pathogens are transmitted. The aim of the current study was to describe host preferences of Palaearctic Culicoides species (Diptera: Ceratopogonidae) Latreille using traps baited with the five different host species of poultry, horse, cattle, sheep and goat. Collections were carried out nightly in July and August 2009 in western France with three replicates of a 5 × 5 randomized Latin square (five sites, five hosts). Moreover, an ultraviolet (UV) light/suction trap was operated during host-baited collections to correlate Culicoides biting rates and UV light/suction trap catches. A total of 660 Culicoides belonging to 12 species, but comprised mainly of Culicoides scoticus Downes and Kettle, Culicoides dewulfi Goetghebuer and Culicoides obsoletus Meigen, were collected on animal baits. Abundance was highest for the horse, which accounted for 95% of all Culicoides caught, representing 10 species. The horse, the largest bait, was the most attractive host, even when abundance data were corrected by weight, body surface or Kleiber's scaling factor. Culicoides obsoletus was the only dominant species attracted by birds. Both C. scoticus and C. dewulfi were collected mainly from the upper body of the horse. Finally, the quantification of host preferences allows for discussion of implications for the transmission of Culicoides-borne pathogens such as bluetongue virus. [ABSTRACT FROM AUTHOR]

Published

2013

7. Culicoides et virus transmis : compréhension de la dynamique des populations de vecteurs et des mécanismes de circulation de la fièvre catarrhale ovine

Author

Garros, C., David Pleydell, Jacquet, S., Soledad Castano, M., Pioz, M., Guis, H., Karine Huber, Balenghien, T., Christian Ducrot, Lancelot, R., Lefrancois, T., Contrôle des maladies animales exotiques et émergentes (UMR CMAEE), Centre de Coopération Internationale en Recherche Agronomique pour le Développement (Cirad)-Institut National de la Recherche Agronomique (INRA), Centre de Coopération Internationale en Recherche Agronomique pour le Développement (Cirad), Unité de Recherche d'Épidémiologie Animale (UR EpiA), and Institut National de la Recherche Agronomique (INRA)

Subjects

CULICOIDES, [SDV]Life Sciences [q-bio], DYNAMIQUE, FCO, ComputingMilieux_MISCELLANEOUS

Abstract

National audience

8. First record of Culicoides imicola, the main vector of bluetongue virus in Europe, in the Basque Country (northern Spain).

Author

Goldarazena, A., Romón, P., Aduriz, G., Balenghien, T., Baldet, T., and Delécolle, J-C.

Subjects

CULICOIDES, BLUETONGUE virus, VETERINARY epidemiology

Abstract

The article discusses the first record of bluetongue virus (BTV) main vector Culicoides imicola in the Basque Country in northern Spain. This insect presents mainly an Afro-Asian distribution, but it was first reported on mainland Europe in southern Spain and southern Portugal. During 2001 and 2002, sampling undertaken as a consequence of the BTV epizootic in the Balearic Islands of Majorca and Menorca in 2000 showed for the first time that C. imicola was present on these two islands.

Published

2008

9. Laboratory and Field-Based Tests of Deltamethrin Insecticides Against Adult Culicoides Biting Midges

Author

Venail, R., Mathieu, B., Setier-Rio, M.-L., Borba, C., Alexandre, M., Viudes, G., Garros, C., Allene, X., Carpenter, S., Baldet, T., and Balenghien, T.

Published

2011

10. Culicoides Latreille (Diptera: Ceratopogonidae) taxonomy: Current challenges and future directions.

Author

Harrup, L.E., Bellis, G.A., Balenghien, T., and Garros, C.

Subjects

*CULICOIDES, *CLASSIFICATION of insects, *INSECT evolution, *VETERINARY epidemiology, *MOLECULAR biology, *INSECT morphology

Abstract

Culicoides Latreille biting midges (Diptera: Ceratopogonidae) cause a significant biting nuisance to humans, livestock and equines, and are the biological vectors of a range of internationally important pathogens of both veterinary and medical importance. Despite their economic significance, the delimitation and identification of species and evolutionary relationships between species within this genus remains at best problematic. To date no phylogenetic study has attempted to validate the subgeneric classification of the genus and the monophyly of many of the subgenera remains doubtful. Many informal species groupings are also known to exist but few are adequately described, further complicating accurate identification. Recent contributions to Culicoides taxonomy at the species level have revealed a high correlation between morphological and molecular analyses although molecular analyses are revealing the existence of cryptic species. This review considers the methods for studying the systematics of Culicoides using both morphological and genetic techniques, with a view to understanding the factors limiting our current understanding of Culicoides biology and hence arbovirus epidemiology. In addition, we examine the global status of Culicoides identification, highlighting areas that are poorly addressed, including the potential implementation of emerging technologies. [ABSTRACT FROM AUTHOR]

Published

2015

11. Foraging range of arthropods with veterinary interest: New insights for Afrotropical Culicoides biting midges (Diptera: Ceratopogonidae) using the ring method.

