344 results on '"Roiz, David"'
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2. Bioaccumulation of polycyclic aromatic hydrocarbons and microbiota dynamics across developmental stages of the Asian tiger mosquito, Aedes albopictus exposed to urban pollutants
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Antonelli, Pierre, Grizard, Stéphanie, Tran, Florence Hélène, Lejon, David, Bellemain, Aymeric, Van, Mavingui, Patrick, Roiz, David, Simard, Frédéric, Martin, Edwige, Abrouk, Danis, Vigneron, Aurélien, Minard, Guillaume, and Valiente Moro, Claire
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- 2024
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3. The rising global economic costs of invasive Aedes mosquitoes and Aedes-borne diseases
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Roiz, David, Pontifes, Paulina A., Jourdain, Fréderic, Diagne, Christophe, Leroy, Boris, Vaissière, Anne-Charlotte, Tolsá-García, María José, Salles, Jean-Michel, Simard, Fréderic, and Courchamp, Franck
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- 2024
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4. Biological invasions as burdens to primary economic sectors
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Turbelin, Anna J., Hudgins, Emma J., Catford, Jane A., Cuthbert, Ross N., Diagne, Christophe, Kourantidou, Melina, Roiz, David, and Courchamp, Franck
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- 2024
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5. Worldwide transmission and infection risk of mosquito vectors of West Nile, St. Louis encephalitis, Usutu and Japanese encephalitis viruses: a systematic review
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Tolsá-García, María José, Wehmeyer, Magdalena Laura, Lühken, Renke, and Roiz, David
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- 2023
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6. pWCP is a widely distributed and highly conserved Wolbachia plasmid in Culex pipiens and Culex quinquefasciatus mosquitoes worldwide
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Ghousein, Amani, Tutagata, Jordan, Schrieke, Hans, Etienne, Manuel, Chaumeau, Victor, Boyer, Sebastien, Pages, Nonito, Roiz, David, Eren, A. Murat, Cambray, Guillaume, and Reveillaud, Julie
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- 2023
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7. Correction: Integrated Aedes management for the control of Aedes-borne diseases
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Roiz, David, Wilson, Anne L, Scott, Thomas W, Fonseca, Dina M, Jourdain, Frédéric, Müller, Pie, Velayudhan, Raman, and Corbel, Vincent
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Biological Sciences ,Biomedical and Clinical Sciences ,Health Sciences ,Good Health and Well Being ,Medical and Health Sciences ,Tropical Medicine ,Biological sciences ,Biomedical and clinical sciences ,Health sciences - Abstract
[This corrects the article DOI: 10.1371/journal.pntd.0006845.].
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- 2022
8. Economic costs of invasive non-native species in urban areas: An underexplored financial drain
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Heringer, Gustavo, Fernandez, Romina D., Bang, Alok, Cordonnier, Marion, Novoa, Ana, Lenzner, Bernd, Capinha, César, Renault, David, Roiz, David, Moodley, Desika, Tricarico, Elena, Holenstein, Kathrin, Kourantidou, Melina, Kirichenko, Natalia I., Adelino, José Ricardo Pires, Dimarco, Romina D., Bodey, Thomas W., Watari, Yuya, and Courchamp, Franck
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- 2024
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9. Integrated Aedes management for the control of Aedes-borne diseases.
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Roiz, David, Wilson, Anne L, Scott, Thomas W, Fonseca, Dina M, Jourdain, Frédéric, Müller, Pie, Velayudhan, Raman, and Corbel, Vincent
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Animals ,Humans ,Aedes ,Dengue ,Yellow Fever ,Entomology ,Environmental Monitoring ,Mosquito Control ,Chikungunya Fever ,Zika Virus Infection ,Mosquito Vectors ,Biological Sciences ,Medical and Health Sciences ,Tropical Medicine - Abstract
BackgroundDiseases caused by Aedes-borne viruses, such as dengue, Zika, chikungunya, and yellow fever, are emerging and reemerging globally. The causes are multifactorial and include global trade, international travel, urbanisation, water storage practices, lack of resources for intervention, and an inadequate evidence base for the public health impact of Aedes control tools. National authorities need comprehensive evidence-based guidance on how and when to implement Aedes control measures tailored to local entomological and epidemiological conditions.Methods and findingsThis review is one of a series being conducted by the Worldwide Insecticide resistance Network (WIN). It describes a framework for implementing Integrated Aedes Management (IAM) to improve control of diseases caused by Aedes-borne viruses based on available evidence. IAM consists of a portfolio of operational actions and priorities for the control of Aedes-borne viruses that are tailored to different epidemiological and entomological risk scenarios. The framework has 4 activity pillars: (i) integrated vector and disease surveillance, (ii) vector control, (iii) community mobilisation, and (iv) intra- and intersectoral collaboration as well as 4 supporting activities: (i) capacity building, (ii) research, (iii) advocacy, and (iv) policies and laws.ConclusionsIAM supports implementation of the World Health Organisation Global Vector Control Response (WHO GVCR) and provides a comprehensive framework for health authorities to devise and deliver sustainable, effective, integrated, community-based, locally adapted vector control strategies in order to reduce the burden of Aedes-transmitted arboviruses. The success of IAM requires strong commitment and leadership from governments to maintain proactive disease prevention programs and preparedness for rapid responses to outbreaks.
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- 2018
10. Multiple invasions, Wolbachia and human-aided transport drive the genetic variability of Aedes albopictus in the Iberian Peninsula
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Lucati, Federica, Delacour, Sarah, Palmer, John R.B., Caner, Jenny, Oltra, Aitana, Paredes-Esquivel, Claudia, Mariani, Simone, Escartin, Santi, Roiz, David, Collantes, Francisco, Bengoa, Mikel, Montalvo, Tomàs, Delgado, Juan Antonio, Eritja, Roger, Lucientes, Javier, Albó Timor, Andreu, Bartumeus, Frederic, and Ventura, Marc
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- 2022
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11. Are the sterile insect technique and the incompatible insect techniques effective in reducingAedesmosquito populations?
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Olive, Marie-Marie, primary, Le Goff, Gilbert, additional, Baldet, Thierry, additional, and Roiz, David, additional
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- 2024
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12. High and rising economic costs of biological invasions worldwide
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Diagne, Christophe, Leroy, Boris, Vaissière, Anne-Charlotte, Gozlan, Rodolphe E., Roiz, David, Jaric, Ivan, and Salles, Jean-Michel
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Biological invasions -- Economic aspects -- International aspects ,Centralized databases -- Analysis ,Invasive species -- Control ,Cost (Economics) -- Accounting and auditing ,Environmental issues ,Science and technology ,Zoology and wildlife conservation ,InvaCost (Database) -- Analysis - Abstract
Biological invasions are responsible for substantial biodiversity declines as well as high economic losses to society and monetary expenditures associated with the management of these invasions.sup.1,2. The InvaCost database has enabled the generation of a reliable, comprehensive, standardized and easily updatable synthesis of the monetary costs of biological invasions worldwide.sup.3. Here we found that the total reported costs of invasions reached a minimum of US$1.288 trillion (2017 US dollars) over the past few decades (1970-2017), with an annual mean cost of US$26.8 billion. Moreover, we estimate that the annual mean cost could reach US$162.7 billion in 2017. These costs remain strongly underestimated and do not show any sign of slowing down, exhibiting a consistent threefold increase per decade. We show that the documented costs are widely distributed and have strong gaps at regional and taxonomic scales, with damage costs being an order of magnitude higher than management expenditures. Research approaches that document the costs of biological invasions need to be further improved. Nonetheless, our findings call for the implementation of consistent management actions and international policy agreements that aim to reduce the burden of invasive alien species. Analysis of the InvaCost database shows that the costs of biological invasions have markedly increased between 1970 and 2017 and show no sign of slowing down, highlighting the importance of evidence-based and cost-effective management actions., Author(s): Christophe Diagne [sup.1] , Boris Leroy [sup.2] , Anne-Charlotte Vaissière [sup.1] , Rodolphe E. Gozlan [sup.3] , David Roiz [sup.4] , Ivan Jaric [sup.5] [sup.6] , Jean-Michel Salles [sup.7] [...]
