Estudo epidemiológico da infecção pelo vírus da língua azul em bovinos na microrregião Garanhuns, Pernambuco

BATISTA FILHO, Antonio Fernando Barbosa

21 July 2015

Submitted by Mario BC (mario@bc.ufrpe.br) on 2017-04-25T12:36:56Z No. of bitstreams: 1 Antonio Fernando Barbosa Batista Filho.pdf: 1655868 bytes, checksum: 0e3328c020c4764ab7ac6b596bf0a9b9 (MD5) / Made available in DSpace on 2017-04-25T12:36:56Z (GMT). No. of bitstreams: 1 Antonio Fernando Barbosa Batista Filho.pdf: 1655868 bytes, checksum: 0e3328c020c4764ab7ac6b596bf0a9b9 (MD5) Previous issue date: 2015-07-21 / This study aimed at analyzing the epidemiological aspects of Bluetongue Virus (BTV) infection on dairy cattle in Garanhuns micro-region, Pernambuco state, Brazil. 384 blood samples were collected from female cattle in reproductive age from 20 properties of 19 municipalities that compose the region. These samples were subject to immunodiffusion assay (AGID) to detect the presence of anti-BTV antibodies. There was a prevalence of 71.3% (274/384; CI – 66.5% - 75.7%) of positive animals. Regarding the foci numbers, 100% (20/20) of properties had at least one positive animal in the serum test. The risk factors identified were not performing intercropping breeding (OR = 3.2; p – 0.012), wetlands presence in the property (OR =2.1; p = 0.001); artificial insemination using (OR = 8.8; p = 0.003). This is the first report of BTV infection on cattle in Pernambuco state and from the results suggest it is widespread. Thus, the suggested control measures based on hygienic-sanitary management and biosecurity are intended to prevent/to avoid virus spreading. Moreover, epidemiological studies should be performed in order to identify the serotypes circulating in ruminant population. / Objetivou-se com este trabalho analisar os aspectos epidemiológicos da infecção pelo Vírus da Língua Azul (VLA) em bovinos leiteiros na microrregião Garanhuns do Estado de Pernambuco, Brasil. Foram coletadas 384 amostras sanguíneas de bovinos fêmeas em idade reprodutiva, procedentes de 20 propriedades dos 19 municípios que compõem a região. As amostras foram submetidas ao teste de imunodifusão em gel de agarose (IDGA) para pesquisa de anticorpos Anti-VLA. Observou-se uma prevalência de 71,3% (274/384; IC – 66,5% - 75,7%) de animais positivos. Em relação ao número de focos, 100% (20/20) das propriedades apresentaram ao menos um animal positivo no teste sorológico. Os fatores de risco identificados foram: não realizar criação consorciada (OR = 3,2; p = 0,012); presença de áreas alagadas na propriedade (OR = 11,8; p = 0,001); não realizar controle de insetos (OR = 2,1; p = 0,033); rebanho aberto (OR = 2,1; p = 0,001); utilização de inseminação artificial (OR = 8,8; p = 0,003). Este é o primeiro registro da infecção pelo Vírus da Língua Azul em bovinos no estado de Pernambuco e a partir dos resultados obtidos conclui-se que a infecção encontra-se distribuída na região e sugere-se que medidas de controle baseadas no manejo higiênico-sanitário e biosseguridade sejam implementadas para evitar a propagação do vírus, assim como estudos epidemiológicos devem ser realizados com o objetivo de identificar os sorotipos que circulam na população de ruminantes.

Vírus da língua azul

Gado leiteiro

Bovino

Fator de risco

Bluetongue virus

Dairy cattle

Risk factors

MEDICINA VETERINARIA::REPRODUCAO ANIMAL

Serological and genetic characterisation of putative new serotypes of bluetongue virus and epizootic haemorrhagic disease virus isolated from an Alpaca / Isabella Maria Wright