Author

Bakhoum, M.T., Fall, M., Seck, M.T., Gardès, L., Fall, A.G., Diop, M., Mall, I., Balenghien, T., Baldet, T., Gimonneau, G., Garros, C., and Bouyer, J.

Subjects

*ARTHROPODA, *VECTOR-pathogen relationships, *CERATOPOGONIDAE, *CULICOIDES, *BLOOD meal as feed

Abstract

The identification of blood meal source of arthropod vector species contributes to the understanding of host-vector-pathogen interactions. The aim of the current work was to identify blood meal source in Culicoides biting midge species, biological vectors of internationally important arboviruses of livestock and equids, using a new ecological approach. We examined the correlation between blood meal source identified in engorged Culicoides females collected in a suction light trap and the available vertebrate hosts along four rings (200, 500, 1000 and 2000 m) centered at the trap site and described the foraging range of the three main vector species of veterinary interest present in the study area, Culicoides imicola , Culicoides kingi and Culicoides oxystoma . The study was performed in four sites localized in the Niayes region of Senegal (West Africa) where recent outbreaks of African horse sickness occurred. Blood meal source identification was carried out by species-specific multiplex PCRs with genomic DNA extracted from the abdomen of engorged females collected during nine night collections for twenty-six collections. The four most abundant hosts present in the studied area (horse, cattle, goat and sheep) were surveyed in each ring zone. The blood meal source varied according to Culicoides species and host availability in each site. C. oxystoma and C. imicola females mainly fed on horses readily available at 200 m maximum from the trap location whereas females of C. kingi fed mainly on cattle, at variable distances from the traps (200 to 2000 m). C. oxystoma may also feed on other vertebrates. We discuss the results in relation with the transmission of Culicoides -borne arboviruses and the species dispersion capacities. [ABSTRACT FROM AUTHOR]

Published

2016

12. First overview of the Culicoides Latreille (Diptera: Ceratopogonidae) livestock associated species of Reunion Island, Indian Ocean.

Author

Desvars, A., Grimaud, Y., Guis, H., Esnault, O., Allène, X., Gardès, L., Balenghien, T., Baldet, T., Delécolle, J.C., and Garros, C.

Subjects

*CULICOIDES, *LIVESTOCK, *BLUETONGUE, *SPECIES diversity, *CERATOPOGONIDAE

Abstract

This study establishes the first faunistic inventory of livestock associated Culicoides (Diptera: Ceratopogonidae) species of Reunion Island (Indian Ocean), where bluetongue and epizootic hemorrhagic disease are regularly recorded. Single night-catches were performed at 41 sites using light suction traps at altitudes ranging from 0 to 1525 m, from March to April 2005. Five species were recorded: Culicoides imicola , Culicoides bolitinos , Culicoides enderleini , Culicoides grahamii , and Culicoides kibatiensis , among which at least the first three species are known to be involved in virus transmission to ruminants and equids. This is the first record of C. bolitinos , C. kibatiensis , and C. enderleini on the island. C. imicola was the most abundant species along the sea coast. C. bolitinos was more abundant inland and on two sites on the east coast. C. kibatiensis and C. grahamii were less abundant than the other three species and limited to two foci. Spatial distribution analysis of the different species showed that C. bolitinos , C. enderleini and C. imicola were collected at low altitudes, while the other two species were found at higher altitude. A morphological identification key for adult females and males is given, as well as cytochrome oxydase subunit I sequences. Phylogenetic reconstructions showed a clear divergence between C. bolitinos from Reunion Island and mainland Africa. This monograph will help to identify the Culicoides species in the poorly known entomological fauna of the south-western Indian Ocean region. [ABSTRACT FROM AUTHOR]

Published

2015