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- 2021
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13. The impact of lockdown strategies targeting age groups on the burden of COVID-19 in France
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Roche, Benjamin, Garchitorena, Andres, and Roiz, David
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- 2020
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14. Global Database of Mosquito Host Feeding Patterns
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Wehmeyer, Magdalena Laura, primary, Tolsá-García, Maria José, additional, Sauer, Felix Gregor, additional, Schmidt-Chanasit, Jonas, additional, Roiz, David, additional, and Lühken, Renke, additional
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- 2024
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15. Interaction of Human Behavioral Factors Shapes the Transmission of Arboviruses by Aedes and Culex Mosquitoes
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Renard, Aubane, primary, Pérez Lombardini, Fernanda, additional, Pacheco Zapata, Mitsuri, additional, Porphyre, Thibaud, additional, Bento, Ana, additional, Suzán, Gerardo, additional, Roiz, David, additional, Roche, Benjamin, additional, and Arnal, Audrey, additional
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- 2023
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16. Author Correction: High and rising economic costs of biological invasions worldwide
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Diagne, Christophe, Leroy, Boris, Vaissière, Anne-Charlotte, Gozlan, Rodolphe E., Roiz, David, Jarić, Ivan, Salles, Jean-Michel, Bradshaw, Corey J. A., and Courchamp, Franck
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- 2022
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17. Evidence that Passerine Birds Act as Amplifying Hosts for Usutu Virus Circulation
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Roiz, David, Vázquez, Ana, Ruiz, Santiago, Tenorio, Antonio, Soriguer, Ramón, and Figuerola, Jordi
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- 2019
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18. Towards the invasion of wild and rural forested areas in Gabon (Central Africa) by the Asian tiger mosquito Aedes albopictus: Potential risks from the one health perspective
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Obame-Nkoghe, Judicaël, primary, Roiz, David, additional, Ngangue, Marc-Flaubert, additional, Costantini, Carlo, additional, Rahola, Nil, additional, Jiolle, Davy, additional, Lehmann, David, additional, Makaga, Loïc, additional, Ayala, Diego, additional, Kengne, Pierre, additional, and Paupy, Christophe, additional
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- 2023
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19. Ecological determinants of avian malaria infections: An integrative analysis at landscape, mosquito and vertebrate community levels
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Ferraguti, Martina, la Puente, Josué Martínez-de, Bensch, Staffan, Roiz, David, Ruiz, Santigo, Viana, Duarte S., Soriguer, Ramón C., and Figuerola, Jordi
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- 2018
20. Metabarcoding: A Powerful Yet Still Underestimated Approach for the Comprehensive Study of Vector-Borne Pathogen Transmission Cycles and Their Dynamics
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Hernández-Andrade, Anette, primary, Moo-Millan, Joel, additional, Cigarroa-Toledo, Nohemi, additional, Ramos-Ligonio, Angel, additional, Herrera, Claudia, additional, Bucheton, Bruno, additional, Bart, Jean-Mathieu, additional, Jamonneau, Vincent, additional, Bañuls, Anne-Laure, additional, Paupy, Christophe, additional, Roiz, David, additional, Sereno, Denis, additional, N. Ibarra-Cerdeña, Carlos, additional, Machaín-Williams, Carlos, additional, García-Rejón, Julián, additional, Gourbière, Sébastien, additional, Barnabé, Christian, additional, Telleria, Jenny, additional, Oury, Bruno, additional, Brenière, Frédérique, additional, Simard, Frédéric, additional, Rosado, Miguel, additional, Solano, Philippe, additional, Dumonteil, Eric, additional, and Waleckx, Etienne, additional
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- 2020
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21. The mosquitoes (Diptera: Culicidae) of the Mexican Yucatan Peninsula: a comprehensive review on the use of taxonomic names
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Talaga, Stanislas, le Goff, Gilbert, Arana-Guardia, Roger, Baak-Baak, Carlos Marcial, García-Rejón, Julián Everardo, García-Suárez, Omar, Rodríguez-Valencia, Víctor Manuel, Tolsá-García, María José, Suzán, Gerardo, and Roiz, David
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The Yucatan Peninsula is a biogeographic province of the Neotropical region which is mostly encompassed by the 3 Mexican states of Campeche, Quintana Roo, and Yucatán. During the development of the International Joint Laboratory ELDORADO (Ecosystem, bioLogical Diversity, habitat mOdifications and Risk of emerging PAthogens and Diseases in MexicO), a French–Mexican collaboration between the IRD (Institut de Recherche pour le Développement) and UNAM (Universidad Nacional Autónoma de México) in Mérida, it became evident that many putative mosquito species names recorded in the Mexican Yucatan Peninsula were misidentifications/misinterpretations or from the uncritical repetition of incorrect literature records. To provide a stronger foundation for future studies, the mosquito fauna of the Mexican Yucatan Peninsula is here comprehensively reviewed using current knowledge of taxonomy, ecology, and distribution of species through extensive bibliographic research, and examination of newly collected specimens. As a result, 90 mosquito species classified among 16 genera and 24 subgenera are recognized to occur in the Mexican Yucatan Peninsula, including 1 new peninsula record and 3 new state records.
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- 2024
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22. Real-time RT-PCR assay to detect Granada virus and the related Massilia and Arrabida phleboviruses
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Davó, Laura, Herrero, Laura, Sánchez-Seco, Maria Paz, Labiod, Nuria, Roiz, David, Gómez-Díaz, Elena, Hernandez, Lourdes, Figuerola, Jordi, and Vázquez, Ana
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- 2020
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23. The rising global economic costs of Aedes and Aedes-borne diseases
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Roiz, David, primary, Pontifes, Paulina, additional, Jourdain, Fréderic, additional, Diagne, Christophe, additional, Leroy, Boris, additional, Vaissière, Anne-Charlotte, additional, Tolsá, Maria Jose, additional, Salles, Jean-Michel, additional, Simard, Frédéric, additional, and Courchamp, Franck, additional
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- 2023
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24. Current evidences of the efficacy of mosquito mass-trapping interventions to reduce Aedes aegypti and Aedes albopictus populations and Aedes-borne virus transmission
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Jaffal, Ali, primary, Fite, Johanna, additional, Baldet, Thierry, additional, Delaunay, Pascal, additional, Jourdain, Frédéric, additional, Mora-Castillo, Ronald, additional, Olive, Marie-Marie, additional, and Roiz, David, additional
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- 2023
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25. Current evidences of the efficacy of mosquito mass-trapping interventions to reduce Aedes aegypti and Aedes albopictus populations and Aedes-borne virus transmission
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Jaffal, Ali, Fite, Johanna, Baldet, Thierry, Delaunay, Pascal, Jourdain, Frédéric, Mora-Castillo, Ronald, Olive, Marie-Marie, Roiz, David, Jaffal, Ali, Fite, Johanna, Baldet, Thierry, Delaunay, Pascal, Jourdain, Frédéric, Mora-Castillo, Ronald, Olive, Marie-Marie, and Roiz, David
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Background: Over the past decades, several viral diseases transmitted by Aedes mosquitoes—dengue, chikungunya, Zika—have spread outside of tropical areas. To limit the transmission of these viruses and preserve human health, the use of mosquito traps has been developed as a complement or alternative to other vector control techniques. The objective of this work was to perform a systematic review of the existing scientific literature to assess the efficacy of interventions based on adult mosquito trap to control Aedes population densities and the diseases they transmit worldwide. Methods and findings: Following the Preferred Reporting Items for Systematic Reviews and Meta-Analyses (PRISMA) guidelines, a systematic review was conducted using the PubMed and Scopus databases. Among the 19 selected papers, lethal ovitraps were used in 16 studies, host-seeking female traps in 3 studies. Furthermore, 16 studies focused on the control of Ae. aegypti. Our review showed great heterogeneity in the indicators used to assess trap efficacy: e.g., the number of host-seeking females, the number of gravid females, the proportion of positive containers, the viral infection rate in female mosquitoes or serological studies in residents. Regardless of the type of studied traps, the results of various studies support the efficacy of mass trapping in combination with classical integrated vector control in reducing Aedes density. More studies with standardized methodology, and indicators are urgently needed to provide more accurate estimates of their efficacy. Conclusions: This review highlights gaps in the demonstration of the efficacy of mass trapping of mosquitoes in reducing viral transmission and disease. Thus, further large-scale cluster randomized controlled trials conducted in endemic areas and including epidemiological outcomes are needed to establish scientific evidence for the reduction of viral transmission risk by mass trapping targeting gravid and/or host-seeking female mosqu
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- 2023
26. Second WIN International Conference on “Integrated approaches and innovative tools for combating insecticide resistance in vectors of arboviruses”, October 2018, Singapore
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Corbel, Vincent, Durot, Claire, Achee, Nicole L., Chandre, Fabrice, Coulibaly, Mamadou B., David, Jean-Philippe, Devine, Gregor J., Dusfour, Isabelle, Fonseca, Dina M., Griego, John, Juntarajumnong, Waraporn, Lenhart, Audrey, Kasai, Shinji, Martins, Ademir J., Moyes, Catherine, Ng, Lee Ching, Pinto, João, Pompon, Julien F., Muller, Pie, Raghavendra, Kamaraju, Roiz, David, Vatandoost, Hassan, Vontas, John, and Weetman, David
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- 2019
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27. Biological invasions as burdens to primary economic sectors.