Wright, Isabella Maria

January 2014

Alpacas were first introduced into South Africa during the year 2000. They are valuable because of the fine quality wool they produce which has much better insulation properties than that of merino wool fibres. Alpacas are also used to act as guards of sheep herds against predators. During 2008, blood samples from an alpaca that died acutely with severe lung oedema, respiratory distress and froth exuding from the nose were received at Elsenburg Veterinary Laboratory. The alpaca was from a herd of 23 alpacas of a British veterinarian in the Montagu district in the western Cape. Virus isolation attempts on the blood produced infrequent embryo mortalities. Embryonated chicken egg (ECE) material was send to the Virology Department at the Onderstepoort Veterinary Institute (OVI). A bluetongue virus (BTV) PCR performed at the diagnostic PCR laboratory at OVI on the ECE material was positive. Further intra-venous (IV) inoculations in ECE produced embryo mortalities on two consecutive days, the 8th and 9th November. The dead embryos were harvested separately and named and treated as two separate virus samples, Alp8 and Alp9 which were further passaged on baby hamster kidney (BHK) cells. The BTV virus neutralisation tests (VNT) performed at the Office International des Epizooties (OIE) Laboratory on both Alp8 and Alp9 were negative. Because of the close serological relationship between BTV and epizootic haemorrhagic disease virus (EHDV), an EHDV VNT was also performed and was also negative. In the light of the negative VNT and the positive BTV PCR results, more in-depth molecular analyses were performed. RNA was purified from tissue culture material and agarose gel electrophoresis (AGE) performed. Both Alp8 and Alp9 had a typical orbiviral electrophoretic profile, but their respective profiles were different. A sequence-independent reverse transcriptase PCR amplification method generated ample complementary DNA (cDNA) of both samples for sequencing. Sanger sequencing was used to partially sequence genome segments 5 (NS1) and 2 (VP2). BLAST analysis of the partial information of the genome segments 5 (NS1) of Alp8 confirmed it as being a BTV and Alp9 as being an EHDV. BLAST analysis of the deduced amino acid sequence generated of VP2 of both Alp8 and Alp9 established that these samples were possibly new serotypes of BTV and EHDV respectively. The complete genome of both Alp8 and Alp9 was sequenced with next generation 454 Pyrosequencing. This confirmed the partial sequencing results. BLAST analysis of the complete sequence of S2 (VP2) of Alp8 showed that it has 73 % nucleotide and 77 % deduced amino acid identity to BTV15. In contrast the nucleic acid sequence of genome segment S2 (VP2) of Alp9 had no nucleotide sequence identity to any virus, but its deduced amino acid sequence had 71 % amino acid identity to EHDV2. Hyper immune guinea pig (GP) serum prepared against the putative new BT (Alp8) and EHD (Alp9) virus serotypes were tested for serological cross-reactivity against the 24 OIE reference antigen strains of BTV and the 8 OIE reference antigen strains of EHDV. Alp8 had a neutralising antibody (NAb) titre of > 32 against BTV15. Alp9 did not cross react with any of the OIE BTV and EHDV strains. Six out of the remaining 22 alpacas on the farm had NAbs to a greater or lesser extend against Alp8 (BTV) and Alp9 (EHDV) viruses, which confirmed that the viruses were also present in other alpacas in the herd. Very few cases of EHDV in alpacas have ever been reported in literature. A small scale pilot vector susceptibility study showed that vector competence of C. imicola for both Alp8 and Alp9 was low, below 2 %. The fact that neutralising antibodies to Alp8 and Alp9 were detected in other alpacas in the herd raises the question as to whether there are other Culicoides species circulating in the area that could vector the viruses. In conclusion, the results from the serological and virological analyses as well as the nucleic acid sequence data of the genomes of two virus samples, Alp8 and Alp9, from an alpaca that died in the Montagu district in the western Cape identified Alp9 as a definite new serotype of EHDV and Alp8 as a possible new serotype of BTV most closely related to BTV15. / MSc (Biochemistry), North-West University, Potchefstroom Campus, 2014

Bluetongue virus

Epizootic haemorrhagic disease virus

Genetic characterisation

Serological characterisation

New serotypes

Bloutong virus

Episootiese haemorrhagiese siekte virus

Genetiese karakterisering

Serologiese karakterisering

Nuwe serotipes

Cartographie des interactions virus-hôtes pour le virus de la fièvre catarrhale ovine et mise en évidence d'une nouvelle fonction portée par la protéine NS3 / Mapping virus-host interactions for bluetongue virus and highlighting a new function carried by NS3 protein