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Turbelin, Anna J., primary, Hudgins, Emma J., additional, Catford, Jane A., additional, Cuthbert, Ross N., additional, Diagne, Christophe, additional, Kourantidou, Melina, additional, Roiz, David, additional, and Courchamp, Franck, additional
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- 2023
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28. Potential of Aedes albopictus as a bridge vector for enzootic pathogens at the urban-forest interface in Brazil
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Pereira dos Santos, Taissa, Roiz, David, Santos de Abreu, Filipe Vieira, Luz, Sergio Luiz Bessa, Santalucia, Marcelo, Jiolle, Davy, Santos Neves, Maycon Sebastiao Alberto, Simard, Frédéric, Lourenço-de-Oliveira, Ricardo, and Paupy, Christophe
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- 2018
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29. Molecular survey of Zika virus in the animal-human interface in traditional farming
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Lopez-Apodaca, Laura Ivone, primary, Zarza, Heliot, additional, Zamudio-Moreno, Emily, additional, Nuñez-Avellaneda, Daniel, additional, Baak-Baak, Carlos Marcial, additional, Reyes-Solis, Guadalupe del Carmen, additional, Oswaldo Margarito, Torres-Chablé, additional, Peláez-Ballestas, Ingris, additional, Roiz, David, additional, Suzán, Gerardo, additional, Roche, Benjamin, additional, and Machain-Williams, Carlos Ignacio, additional
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- 2022
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30. Avis de l'Anses relatif à l’évaluation des stratégies de lutte anti-vectorielle (LAV)
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Quénel, Philippe, Arnaud, Frederick, Boëte, Christophe, Bonnet, Sarah, Devillers, James, Lienard, Emmanuel, Ludwig, Antoinette, Manguin, Sylvie, Paty, Marie-Claire, Paupy, Christophe, Raude, Jocelyn, René-Martellet, Magalie, Roiz, David, Saegerman, Claude, Simard, Frédéric, Stahl, Jean-Paul, Fite, Johanna, Institut de recherche en santé, environnement et travail (Irset), Université d'Angers (UA)-Université de Rennes (UR)-École des Hautes Études en Santé Publique [EHESP] (EHESP)-Institut National de la Santé et de la Recherche Médicale (INSERM)-Structure Fédérative de Recherche en Biologie et Santé de Rennes ( Biosit : Biologie - Santé - Innovation Technologique ), Institut National de Recherche pour l’Agriculture, l’Alimentation et l’Environnement (INRAE), Institut des Sciences de l'Evolution de Montpellier (UMR ISEM), Centre de Coopération Internationale en Recherche Agronomique pour le Développement (Cirad)-École Pratique des Hautes Études (EPHE), Université Paris sciences et lettres (PSL)-Université Paris sciences et lettres (PSL)-Université de Montpellier (UM)-Institut de recherche pour le développement [IRD] : UR226-Centre National de la Recherche Scientifique (CNRS), Institut de Recherche pour le Développement (IRD), Centre de Traitement de l'Information Scientifique (CTIS), École Centrale de Lyon (ECL), Université de Lyon-Université de Lyon, Ecole Nationale Vétérinaire de Toulouse (ENVT), Institut National Polytechnique (Toulouse) (Toulouse INP), Université de Toulouse (UT)-Université de Toulouse (UT), Santé publique France - French National Public Health Agency [Saint-Maurice, France], Maladies infectieuses et vecteurs : écologie, génétique, évolution et contrôle (MIVEGEC), Centre National de la Recherche Scientifique (CNRS)-Institut de Recherche pour le Développement (IRD [France-Sud])-Université de Montpellier (UM), École des Hautes Études en Santé Publique [EHESP] (EHESP), VetAgro Sup - Institut national d'enseignement supérieur et de recherche en alimentation, santé animale, sciences agronomiques et de l'environnement (VAS), Unité Mixte de Recherche d'Épidémiologie des maladies Animales et zoonotiques (UMR EPIA), VetAgro Sup - Institut national d'enseignement supérieur et de recherche en alimentation, santé animale, sciences agronomiques et de l'environnement (VAS)-Institut National de Recherche pour l’Agriculture, l’Alimentation et l’Environnement (INRAE), Université de Liège, CHU Grenoble, Direction de l'Evaluation des Risques (DER), Agence nationale de sécurité sanitaire de l'alimentation, de l'environnement et du travail (ANSES), and Anses
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Systemic evaluation ,Continuous improvement ,évaluation ,Stratégie de lutte anti-vectorielle ,[SDV]Life Sciences [q-bio] ,Method ,Méthode ,Joint external evaluation ,évaluation systémique ,évaluation externe conjointe ,Vecteur ,Amélioration continue ,Vector ,Vector control strategy ,Evaluation - Abstract
Citation suggérée : Anses. (2022). Avis relatif à l’évaluation des stratégies de lutte anti-vectorielle (LAV). (Saisine n°2019-SA-0039). Maisons-Alfort : Anses, 19 p.; Les virus de la dengue, du chikungunya et du Zika ont été à l’origine d’importantes épidémies dans les territoires ultra-marins français ces dernières années. La métropole est également concernée du fait de l’extension de l’implantation du moustique Aedes albopictus, par la survenue récurrente depuis 2010, de cas autochtones de dengue ou de chikungunya dans le sud de la France ainsi que, pour la première fois en Europe, par la mise en évidence en 2019 de cas autochtones de Zika dans le Var. Les moustiques Culex sont également responsables de la survenue régulière de cas de West Nile Virus (WNV). Désormais, le risque d’infection lié aux agents pathogènes transmis par les moustiques vecteurs est généralisé sur l’ensemble des territoires français.Menaces pour la santé publique, ces épidémies ont également un impact sur l’offre de soins et plus globalement, sur l’ensemble de la société. Avec les changements globaux (changements climatiques, d’usage des sols et augmentation des transports de biens et de personnes notamment), les arboviroses sont devenues un sujet majeur de sécurité sanitaire et font l’objet de fortes attentes sociétales.Pour faire face à ces enjeux et mieux s’y préparer, en l’absence de traitements spécifiques et de vaccins contre ces arboviroses, il est nécessaire de lutter contre les moustiques vecteurs et de limiter les contacts entre les êtres humains et les vecteurs (voire les animaux réservoirs d’agents pathogènes dans le cas de zoonoses), en mettant en place des stratégies efficaces de lutte anti-vectorielle (LAV), adaptées aux contextes locaux.Selon l’Organisation mondiale de la santé (OMS), la LAV doit reposer sur une démarche de gestion intégrée, définie comme un processus rationnel de prise de décisions pour l’utilisation optimale des moyens de lutte. Cette démarche doit viser à améliorer l’efficacité, l’efficience, l’acceptabilité, la pertinence écologique et la durabilité de la lutte.La LAV repose sur l’utilisation d’un panel d’outils et le recours à différentes techniques selon le couple vecteur-agent pathogène ciblé, le stade de vie du moustique (larve ou adulte), ainsi que les objectifs poursuivis. Elle peut viser : 1) la diminution des populations de vecteurs en dessous des seuils nécessaires à une transmission virale ; 2) l’évitement du contact hôte/vecteur pour empêcher la transmission de l’agent pathogène ; et/ou 3) l’élimination des populations vectrices dans une zone géographique donnée.Pour que la LAV soit efficace, les acteurs en charge de celle-ci doivent élaborer une stratégie tenant compte du contexte local et des ressources disponibles. Cette stratégie, orientée par la réglementation et parfois formalisée dans un « référentiel », est la combinaison de diverses actions (formation des professionnels, information de la population, mobilisation sociale, surveillance épidémiologique...) et de plusieurs outils et techniques : aménagements de l’environnement, lutte mécanique, lutte biologique, lutte chimique (insecticides et répulsifs), voire lutte génétique (technique de l’insecte stérile, technique de l’insecte incompatible...).Le décret n° 2019-258 du 29 mars 2019 relatif à la prévention des maladies vectorielles a confié aux Agences Régionales de Santé (ARS) les missions de surveillance entomologique et d’intervention autour des nouvelles implantations de moustiques vecteurs et des cas suspects d’arboviroses, afin de prévenir les épidémies. Depuis le 1er janvier 2020 pour la métropole, les ARS doivent conduire les actions de LAV ou bien les confier à des opérateurs qu’elles ont habilités (via un marché public), et dont elles assurent le financement. De plus, cette réforme fait désormais reposer la gestion des épidémies de maladies vectorielles sur le dispositif Orsec.Avec cette nouvelle réglementation, les opérateurs publics et privés susceptibles d’intervenir dans le champ de la LAV sont désormais plus nombreux et plus diversifiés qu’auparavant.Dans ce contexte, la notion de bonnes pratiques de LAV devient un enjeu majeur, afin que l’ensemble des acteurs de la LAV (ARS, opérateurs, collectivités, préfectures, services de l’État...) adoptent des stratégies efficaces, cohérentes et harmonisées.C’est dans ce contexte que l’Anses a été saisie le 28 février 2019 par la DGS pour travailler sur l’évaluation des stratégies de LAV en France, conduisant à développer un outil d’évaluation de la LAV à l’échelle territoriale (dit « EvLAV »), à destination des acteurs de la LAV.
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- 2022
31. pWCP is a widely distributed and highly conserved Wolbachia plasmid in Culex mosquitoes worldwide
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Ghousein, Amani, primary, Tutagata, Jordan, additional, Etienne, Manuel, additional, Chaumeau, Victor, additional, Boyer, Sebastien, additional, Pages, Nonito, additional, Roiz, David, additional, Eren, A. Murat, additional, Cambray, Guillaume, additional, and Reveillaud, Julie, additional
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- 2022
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32. Invasion of forested areas in Gabon (Central Africa) by the Asian tiger mosquito and the potential consequences from the One Health perspective
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Obame-Nkoghe, Judicaël, primary, Roiz, David, additional, Ngangue, Marc-Flaubert, additional, Costantini, Carlo, additional, Rahola, Nil, additional, Jiolle, Davy, additional, Lehmann, David, additional, Makaga, Loïc, additional, Ayala, Diego, additional, Kengne, Pierre, additional, and Paupy, Christophe, additional
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- 2022
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33. A field test of the dilution effect hypothesis in four avian multi-host pathogens
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Junta de Andalucía, Ministerio de Ciencia e Innovación (España), European Commission, Ferraguti, Martina [0000-0001-7481-4355], De la Puente, Josue Martinez [0000-0001-8055-4115], Jimenez Clavero, Miguel Angel [0000-0003-2125-9743], Llorente, Francisco [0000-0003-1566-0266], Roiz, David [0000-0002-5819-3648], Soriguer, Ramón C. [0000-0002-9165-7766], Figuerola, Jordi [0000-0002-9165-7766], Ferraguti, Martina, De la Puente, Josue Martinez, Jimenez Clavero, , Miguel Angel, Llorente, Francisco, Roiz, David, Soriguer, Ramón C., Figuerola, Jordi, Junta de Andalucía, Ministerio de Ciencia e Innovación (España), European Commission, Ferraguti, Martina [0000-0001-7481-4355], De la Puente, Josue Martinez [0000-0001-8055-4115], Jimenez Clavero, Miguel Angel [0000-0003-2125-9743], Llorente, Francisco [0000-0003-1566-0266], Roiz, David [0000-0002-5819-3648], Soriguer, Ramón C. [0000-0002-9165-7766], Figuerola, Jordi [0000-0002-9165-7766], Ferraguti, Martina, De la Puente, Josue Martinez, Jimenez Clavero, , Miguel Angel, Llorente, Francisco, Roiz, David, Soriguer, Ramón C., and Figuerola, Jordi
- Abstract
Author's summary The Dilution Effect Hypothesis (DEH) postulates that biodiversity can reduce disease epidemics because more diverse communities harbour a lower fraction of competent hosts, which thus reduces pathogen prevalence. Here, we tested DEH by using field information from 45 populations in SW Spain on the prevalence of four vector-borne pathogens and considered both the potential role of the vertebrate community and mosquito vectors. We determined the prevalence of Plasmodium, Haemoproteus, Leucocytozoon and antibodies for the zoonotic West Nile virus in wild house sparrows. Contrary to the predictions of DEH, our results do not support the general protective ability of biodiversity to reduce the prevalence of these four pathogens. The Dilution Effect Hypothesis (DEH) argues that greater biodiversity lowers the risk of disease and reduces the rates of pathogen transmission since more diverse communities harbour fewer competent hosts for any given pathogen, thereby reducing host exposure to the pathogen. DEH is expected to operate most intensely in vector-borne pathogens and when species-rich communities are not associated with increased host density. Overall, dilution will occur if greater species diversity leads to a lower contact rate between infected vectors and susceptible hosts, and between infected hosts and susceptible vectors. Field-based tests simultaneously analysing the prevalence of several multi-host pathogens in relation to host and vector diversity are required to validate DEH. We tested the relationship between the prevalence in house sparrows (Passer domesticus) of four vector-borne pathogens-three avian haemosporidians (including the avian malaria parasite Plasmodium and the malaria-like parasites Haemoproteus and Leucocytozoon) and West Nile virus (WNV)-and vertebrate diversity. Birds were sampled at 45 localities in SW Spain for which extensive data on vector (mosquitoes) and vertebrate communities exist. Vertebrate censuses were conduct
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- 2021
34. Effectiveness of a field trap barrier system for controlling Aedes albopictus: a “removal trapping” strategy
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Akhoundi, Mohammad, Jourdain, Frédéric, Chandre, Fabrice, Delaunay, Pascal, and Roiz, David
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- 2018
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35. Current and future distribution of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) in WHO Eastern Mediterranean Region
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Ducheyne, Els, Tran Minh, Nhu Nguyen, Haddad, Nabil, Bryssinckx, Ward, Buliva, Evans, Simard, Frédéric, Malik, Mamunur Rahman, Charlier, Johannes, De Waele, Valérie, Mahmoud, Osama, Mukhtar, Muhammad, Bouattour, Ali, Hussain, Abdulhafid, Hendrickx, Guy, and Roiz, David
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- 2018
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36. Worldwide invasion of vector mosquitoes: present European distribution and challenges for Spain
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Eritja, Roger, Escosa, Raúl, Lucientes, Javier, Marquès, Eduard, Molina, Ricardo, Roiz, David, Ruiz, Santiago, Capdevila-Argüelles, Laura, and Zilletti, Bernardo
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- 2005
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37. Multiple invasions, Wolbachia and human-aided transport drive the genetic variability of Aedes albopictus in the Iberian Peninsula
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Lucati, Federica, primary, Delacour, Sarah, additional, Palmer, John R.B., additional, Caner, Jenny, additional, Oltra, Aitana, additional, Paredes-Esquivel, Claudia, additional, Mariani, Simone, additional, Escartin, Santi, additional, Roiz, David, additional, Collantes, Francisco, additional, Bengoa, Mikel, additional, Montalvo, Tomàs, additional, Delgado, Juan Antonio, additional, Eritja, Roger, additional, Lucientes, Javier, additional, Timor, Andreu Albó, additional, Bartumeus, Frederic, additional, and Ventura, Marc, additional
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- 2022
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38. The role of different Culex mosquito species in the transmission of West Nile virus and avian malaria parasites in Mediterranean areas
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Ministerio de Ciencia e Innovación (España), Junta de Andalucía, Instituto de Salud Carlos III, Ministerio de Ciencia, Innovación y Universidades (España), Sociedad de Etología y Ecología Evolutiva (España), Fundación BBVA, Ferraguti, Martina [0000-0001-7481-4355], Heesterbeek, Hans [0000-0001-8537-6418], Martínez de la Puente, Josué [0000-0001-8055-4115], Jiménez-Clavero, Miguel Ángel [0000-0003-2125-9743], Vázquez, A. [0000-0002-9872-3316], Llorente, Francisco [0000-0003-1566-0266], Roiz, David [0000-0002-5819-3648], Vernooij, Hans [0000-0002-2646-9216], Soriguer, Ramón C. [0000-0002-9165-7766], Figuerola, Jordi [0000-0002-4664-9011], Ferraguti, Martina, Heesterbeek, Hans, Martínez de la Puente, Josué, Jiménez-Clavero, Miguel Ángel, Vázquez, Ana, Ruiz, Santiago, Llorente, Francisco, Roiz, David, Vernooij, Hans, Soriguer, Ramón C., Figuerola, Jordi, Ministerio de Ciencia e Innovación (España), Junta de Andalucía, Instituto de Salud Carlos III, Ministerio de Ciencia, Innovación y Universidades (España), Sociedad de Etología y Ecología Evolutiva (España), Fundación BBVA, Ferraguti, Martina [0000-0001-7481-4355], Heesterbeek, Hans [0000-0001-8537-6418], Martínez de la Puente, Josué [0000-0001-8055-4115], Jiménez-Clavero, Miguel Ángel [0000-0003-2125-9743], Vázquez, A. [0000-0002-9872-3316], Llorente, Francisco [0000-0003-1566-0266], Roiz, David [0000-0002-5819-3648], Vernooij, Hans [0000-0002-2646-9216], Soriguer, Ramón C. [0000-0002-9165-7766], Figuerola, Jordi [0000-0002-4664-9011], Ferraguti, Martina, Heesterbeek, Hans, Martínez de la Puente, Josué, Jiménez-Clavero, Miguel Ángel, Vázquez, Ana, Ruiz, Santiago, Llorente, Francisco, Roiz, David, Vernooij, Hans, Soriguer, Ramón C., and Figuerola, Jordi