Kundlacz, Cindy

18 December 2018

Le virus de la fièvre catarrhale ovine (Bluetongue virus, BTV) est l’agent étiologique de la maladie du même nom, une arbovirose non contagieuse transmise aux ruminants domestiques et sauvages par l’intermédiaire de morsures de moucherons hématophages du genre Culicoides. Il existe actuellement 27 sérotypes décrits de BTV à travers le monde qui se distinguent par les pathologies qu’ils induisent et leur capacité à infecter et se propager chez leur(s) hôte(s) mammifère(s). Le premier objectif de mon projet de thèse visait à identifier les interactions cellulaires spécifiques des sérotypes 8 et 27 pour identifier des facteurs de pathogénicité/virulence et/ou de franchissement de barrière d’espèces. Pour atteindre cet objectif, l’ensemble des protéines virales du BTV a été criblé par la méthode du double-hybride en levure contre deux banques d’ADN complémentaires, l’une d’origine bovine et l’autre d’origine culicoïde. A l’issue de 70 cribles, une centaine de nouvelles interactions virus-hôtes a été mise en évidence et révèle un enrichissement pour quatre processus cellulaires : l’épissage des ARNm, les ribosomes, la SUMOylation et l’apoptose. Cette étude nous a ainsi permis de réaliser le premier interactome pour le BTV qui se poursuit au travers de multiples validations biochimiques et fonctionnelles des interactions identifiées. En parallèle de ce travail de protéomique, le second objectif de mon projet de thèse a été de déterminer l’impact du BTV sur la voie MAPK/ERK, une voie cellulaire essentielle à la prolifération et différenciation cellulaire et classiquement modulée lors d’infections virales. En plus de son rôle antagoniste sur la voie des interférons de type I, nous avons démontré la capacité de la protéine NS3 de BTV à activer la voie MAPK/ERK. En effet, nous avons démontré que NS3 a la capacité d’augmenter le niveau de phosphorylation des protéines kinases ERK1/2 mais également du facteur de traduction eIF4E. Cette fonction, qui semble être spécifique au BTV par rapport aux autres orbivirus, implique l’interaction de NS3 avec la protéine cellulaire BRAF, une protéine MAP3 kinase jouant un rôle majeur dans l’activation de la voie MAPK/ERK. L’activation cette voie par NS3 pourrait être un mécanisme de détournement de la traduction cellulaire au profit de celle du virus mais aussi constituer un élément de réponse pour expliquer l’hyper-inflammation observée dans le cas d’une infection par ce virus / Bluetongue virus (BTV) is the etiological agent of the bluetongue (BT) disease, a non-contagious arbovirus that affects a wide range of wild and domestic ruminants. It is transmitted by blood-feeding midges of the genus Culicoides. There are currently 27 serotypes described of BTV in the world that are distinguished by their differences in term of pathology/virulence and their capacity to infect and disseminate in their mammalian host(s). The first objective of my thesis project was to identify specific cellular interactions of serotype 8 and 27 to reveal new factors of pathogenicity/virulence and/or cross species barrier. To reach this goal, all the proteins encoded by BTV were used as baits to screen, by a high-throughput yeast two-hybrid (Y2H) approach, two complementary DNA libraries originating from hosts naturally infected by BTV : Culicoides and cattle. Therefore, 70 screens were performed to identify a hundred of new virus-host interactions and reveal an enrichment for four cellular processes : mRNA splicing, ribosomes, SUMOylation and apoptosis. This study allowed us to build the first interactome of BTV which continues through multiple biochemical and functional validations of the identified interactions. In parallel to this proteomics work, my second objective was to determine the impact of BTV on the MAPK/ERK pathway, a cellular pathway essential for cell proliferation and differentiation usually modulated during viral infections. In addition to its antagonist role on the type I interferon pathway, we have demonstrated the ability of BTV-NS3 to activate the MAPK/ERK pathway. Indeed, we have demonstrated that NS3 has the ability to increase the level of phosphorylation of ERK1/2 protein and the eIF4E translation factor. This function, which seems to be specific to BTV compared to other orbiviruses, involves the interaction of NS3 with BRAF cellular protein, a MAP3 kinase protein that plays a major role in the regulation of the MAPK/ERK pathway. These results could provide a better understanding of the molecular basis underlying the hijacking of the translation machinery to support virus replication but also constitute a hypothesis to explain the hyperinflammation observed in the BTV infection context

Virus de la fièvre catarrhale ovine

Interactions virus-Hôtes

Protéine NS3

Voie MAPK/ERK

Bluetongue virus

Virus-Host interactions

NS3 protein

MAPK/ERK signaling pathway

Serological and genetic characterisation of putative new serotypes of bluetongue virus and epizootic haemorrhagic disease virus isolated from an Alpaca / Isabella Maria Wright

Wright, Isabella Maria

January 2014

Alpacas were first introduced into South Africa during the year 2000. They are valuable because of the fine quality wool they produce which has much better insulation properties than that of merino wool fibres. Alpacas are also used to act as guards of sheep herds against predators. During 2008, blood samples from an alpaca that died acutely with severe lung oedema, respiratory distress and froth exuding from the nose were received at Elsenburg Veterinary Laboratory. The alpaca was from a herd of 23 alpacas of a British veterinarian in the Montagu district in the western Cape. Virus isolation attempts on the blood produced infrequent embryo mortalities. Embryonated chicken egg (ECE) material was send to the Virology Department at the Onderstepoort Veterinary Institute (OVI). A bluetongue virus (BTV) PCR performed at the diagnostic PCR laboratory at OVI on the ECE material was positive. Further intra-venous (IV) inoculations in ECE produced embryo mortalities on two consecutive days, the 8th and 9th November. The dead embryos were harvested separately and named and treated as two separate virus samples, Alp8 and Alp9 which were further passaged on baby hamster kidney (BHK) cells. The BTV virus neutralisation tests (VNT) performed at the Office International des Epizooties (OIE) Laboratory on both Alp8 and Alp9 were negative. Because of the close serological relationship between BTV and epizootic haemorrhagic disease virus (EHDV), an EHDV VNT was also performed and was also negative. In the light of the negative VNT and the positive BTV PCR results, more in-depth molecular analyses were performed. RNA was purified from tissue culture material and agarose gel electrophoresis (AGE) performed. Both Alp8 and Alp9 had a typical orbiviral electrophoretic profile, but their respective profiles were different. A sequence-independent reverse transcriptase PCR amplification method generated ample complementary DNA (cDNA) of both samples for sequencing. Sanger sequencing was used to partially sequence genome segments 5 (NS1) and 2 (VP2). BLAST analysis of the partial information of the genome segments 5 (NS1) of Alp8 confirmed it as being a BTV and Alp9 as being an EHDV. BLAST analysis of the deduced amino acid sequence generated of VP2 of both Alp8 and Alp9 established that these samples were possibly new serotypes of BTV and EHDV respectively. The complete genome of both Alp8 and Alp9 was sequenced with next generation 454 Pyrosequencing. This confirmed the partial sequencing results. BLAST analysis of the complete sequence of S2 (VP2) of Alp8 showed that it has 73 % nucleotide and 77 % deduced amino acid identity to BTV15. In contrast the nucleic acid sequence of genome segment S2 (VP2) of Alp9 had no nucleotide sequence identity to any virus, but its deduced amino acid sequence had 71 % amino acid identity to EHDV2. Hyper immune guinea pig (GP) serum prepared against the putative new BT (Alp8) and EHD (Alp9) virus serotypes were tested for serological cross-reactivity against the 24 OIE reference antigen strains of BTV and the 8 OIE reference antigen strains of EHDV. Alp8 had a neutralising antibody (NAb) titre of > 32 against BTV15. Alp9 did not cross react with any of the OIE BTV and EHDV strains. Six out of the remaining 22 alpacas on the farm had NAbs to a greater or lesser extend against Alp8 (BTV) and Alp9 (EHDV) viruses, which confirmed that the viruses were also present in other alpacas in the herd. Very few cases of EHDV in alpacas have ever been reported in literature. A small scale pilot vector susceptibility study showed that vector competence of C. imicola for both Alp8 and Alp9 was low, below 2 %. The fact that neutralising antibodies to Alp8 and Alp9 were detected in other alpacas in the herd raises the question as to whether there are other Culicoides species circulating in the area that could vector the viruses. In conclusion, the results from the serological and virological analyses as well as the nucleic acid sequence data of the genomes of two virus samples, Alp8 and Alp9, from an alpaca that died in the Montagu district in the western Cape identified Alp9 as a definite new serotype of EHDV and Alp8 as a possible new serotype of BTV most closely related to BTV15. / MSc (Biochemistry), North-West University, Potchefstroom Campus, 2014