- Abstract
Vector-borne diseases, especially those transmitted by mosquitoes, have severe impacts on public health and economy. West Nile virus (WNV) and avian malaria parasites of the genus Plasmodium are mosquito-borne pathogens that may produce severe disease and illness in humans and birds, respectively, and circulate in an endemic form in southern Europe. Here, we used field-collected data to identify the impact of Culex pipiens, Cx. perexiguus and Cx. modestus, on the circulation of both WNV and Plasmodium in Andalusia (SW Spain) using mathematical modelling of the basic reproduction number (R0 ). Models were calibrated with field-collected data on WNV seroprevalence and Plasmodium infection in wild house sparrows, presence of WNV and Plasmodium in mosquito pools, and mosquito blood-feeding patterns. This approach allowed us to determine the contribution of each vector species to pathogen amplification. Overall, 0.7% and 29.6% of house sparrows were positive to WNV antibodies and Plasmodium infection, respectively. In addition, the prevalence of Plasmodium was higher in Cx. pipiens (2.0%), followed by Cx. perexiguus (1.8%) and Cx. modestus (0.7%). Three pools of Cx. perexiguus were positive to WVN. Models identified Cx. perexiguus as the most important species contributing to the amplification of WNV in southern Spain. For Plasmodium models, R0 values were higher when Cx. pipiens was present in the population, either alone or in combination with the other mosquito species. These results suggest that the transmission of these vector-borne pathogens depends on different Culex species, and consequently, their transmission niches will present different spatial and temporal patterns. For WNV, targeted surveillance and control of Cx. perexiguus populations appear as the most effective measure to reduce WNV amplification. Also, preventing Culex populations near human settlements, or reducing the abundance of these species, are potential strategies to reduce WNV spillover into h
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- 2020
39. Current evidences of the efficacy of mosquito mass-trapping interventions to reduce Aedes aegypti and Aedes albopictus populations and Aedes-borne transmission.
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Jaffal, Ali, Fite, Johanna, Baldet, Thierry, Delaunay, Pascal, Jourdain, Frédéric, Mora-Castillo, Ronald, Olive, Marie-Marie, and Roiz, David
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AEDES aegypti ,AEDES albopictus ,DENGUE hemorrhagic fever ,VIRAL transmission ,CLUSTER randomized controlled trials ,ALPHAVIRUSES ,MOSQUITOES - Abstract
Background: Over the past decades, several viral diseases transmitted by Aedes mosquitoes—dengue, chikungunya, Zika—have spread outside of tropical areas. To limit the transmission of these viruses and preserve human health, the use of mosquito traps has been developed as a complement or alternative to other vector control techniques. The objective of this work was to perform a systematic review of the existing scientific literature to assess the efficacy of interventions based on adult mosquito trap to control Aedes population densities and the diseases they transmit worldwide. Methods and findings: Following the Preferred Reporting Items for Systematic Reviews and Meta-Analyses (PRISMA) guidelines, a systematic review was conducted using the PubMed and Scopus databases. Among the 19 selected papers, lethal ovitraps were used in 16 studies, host-seeking female traps in 3 studies. Furthermore, 16 studies focused on the control of Ae. aegypti. Our review showed great heterogeneity in the indicators used to assess trap efficacy: e.g., the number of host-seeking females, the number of gravid females, the proportion of positive containers, the viral infection rate in female mosquitoes or serological studies in residents. Regardless of the type of studied traps, the results of various studies support the efficacy of mass trapping in combination with classical integrated vector control in reducing Aedes density. More studies with standardized methodology, and indicators are urgently needed to provide more accurate estimates of their efficacy. Conclusions: This review highlights gaps in the demonstration of the efficacy of mass trapping of mosquitoes in reducing viral transmission and disease. Thus, further large-scale cluster randomized controlled trials conducted in endemic areas and including epidemiological outcomes are needed to establish scientific evidence for the reduction of viral transmission risk by mass trapping targeting gravid and/or host-seeking female mosquitoes. Author summary: Over the past decades, several viral diseases transmitted by Aedes mosquitoes—dengue, chikungunya, Zika—have spread outside of tropical areas. To limit the transmission of these viruses and preserve environment and human health, the use of mosquito traps has been developed as a complement or alternative to other vector control techniques. This review support the efficacy of mass trapping in combination with classical integrated vector control on the reduction in mosquito vector populations within several weeks of deployment. However, this research highlights gaps in the demonstration of the efficacy of mass trapping of mosquitoes in reducing viral transmission and disease. Thus, further studies are needed to establish scientific evidence for the reduction of viral transmission risk by mass trapping targeting gravid and/or host-seeking female mosquitoes. [ABSTRACT FROM AUTHOR]
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- 2023
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40. The role of different Culex mosquito species in the transmission of West Nile virus and avian malaria parasites in Mediterranean areas
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Ferraguti, Martina, Heesterbeek, Hans, Martínez-de la Puente, Josué, Jiménez-Clavero, Miguel Ángel, Vázquez, Ana, Ruiz, Santiago, Llorente, Francisco, Roiz, David, Vernooij, Hans, Soriguer, Ramón, Figuerola, Jordi, LS Theoretische Epidemiologie, FAH theoretische epidemiologie, dFAH I&I, FAH Evidence based Veterinary Medicine, dFAH AVR, Ministerio de Ciencia e Innovación (España), Junta de Andalucía, Instituto de Salud Carlos III, Ministerio de Ciencia, Innovación y Universidades (España), Sociedad de Etología y Ecología Evolutiva (España), Fundación BBVA, Ferraguti, Martina, Heesterbeek, Hans, Martínez-de la Puente, Josué, Jiménez-Clavero, Miguel Ángel, Vázquez, Ana, Llorente, Francisco, Roiz, David, Vernooij, Hans, Soriguer, Ramón C., Figuerola, Jordi, LS Theoretische Epidemiologie, FAH theoretische epidemiologie, dFAH I&I, FAH Evidence based Veterinary Medicine, and dFAH AVR
- Subjects
Emerging infectious diseases ,Vector-borne pathogens ,viruses ,Antibodies, Viral ,Plasmodium ,Mosquitoes ,Zoonosis ,flavivirus ,Seroepidemiologic Studies ,Taverne ,Culex pipiens ,education.field_of_study ,biology ,Mediterranean Region ,vector-bornepathogens ,virus diseases ,General Medicine ,Flavivirus ,Culex ,Basic reproduction number R0 ,West Nile virus ,Sparrows ,Culex perexiguus ,Malaria, Avian ,Population ,Zoology ,Mosquito Vectors ,Haemosporidia ,emerging infectious diseases ,Avian malaria ,Immunology and Microbiology(all) ,parasitic diseases ,medicine ,Passer domesticus ,Animals ,Culex modestus ,education ,mosquitoes ,General Veterinary ,General Immunology and Microbiology ,Feeding Behavior ,zoonosis ,medicine.disease ,biology.organism_classification ,veterinary(all) ,Spain ,Vector (epidemiology) ,West Nile Fever - Abstract