Bluetongue virus

Epizootic haemorrhagic disease virus

Genetic characterisation

Serological characterisation

New serotypes

Bloutong virus

Episootiese haemorrhagiese siekte virus

Genetiese karakterisering

Serologiese karakterisering

Nuwe serotipes

ASPECTOS EPIDEMIOLÓGICOS, CLÍNICOS E ANATOMOPATOLÓGICOS DE SURTOS DE LÍNGUA AZUL EM OVINOS NA REGIÃO CENTRAL DO RIO GRANDE DO SUL / CLINICAL, PATHOLOGICAL AND EPIDEMIOLOGICAL ASPECTS OF OUTBREAKS OF BLUETONGUE DISEASE IN SHEEP IN THE CENTRAL REGION OF RIO GRANDE DO SUL

Bianchi, Ronaldo Michel

19 February 2016

Conselho Nacional de Desenvolvimento Científico e Tecnológico / Bluetongue (BT) is an infectious disease caused by bluetongue virus (BTV), which is transmitted by biting midges of the genus Culicoides, and affects domestic and wild ruminants, but its clinical manifestation is seen basically in sheep. Currently, 26 BTV serotypes are recognized worldwide. However, information about the disease in Brazil are limited, as only two BTV serotypes have been reported. Serological surveys reveal that Rio Grande do Sul (RS) has the lowest prevalence rates of infection among Brazilian states. This article describes the clinical, pathological and epidemiological aspects of 17 outbreaks of BT disease in sheep in the Central Region of RS state, Southern Brazil. Affected farms were visited for clinical examination, necropsy, sample collection and epidemiological investigation. The outbreaks were seasonal and occurred during the summer and fall. Of the 884 sheep in 17 small herds, 180 (20.4%) were affected. All ages of Texel and mixed breed sheep were affected. However, lambs (younger than one year) had higher morbidity than adult sheep. The most frequent clinical signs were anorexia, lethargy, loss of body condition, facial swelling mainly involving the lips, and greenish seromucous nasal discharge. Pulmonary edema, cardiac, skeletal muscle and esophageal striated muscle necrosis were the most prevalent findings. Erosive and ulcerative lesions in the upper gastrointestinal tract, and hemorrhage in the pulmonary artery also were common. The bluetongue virus (BTV) genome was detected by RT-PCR in blood, spleen, and lungs samples of 21 animals from 17 outbreaks. The virus involved in the outbreak 3 was isolated and shown to belong to serotype 17, for the first time reported in Brazil. Serology performed by agar gel immunodiffusion test (AGID) in 20 contact cattle showed seroconversion to BTV in 17 animals. In summary, our data support the BTV as the etiological agent of the outbreaks and indicate that the central region of RS is an area at risk for BT in sheep, a disease previously not recognized in the region. / Língua azul ou bluetongue (BT) é uma doença infecciosa causada pelo vírus da língua azul (BTV), que é transmitido por vetores hematófagos do gênero Culicoides e acomete ruminantes domésticos e selvagens, porém sua manifestação clínica é vista basicamente em ovinos. Atualmente, 26 sorotipos do BTV são conhecidos mundialmente. Entretanto, informações sobre a doença no Brasil são limitadas, com apenas dois sorotipos descritos. Pesquisas sorológicas revelam que o Rio Grande do Sul (RS) possui as menores taxas de prevalência de infecção entre os Estados brasileiros. O objetivo deste trabalho é descrever os aspectos epidemiológicos, clínicos e anatomopatológicos de 17 surtos de BT em ovinos na Região Central do RS. Para isso foram realizadas visitas às propriedades em que ocorreram os surtos para investigação epidemiológica e clínica, realização de necropsias e coleta de amostras. Os surtos foram sazonais e ocorreram durante o verão e outono. Em 17 pequenos rebanhos, de um total de 884 ovinos, 180 adoeceram (20,4%). Ovinos de todas as faixas etárias, da raça Texel e sem raça definida, foram acometidos. Entretanto, ovinos com menos de um ano de idade tiveram taxa de morbidade maior do que ovinos com um ano ou mais. Os sinais clínicos mais frequentes caracterizaram-se por anorexia, apatia, acentuada perda de peso, edema facial, envolvendo principalmente os lábios, e secreção nasal seromucosa e esverdeada. Edema pulmonar, necrose da musculatura cardíaca e esquelética e do músculo estriado do esôfago foram as lesões mais prevalentes. Erosões e úlceras no trato gastrointestinal superior e hemorragia na artéria pulmonar também foram comuns. O genoma do BTV foi detectado por meio da RT-PCR em amostras de sangue, baço e pulmão de 21 animais dos 17 surtos. O vírus envolvido no surto 3 foi isolado e pertence ao sorotipo 17, que pela primeira vez é descrito no Brasil. A sorologia foi realizada pelo método de imunodifusão em gel de ágar e demonstrou que 17 dos 20 bovinos que estavam em contato com os ovinos infectados soroconverteram ao BTV. Em síntese, nossos dados permitem concluir que o BTV é o agente causador dos surtos e indicam que a Região Central do RS é uma área de risco para a ocorrência de BT em ovinos, uma doença, até então, não reconhecida nessa região.