11 Pág.. Centro de Investigación en Sanidad Animal (CISA), Vector-borne diseases, especially those transmitted by mosquitoes, have severe impacts on public health and economy. West Nile virus (WNV) and avian malaria parasites of the genus Plasmodium are mosquito-borne pathogens that may produce severe disease and illness in humans and birds, respectively, and circulate in an endemic form in southern Europe. Here, we used field-collected data to identify the impact of Culex pipiens, Cx. perexiguus and Cx. modestus, on the circulation of both WNV and Plasmodium in Andalusia (SW Spain) using mathematical modelling of the basic reproduction number (R0 ). Models were calibrated with field-collected data on WNV seroprevalence and Plasmodium infection in wild house sparrows, presence of WNV and Plasmodium in mosquito pools, and mosquito blood-feeding patterns. This approach allowed us to determine the contribution of each vector species to pathogen amplification. Overall, 0.7% and 29.6% of house sparrows were positive to WNV antibodies and Plasmodium infection, respectively. In addition, the prevalence of Plasmodium was higher in Cx. pipiens (2.0%), followed by Cx. perexiguus (1.8%) and Cx. modestus (0.7%). Three pools of Cx. perexiguus were positive to WVN. Models identified Cx. perexiguus as the most important species contributing to the amplification of WNV in southern Spain. For Plasmodium models, R0 values were higher when Cx. pipiens was present in the population, either alone or in combination with the other mosquito species. These results suggest that the transmission of these vector-borne pathogens depends on different Culex species, and consequently, their transmission niches will present different spatial and temporal patterns. For WNV, targeted surveillance and control of Cx. perexiguus populations appear as the most effective measure to reduce WNV amplification. Also, preventing Culex populations near human settlements, or reducing the abundance of these species, are potential strategies to reduce WNV spillover into human populations in southern Spain., This study was funded by projects CGL2015-65055-P and PGC2018-095704-B-I00 from the Spanish Ministry of Science and Innovation, P11-RNM-7038 from the Junta de Andalucía, and CP13/00114 from the Instituto de Salud Carlos III. MF was funded by a FPU grant and a Juan de la Cierva 2017 Formación contract (FJCI-2017-34394) from the Ministry of Science, Innovation and Universities and partially financed by a grant from the Spanish Society of Ethology and Evolutionary Ecology (SEEEE Research Grant, Call 2017). JMP was funded by a 2017 Leonardo Grant for Researchers and Cultural Creators, BBVA Foundation. The BBVA Foundation accepts no responsibility for the opinions, statements and contents included in the project and/or the results thereof, which are entirely the responsibility of the authors. We are grateful to Alberto Pastoriza, Manuel Vázquez, Manolo Lobón, Óscar González, Carlos Moreno, Cristina Pérez, Esmeralda Pérez, Juana Moreno Fernández and Antonio Magallanes Martín de Oliva for their help during the fieldwork and with mosquito capture and identification, and to Isabel Martín, Francisco M. Miranda, Olaya García, María del Carmen Barbero Ameller, Laura Herrero and Antonio Sanz for their help with the laboratory analyses.
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- 2020
41. Sterile Insect Technique (SIT) against Aedes Species Mosquitoes: A Roadmap and Good Practice Framework for Designing, Implementing and Evaluating Pilot Field Trials
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Oliva, Clélia, Benedict, Mark, Collins, C Matilda, Baldet, Thierry, Bellini, Romeo, Bossin, Hervé, Bouyer, Jérémy, Corbel, Vincent, Facchinelli, Luca, Fouque, Florence, Geier, Martin, Michaelakis, Antonios, Roiz, David, Schmitt, Claudine, Tur, Carlos, Gouagna, Louis-Clément, Ctifl - Centre de Balandran (Ctifl - Centre de Balandran), Centre Technique Interprofessionnel des Fruits et Légumes (CTIFL), Mosquito Hunters, Imperial College London, Animal, Santé, Territoires, Risques et Ecosystèmes (UMR ASTRE), Centre de Coopération Internationale en Recherche Agronomique pour le Développement (Cirad)-Institut National de Recherche pour l’Agriculture, l’Alimentation et l’Environnement (INRAE), Département Systèmes Biologiques (Cirad-BIOS), Centre de Coopération Internationale en Recherche Agronomique pour le Développement (Cirad), Centro Agricoltura Ambiente 'Giorgio Nicoli' (CAA), Institut Louis Malardé [Papeete] (ILM), Institut de Recherche pour le Développement (IRD), Liverpool School of Tropical Medicine (LSTM), Organisation Mondiale de la Santé / World Health Organization Office (OMS / WHO), Biogents AG, Maladies infectieuses et vecteurs : écologie, génétique, évolution et contrôle (MIVEGEC), Université de Montpellier (UM)-Centre National de la Recherche Scientifique (CNRS)-Institut de Recherche pour le Développement (IRD [France-Sud]), Grupo Tragsa, The Zikalliance Workshop on Innovative vector control strategies against Aedes - Good Practice Framework and Roadmap for SIT development, testing and evaluation, which led to this report was held in Montpellier from 8 to 11th April 2019. This workshop was part of the Zikalliance program funded by the European Commission through the Horizon 2020 Framework Programme for Research and Innovation under Grant No. 734548. Ongoing work on 'SIT feasibility project in Reunion Island' led by L.-C.G., at the French 'Institut de Recherche pour le Developpement' is jointly supported by the French Ministry of Health and the European Regional Development Fund (ERDF) under the 2014-2020 Operational POCT Program. J.B. and T.B. coordinate a research project on the boosted TIS approach funded by the European Research Council in the framework of the EU Horizon 2020 research and innovation programme (grant agreement No 682387-REVOLINC). L.F. received financial support from MRC grant MC_PC_17196., European Project: 682387,REVOLINC, and European Project: 734548,ZIKAlliance(2016)
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[SDV.BIO]Life Sciences [q-bio]/Biotechnology ,0608 Zoology ,mosquito control ,Aedes aegypti ,qx_600 ,qx_525 ,lcsh:Science ,Expérimentation au champ ,Contrôle de maladies ,stakeholder engagement ,Lâcher d'insectes stériles ,Aedes albopictus ,Lutte biologique ,pilot trial ,[SDV.BA.ZI]Life Sciences [q-bio]/Animal biology/Invertebrate Zoology ,SIT ,Vecteur de maladie ,qx_510 ,integrated vector management ,S50 - Santé humaine ,lcsh:Q ,L72 - Organismes nuisibles des animaux - Abstract
International audience; Aedes albopictus and Aedes aegypti are invasive mosquito species that impose a substantial risk to human health. To control the abundance and spread of these arboviral pathogen vectors, the sterile insect technique (SIT) is emerging as a powerful complement to most commonly-used approaches, in part, because this technique is ecologically benign, specific, and non-persistent in the environment if releases are stopped. Because SIT and other similar vector control strategies are becoming of increasing interest to many countries, we offer here a pragmatic and accessible ‘roadmap’ for the pre-pilot and pilot phases to guide any interested party. This will support stakeholders, non-specialist scientists, implementers, and decision-makers. Applying these concepts will ensure, given adequate resources, a sound basis for local field trialing and for developing experience with the technique in readiness for potential operational deployment. This synthesis is based on the available literature, in addition to the experience and current knowledge of the expert contributing authors in this field. We describe a typical path to successful pilot testing, with the four concurrent development streams of Laboratory, Field, Stakeholder Relations, and the Business and Compliance Case. We provide a graphic framework with criteria that must be met in order to proceed.
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- 2021
42. A field test of the dilution effect hypothesis in four avian multi-host pathogens
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Ferraguti, Martina, primary, Martínez-de la Puente, Josué, additional, Jiménez–Clavero, Miguel Ángel, additional, Llorente, Francisco, additional, Roiz, David, additional, Ruiz, Santiago, additional, Soriguer, Ramón, additional, and Figuerola, Jordi, additional
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- 2021
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- View/download PDF
43. Non-English languages enrich scientific knowledge: The example of economic costs of biological invasions
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Angulo, Elena, primary, Diagne, Christophe, additional, Ballesteros-Mejia, Liliana, additional, Adamjy, Tasnime, additional, Ahmed, Danish A., additional, Akulov, Evgeny, additional, Banerjee, Achyut K., additional, Capinha, César, additional, Dia, Cheikh A.K.M., additional, Dobigny, Gauthier, additional, Duboscq-Carra, Virginia G., additional, Golivets, Marina, additional, Haubrock, Phillip J., additional, Heringer, Gustavo, additional, Kirichenko, Natalia, additional, Kourantidou, Melina, additional, Liu, Chunlong, additional, Nuñez, Martin A., additional, Renault, David, additional, Roiz, David, additional, Taheri, Ahmed, additional, Verbrugge, Laura N.H., additional, Watari, Yuya, additional, Xiong, Wen, additional, and Courchamp, Franck, additional
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- 2021
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44. Rapport d'expertise collective. Évaluation de l'efficacité des pièges utilisés dans le cadre de la lutte anti-vectorielle contre les moustiques Aedes vecteurs d'arboviroses. Saisine n° 2020-SA-0150
- Author
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Fite, Johanna (ed.), Jaffal, Ali (ed.), Baldet, Thierry, Delaunay, Pascal, Jourdain, Frédéric, Mora-Castillo, Ronald, Olive, Marie-Marie, Roiz, David, De Sousa, Georges, Aymard, Alain, Cahuzac, Jean-Christophe, Devillers, James, Greve, Pierre, Hartemann, Philippe, Hellio, Claire, Pessel, Dominique, Richard, Vincent, Soumet, Christophe, Quenel, Philippe, Arnaud, Frédérick, Boëte, Christophe, Bonnet, Sarah, Claeys, Cécilia, Lazzari, Claudio R., Lienard, Emmanuel, Ludwig, Antoinette, Manguin, Sylvie, Paty, Marie-Claire, Paupy, Christophe, Raude, Jocelyn, René-Martellet, Magalie, Saegerman, Claude, Simard, Frédéric, and Stahl, Jean-Paul
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- 2021
45. Avis de l'Anses relatif à l'évaluation du rapport bénéfice risque des pratiques de lutte anti-vectorielle habituellement mises en oeuvre pour lutter contre la dengue, dans le contexte actuel de confinement global. Saisine n°2020-SA-0057
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Fite, Johanna (ed.), Quillery, Elsa (ed.), Bastos, Henry (ed.), Baldet, Thierry, Devillers, James, Olive, Marie-Marie, Paty, Marie-Claire, Paupy, Christophe, Raude, Jocelyn, Roiz, David, Thiann-Bo-Morel, Marie, Claeys, Cécilia, and Quenel, Philippe
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- 2021
46. The role of different Culex mosquito species in the transmission of West Nile virus and avian malaria parasites in Mediterranean areas
- Author
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LS Theoretische Epidemiologie, FAH theoretische epidemiologie, dFAH I&I, FAH Evidence based Veterinary Medicine, dFAH AVR, Ferraguti, Martina, Heesterbeek, Hans, Martínez-de la Puente, Josué, Jiménez-Clavero, Miguel Ángel, Vázquez, Ana, Ruiz, Santiago, Llorente, Francisco, Roiz, David, Vernooij, Hans, Soriguer, Ramón, Figuerola, Jordi, LS Theoretische Epidemiologie, FAH theoretische epidemiologie, dFAH I&I, FAH Evidence based Veterinary Medicine, dFAH AVR, Ferraguti, Martina, Heesterbeek, Hans, Martínez-de la Puente, Josué, Jiménez-Clavero, Miguel Ángel, Vázquez, Ana, Ruiz, Santiago, Llorente, Francisco, Roiz, David, Vernooij, Hans, Soriguer, Ramón, and Figuerola, Jordi
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- 2021
47. Sterile Insect Technique (SIT) against Aedes Species Mosquitoes: A roadmap and good practice framework for designing, implementing and evaluating pilot field trials
- Author
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Oliva, Clelia F., Benedict, Mark Q., Collins, C. Matilda, Baldet, Thierry, Bellini, Romeo, Bossin, Hervé, Bouyer, Jérémy, Corbel, Vincent, Facchinelli, Luca, Fouque, Florence, Geier, Martin, Michaelakis, Antonios, Roiz, David, Simard, Frédéric, Tur, Carlos, Gouagna, Louis-Clément, Oliva, Clelia F., Benedict, Mark Q., Collins, C. Matilda, Baldet, Thierry, Bellini, Romeo, Bossin, Hervé, Bouyer, Jérémy, Corbel, Vincent, Facchinelli, Luca, Fouque, Florence, Geier, Martin, Michaelakis, Antonios, Roiz, David, Simard, Frédéric, Tur, Carlos, and Gouagna, Louis-Clément
- Abstract
Aedes albopictus and Aedes aegypti are invasive mosquito species that impose a substantial risk to human health. To control the abundance and spread of these arboviral pathogen vectors, the sterile insect technique (SIT) is emerging as a powerful complement to most commonly-used approaches, in part, because this technique is ecologically benign, specific, and non-persistent in the environment if releases are stopped. Because SIT and other similar vector control strategies are becoming of increasing interest to many countries, we offer here a pragmatic and accessible 'roadmap' for the pre-pilot and pilot phases to guide any interested party. This will support stakeholders, non-specialist scientists, implementers, and decision-makers. Applying these concepts will ensure, given adequate resources, a sound basis for local field trialing and for developing experience with the technique in readiness for potential operational deployment. This synthesis is based on the available literature, in addition to the experience and current knowledge of the expert contributing authors in this field. We describe a typical path to successful pilot testing, with the four concurrent development streams of Laboratory, Field, Stakeholder Relations, and the Business and Compliance Case. We provide a graphic framework with criteria that must be met in order to proceed.