Doenças de ovinos

Vírus da língua azul

Culicoides sp.

Infecção natural

Patologia veterinária

Diseases of sheep

Bluetongue virus

Culicoides sp.

Natural infection

Veterinary pathology

The space-time distribution of Palearctic Culicoides spp. vectors of Bluetongue disease in Europe / Distribution spatio-temporelle du genre Culicoides, vecteur de la fièvre catarrhale ovine

Rigot, Thibaud

24 October 2011

Abstract :Bluetongue (BT) is a vector-borne infectious disease primarily transmitted to even- toed ungulates by the bite of several Culicoides species. The global distribution of BT can be attributed to the ubiquity of its vectors and its rapid spread, likely to the enhancement of human activities (intensification of animal production, trans- port, changing habitat). During the last decades, BT established in Southern Europe and more recently emerged in Northern Europe, causing the death of millions of domestic ruminants. On the same time, a Belgian research project has been set up to develop remote-sensing tools to study the EPidemiology and Space-TIme dynamicS of infectious diseases (EPISTIS). In that general framework, this thesis aimed to study the space-time distribution of the main Culicoides vectors occurring in Italy and Belgium, at two different scales. Firstly, we aimed to clarify the role of several eco-climatic factors on the regional-scale distribution of C. imicola in time, based on weekly samplings achieved throughout Italy from 2001 to 2006 and to develop an easy-to-use and reproducible tool, which could be widely validated on the basis of former vector sampling and freely accessible remote-sensing data. Secondly, we aimed to investigate how Culicoides species were distributed in the fine-scale habitat encountered throughout the agro-ecological landscapes of Belgium, while recent studies have suggested that the landscapes configuration could explain the spatial distribution of BT. In the first part, we showed that an autoregressive model where the observed monthly growth rate is predicted by monthly temperature, allowed predicting >70% of the seasonal variability in C. imicola trap catches. The model predicted the seasonality, the altitudinal gradient, and the low populations’ activity taking place during the winter. Incorporating eco-climatic indices such as the Normalized Difference Vegetation Index into the model did not enhance its predictive power. In the second part, we quantified how Culicoides populations are spatially structured in the neighbourhood of farms, and demonstrated the unexpectedly high level of population found in forest. We also showed how four classes of land use could influence the relative abundances of Culicoides species in the agro-ecological landscapes of Belgium. Although in summer, BT vectors were abundant in each of the four classes investigated, their relative abundances varied strongly as a function of sex, species and environmental conditions, and we quantified these variations. Finally, we also presented a new method to quantify the interference between Onderstepoort light traps, and used it to measure their range of attraction for several of the most common BT vectors species in Northern Europe. The model developed on C. imicola in Italy provided enthusiastic perspectives regarding the regional-scale analyses of its distribution in time, although further improvements are nevertheless required in order to assess the broad scale ecology of BT vectors throughout Europe. Mapping the abundances of C. imicola in Sardinia high- lighted an important lack of reliability attributable to the many land use classes that are currently not sampled in the vector surveillance achieved across Europe. Together with the novelties presented in the second part and the recent findings establishing that BT could circulate among wild hosts in both epidemiological systems (i.e. in Southern and Northern Europe), we call for increasing epidemiological and entomo- logical studies at the interface between farms and the surrounding natural habitats. Last, depicting in time the landscape-scale findings for Northern Europe highlighted how dramatic could be the role played by intensive farming practices to maintain BT within the agro-ecological landscapes studied and to facilitate its circulation between them. Quantifying the amplitude of the risk of disease transmission linked to these practices would require a further complex modeling approach accounting simultaneously for the diel activity of hosts, mainly resulting from the farming activities, the diel activities of different vector species and the landscapes configuration found in contrasted agro-ecological systems.<p>Résumé :La fièvre catarrhale ovine (FCO), encore appelée maladie de la langue bleue, est une maladie infectieuse des ruminants transmise par la piqûre d’un vecteur de type moucheron appartenant au genre Culicoides (Diptera :Ceratopogonidae). L’ubiquité de ses vecteurs peut expliquer son succès d’installation à l’échelle globale. Par ailleurs, sa rapide expansion a été grandement facilitée par l’importante activité anthropique (élevage, transport, modification de l’habitat) et peut-être même par les changements climatiques globaux. La FCO a été récemment qualifiée de maladie infectieuse émergente en Europe du fait de (i) son récent établissement dans la région, bien au delà de son aire de répartition traditionnelle, (ii) de sa forte capacité de dispersion affectant chaque jour un nombre plus important d’hôtes et enfin (iii) de sa forte virulence. Après avoir détaillé les caractéristiques majeures des deux principaux foyers de FCO rencontrés en Europe depuis 1998, la présente thèse s’est plus particulièrement intéressée à l’étude de la distribution spatio-temporelle de ses principaux vecteurs dans le sud (partie 1) puis dans le nord (partie 2) de l’Europe, à différentes échelles. Dans la première partie, un modèle discret, spatialement et temporellement explicite, a été développé afin de mesurer l’influence de différents facteurs éco-climatiques sur la distribution de Culicoides imicola, principal vecteur de la FCO dans le Bassin Méditerranéen. Les profils mensuels de distribution rencontrés en Sardaigne durant 6 années consécutives ont ainsi pu être reconstitués, principalement sur base de la température. Une cartographie de l’abondance de C. imicola sur le territoire a permis de mettre à jour le manque d’information sur sa distribution en dehors des exploitations agricoles. Dans la deuxième partie du travail, nous nous sommes penchés sur la distribution spatiale des Culicoides tels qu’on peut les rencontrer au sein de différents paysages agro-écologiques de Belgique. Nous avons ainsi pu décrire la structure adoptée par les populations de Culicoides au voisinage des fermes ainsi que quantifier l’importante population présente dans les forêts avoisinantes. Nous avons par ailleurs montré l’influence de différentes catégories d’utilisation du sol sur l’abondance et la composition en espèces. Enfin, nous avons présenté une méthode permettant de quantifier l’interférence entre des pièges lumineux utilisés dans un même paysage pour échantillonner les populations, et l’avons utilisé afin de mesurer leur rayon d’attractivité sur les espèces vectrices les plus communément rencontrées dans le nord de l’Europe. En guise de conclusion générale et conjointement aux récentes découvertes de cas de FCO au sein de la faune sauvage européenne, nous appelons à réaliser un plus grand nombre d’études éco-épidémiologiques à l’interface entre exploitations agricoles et zones (semi-) naturelles avoisinantes. En outres, les résultats présentés dans la seconde partie ont été mis en relation avec le mode de fonctionnement journalier de nos exploitations agricoles. Nous avons ainsi pu déduire le rôle dramatique joué par les pratiques agricoles intensives dans le maintien du virus de la FCO au sein de nos paysages agro-écologiques, ainsi que dans sa circulation d’un paysage à l’autre. Un cadre de modélisation complexe permettant une analyse simultanée de l’activité nycthémérale des hôtes de la FCO et de ses vecteurs Culicoides en fonction de la configuration des paysages agro-écologiques est néanmoins requis afin de quantifier l’amplitude du risque de transmission de la FCO lié aux pratiques agricoles intensives. / Doctorat en Sciences agronomiques et ingénierie biologique / info:eu-repo/semantics/nonPublished

Agronomie générale

Sciences exactes et naturelles

Culicoides

Bluetongue -- Epidemiology

Bluetongue virus -- Epidemiology

Sheep -- Diseases

Culicoides

Fièvre catarrhale -- Epidémiologie

Moutons -- Maladies

quantitative analyses

disease ecology

experimental design

count data

spatial ecology

spatial epidemiology

biting midges

emerging infectious disease

vector-borne disease

vector ecology

bluetongue