- Published
- 2021
48. Non-English languages enrich scientific knowledge: the example of economic costs of biological invasions
- Author
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Angulo, Elena, Diagne, Christophe, Ballesteros-Mejia, Liliana, Adamjy, Tasnime, Ahmed, Danish A., Akulov, Evgeny, Banerjee, Achyut K., Capinha, César, Dia, Cheikh A.K.M., Dobigny, Gauthier, Duboscq-Carra, Virginia G., Golivets, Marina, Haubrock, Phillip J., Heringer, Gustavo, Kirichenko, Natalia, Kourantidou, Melina, Liu, Chunlong, Nuñez, Martin A., Renault, David, Roiz, David, Taheri, Ahmed, Verbrugge, Laura N.H., Watari, Yuya, Xiong, Wen, Courchamp, Franck, Angulo, Elena, Diagne, Christophe, Ballesteros-Mejia, Liliana, Adamjy, Tasnime, Ahmed, Danish A., Akulov, Evgeny, Banerjee, Achyut K., Capinha, César, Dia, Cheikh A.K.M., Dobigny, Gauthier, Duboscq-Carra, Virginia G., Golivets, Marina, Haubrock, Phillip J., Heringer, Gustavo, Kirichenko, Natalia, Kourantidou, Melina, Liu, Chunlong, Nuñez, Martin A., Renault, David, Roiz, David, Taheri, Ahmed, Verbrugge, Laura N.H., Watari, Yuya, Xiong, Wen, and Courchamp, Franck
- Abstract
© The Author(s), 2021. This article is distributed under the terms of the Creative Commons Attribution License. The definitive version was published in Angulo, E., Diagne, C., Ballesteros-Mejia, L., Adamjy, T., Ahmed, D. A., Akulov, E., Banerjee, A. K., Capinha, C., Dia, C. A. K. M., Dobigny, G., Duboscq-Carra, V. G., Golivets, M., Haubrock, P. J., Heringer, G., Kirichenko, N., Kourantidou, M., Liu, C., Nuñez, M. A., Renault, D., Roiz, D., Taheri, A., Verbrugge, L. N. H., Watari, Y., Xiong, W., & Courchamp, F. Non-English languages enrich scientific knowledge: the example of economic costs of biological invasions. Science of the Total Environment, 775, (2021): 144441, https://doi.org/10.1016/j.scitotenv.2020.144441., We contend that the exclusive focus on the English language in scientific research might hinder effective communication between scientists and practitioners or policy makers whose mother tongue is non-English. This barrier in scientific knowledge and data transfer likely leads to significant knowledge gaps and may create biases when providing global patterns in many fields of science. To demonstrate this, we compiled data on the global economic costs of invasive alien species reported in 15 non-English languages. We compared it with equivalent data from English documents (i.e., the InvaCost database, the most up-to-date repository of invasion costs globally). The comparison of both databases (~7500 entries in total) revealed that non-English sources: (i) capture a greater amount of data than English sources alone (2500 vs. 2396 cost entries respectively); (ii) add 249 invasive species and 15 countries to those reported by English literature, and (iii) increase the global cost estimate of invasions by 16.6% (i.e., US$ 214 billion added to 1.288 trillion estimated from the English database). Additionally, 2712 cost entries — not directly comparable to the English database — were directly obtained from practitioners, revealing the value of communication between scientists and practitioners. Moreover, we demonstrated how gaps caused by overlooking non-English data resulted in significant biases in the distribution of costs across space, taxonomic groups, types of cost, and impacted sectors. Specifically, costs from Europe, at the local scale, and particularly pertaining to management, were largely under-represented in the English database. Thus, combining scientific data from English and non-English sources proves fundamental and enhances data completeness. Considering non-English sources helps alleviate biases in understanding invasion costs at a global scale. Finally, it also holds strong potential for improving management performance, coordination among experts (scie, This work was supported by the French National Research Agency (ANR-14-CE02-0021) and the BNP-Paribas Foundation Climate Initiative for the InvaCost project that allowed the construction of the InvaCost database; the AXA Research Fund Chair of Invasion Biology of University Paris Saclay (EA and LBM contracts) and BiodivERsA and Belmont-Forum call 2018 on biodiversity scenarios – “Alien Scenarios” (the workshop where this work was initiated, and MG and CD contracts, BMBF/PT DLR 01LC1807C); Coordenação de Aperfeiçoamento de Pessoal de Nível Superior – Brasil (Capes) (Finance code 001, GH contract); Russian Foundation for Basic Research (grant number 19-04-01028-a); InEE-CNRS who supports the network GdR 3647 ‘Invasions Biologiques’, the French Polar Institute Paul-Emile Victor (Project IPEV 136 ‘Subanteco’), and the national nature reserve of the French southern lands (RN-TAF); Portuguese National Funds through Fundação para a Ciência e a Tecnologia (grant numbers CEECIND/02037/2017; UIDB/00295/2020 and UIDP/00295/2020); Kuwait Foundation for the Advancement of Sciences (KFAS) (grant number PR1914SM-01) and the Gulf University for Science and Technology (GUST) internal seed fund (grant number 187092).
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- 2021
49. A field test of the dilution effect hypothesis in four avian multi-host pathogens
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Ministerio de Ciencia e Innovación (España), Ferraguti, Martina, Martínez de la Puente, Josué, Jiménez-Clavero, Miguel Ángel, Llorente, Francisco, Roiz, David, Ruiz, Santiago, Soriguer, Ramón C., Figuerola, Jordi, Ministerio de Ciencia e Innovación (España), Ferraguti, Martina, Martínez de la Puente, Josué, Jiménez-Clavero, Miguel Ángel, Llorente, Francisco, Roiz, David, Ruiz, Santiago, Soriguer, Ramón C., and Figuerola, Jordi
- Abstract
The Dilution Effect Hypothesis (DEH) argues that greater biodiversity lowers the risk of disease and reduces the rates of pathogen transmission since more diverse communities harbour fewer competent hosts for any given pathogen, thereby reducing host exposure to the pathogen. DEH is expected to operate most intensely in vector-borne pathogens and when species-rich communities are not associated with increased host density. Overall, dilution will occur if greater species diversity leads to a lower contact rate between infected vectors and susceptible hosts, and between infected hosts and susceptible vectors. Field-based tests simultaneously analysing the prevalence of several multi-host pathogens in relation to host and vector diversity are required to validate DEH. We tested the relationship between the prevalence in house sparrows (Passer domesticus) of four vector-borne pathogens– three avian haemosporidians (including the avian malaria parasite Plasmodium and the malaria-like parasites Haemoproteus and Leucocytozoon) and West Nile virus (WNV)–and vertebrate diversity. Birds were sampled at 45 localities in SW Spain for which extensive data on vector (mosquitoes) and vertebrate communities exist. Vertebrate censuses were conducted to quantify avian and mammal density, species richness and evenness. Contrary to the predictions of DEH, WNV seroprevalence and haemosporidian prevalence were not negatively associated with either vertebrate species richness or evenness. Indeed, the opposite pattern was found, with positive relationships between avian species richness and WNV seroprevalence, and Leucocytozoon prevalence being detected. When vector (mosquito) richness and evenness were incorporated into the models, all the previous associations between WNV prevalence and the vertebrate community variables remained unchanged. No significant association was found for Plasmodium prevalence and vertebrate community variables in any of the models tested. Despite the studied sy
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- 2021
50. A case for systematic quality management in mosquito control programmes in Europe
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Michaelakis, Antonios, Balestrino, Fabrizio, Becker, Norbert, Bellini, Romeo, Caputo, B., della Torre, Alexandra, Figuerola, Jordi, L'Ambert, G., Petric, D., Robert, V., Roiz, David, Saratsi, A., Sousa, C.A., Wint, W.G.R., Papadopoulos, N.T., Michaelakis, Antonios, Balestrino, Fabrizio, Becker, Norbert, Bellini, Romeo, Caputo, B., della Torre, Alexandra, Figuerola, Jordi, L'Ambert, G., Petric, D., Robert, V., Roiz, David, Saratsi, A., Sousa, C.A., Wint, W.G.R., and Papadopoulos, N.T.
- Abstract
The recent spread of invasive mosquito species, such as Aedes albopictus and the seasonal sporadic transmission of autochthonous cases of arboviral diseases (e.g., dengue, chikungunya, Zika) in temperate areas, such as Europe and North America, highlight the importance of effective mosquito-control interventions to reduce not only nuisance, but also major threats for public health. Local, regional, and even national mosquito control programs have been established in many countries and are executed on a seasonal basis by either public or private bodies. In order for these interventions to be worthwhile, funding authorities should ensure that mosquito control is (a) planned by competent scientific institutions addressing the local demands, (b) executed following the plan that is based on recommended and effective methods and strategies, (c) monitored regularly by checking the efficacy of the implemented actions, (d) evaluated against the set of targets, and (e) regularly improved according to the results of the monitoring. Adherence to these conditions can only be assured if a formal quality management system is adopted and enforced that ensures the transparency of effectiveness of the control operation. The current paper aims at defining the two components of this quality management system, quality assurance and quality control for mosquito control programs with special emphasis on Europe, but applicable over temperate areas.
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- 2021
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