Dinámicas en el establecimiento de las especies de mosquitos (DipteraCulicidae) y enfermedades vectoriales humanas asociadas al cambio climático
- Jiménez Peydró, Ricardo 1
- Lopez Peña, David 1
- Bernués Bañeres, Alberto 2
- Falcó Garí, Jose Vicente 3
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1
Universitat de València
info
- 2 Empresa Anticimex
- 3 Profesor Titular de Universidad. Universitat de València
ISSN: 1697-2791
Année de publication: 2023
Titre de la publication: Adaptability to climate change
Volumen: 23
Número: 1
Pages: 66-76
Type: Article
D'autres publications dans: Revista de Salud Ambiental
Résumé
Climate alterations cause variations in the emergence and reemergence of vectors and vector diseases associated with them. Environmental conditions facilitate or prevent their establishment in different habitats, making possible or hindering the appearance of diseases. The data known in our country show the real possibility of the appearance of diseases since an increase in annual generations has been observed in many vector species, both due to the reduction in larval development time and the temporal extension of the optimal seasonal fruit period. of the rise in temperatures. The study of the bioecology and population dynamics of the main vectors, culicid mosquitoes, is of vital importance in order to predict local scenarios.
Références bibliographiques
- Jiménez-Peydró R, Bernués-Bañeres A, Bueno Marí R, Chordá- Olmos FA. Vectores transmisores de enfermedades y cambio climático. En: Martí Boscá JV, director, et al. Cambio Global España 2020/50. Cambio climático y salud. Asturias: CCEIM- ISTAS-SESA. 2012. pp.164-88.
- Githeko AK. et al. El cambio climático y las enfermedades transmitidas por vectores: un análisis regional. WHO. 2000; 78(9):1136-47.
- Jitklang S, Sawangpro W, Kuvangkadilok BV, Adler PH. Ecology of black flies (Diptera: Simuliidae) in streams of northernand southern Thailand: factors associated with larval and pupal distributions. Acta Trop. 2020; 204:105357. DOI: https://doi.org/10.1016/j.actatropica.2020.105357J.
- Rivers-Moore NA, Palmer RW. The influence of turbidity and water temperature on black fly species in the middle and lower Orange River, South Africa. Can. J. Zool. 2018; 96:614-21.
- Bueno Marí R, Jiménez-Peydró R. Malaria en España: Aspectos entomológicos y perspectivas de futuro. Rev. Esp. Salud Pública. 2008; 82(5):467-79.
- Bueno Marí R. Bioecología, diversidad e interés epidemiológico de los culícidos mediterráneos (Diptera: Culicidae). Tesis doctoral. Universitat de València. 2010. pp. 427. http://hdl.handle.net/10550/23422.
- Bernués Bañeres A. Mosquitos (Diptera Culicidae) de los parques naturales de la Comunidad Valenciana. Tesis doctoral. Universitat de València. 2013. pp. 396. http://hdl.handle.net/10550/32095.
- Chordá Olmos FA. Biología de mosquitos (Diptera: Culicidae) en enclaves representativos de la Comunidad Valenciana). Tesis doctoral. Universitat de València. 2014. pp. 550. http://hdl.handle.net/10550/35297.
- Eritja R, Aranda C, Padrós J, Goula M, Lucientes J, Escosa R, Marqués E, Cáceres S. An annotated checklist and bibliography of the mosquitoes of Spain (Diptera: Culicidae). Eur. mosq. bull. 2000; 8:10-8.
- Bueno Marí R, Bernués Bañeres A, Jiménez-Peydró R. Updated checklist and distribution maps of mosquitoes (Diptera: Culicidae) of Spain. Eur. mosq. bull. 2012; 30:91-126.
- Becker N, Petric D, Zgomba M, Boase C, Madon M, Dahl C, Kaiser A. Mosquitoes and their control. Second Edition, Springer. 2010.
- Bueno Marí R, Jiménez-Peydró R. Crónicas del arroz, mosquitos y paludismo en España: el caso de la provincia de Valencia (S. XVIIIXX). Hisp. Rev. Esp. Hist. 2010; 236(70):687-708.
- Gortázar C, Castillo JA, Lucientes J, Blanco JC, Arriolabengos A, Calvete C. Factors Affecting Dirifilaria immitis Prevalence in Red Boxes in Northeastern Spain. J. Wildl. Dis. 1994; 30(4):545-7.
- Gortázar C, Villafuerte R, Lucientes J, Fernández Deluco D. Habitat related differences in helminth parasites of red foxes in the Ebro valley. Vet. Parasitol. 1998; 80:75-81.
- Morchón R, Bargues MD, Latorre JM, Melero Alcíbar R, Pou Barreto C, Mas Coma S, Simón F. Haplotype H1 of Culex pipiens implicated as a natural vector of Dirofilaria immitis in an endemic area of Western Spain. Vector Borne and Zoonotic Dis. 2007; 7:653-8.
- Morchón R, Bargues MD, Latorre JM, Pou Barreto C, Melero Alcíbar R, Moreno M, Valladares B, Molina R, Montoya Alonso JA, Mas Coma S, Simón F. Molecular characterization of Culex theileri from Canary Islands, Spain, a potential vector of Dirofilaria immitis. Int. J. Clin. Exp. Pathol. 2011; S3: 001. Disponible en: DOI: https://doi.org/10.4172/2161-0681.S3-001.
- Morchón R, Carretón E, González Miguel J, Mellado Hernández I. Heartworm disease (Dirofilaria immitis) and their vectors in Europe. Front. Physiol. 2012; 3(196):1-11.
- Gubler DJ. The global emergence/resurgence of arboviral diseases as public health problems. Arch. Med. Res. 2002; 33:330-42.
- Karabatsos N. International catalogue of arboviruses. (3rd ed.). San Antonio, Texas: American Society of Tropical Medicine and Hygiene. 1985. pp. 673-4.
- Gubler DJ. Human arbovirus infections worldwide. Ann. N. Y. Acad. Sci. 2006; 951:13-24.
- Bueno Marí R, Jiménez-Peydró R. La creciente amenaza de las invasiones biológicas de mosquitos sobre la salud pública española. Enfermedades emergentes. 2009; 11(1):30-5.
- Bueno Marí R, Jiménez-Peydró R. Situación actual en España y eco-epidemiología de las arbovirosis transmitidas por mosquitos culícidos (Diptera: Culicidae). Rev. Esp. Salud Pública. 2010; 84:255-69.
- Rezza G, Nicoletti L, Angelini R, Romi R, Finarelli AC, Panning M, Cordioli P, Fortuna C, Boros S, Magurano F, Silvi G, Angelini P, Dottori M, Ciufolini MG, Majori GC, Cassone A. Infection with Chikungunya virus in Italy: an outbreak in a temperate region. Lancet. 2007; 370:1840-6.
- La Ruche G, Souarès Y, Armengaud A, Peloux Petiot F, Delaunay P, Desprès P, Lenglet A, Jourdain F, Leparc Goffart I, Charlet F, Ollier L, Mantey K, Mollet T, Fournier PJ, Torrents R, Leitmeyer K, Hilairet P, Zeller H, Van Bortel W, Dejour Salamanca D, Grandadam M, Gastellu Etchegorri M. First two autochthonous dengue virus infections in metropolitan France, September 2010. Euro Surveill.. 2010; 15(39):2-6.
- Ministerio de Sanidad y Política Social (MSPS). Enfermedades infecciosas importadas por turistas interraciales a los trópicos. 2008. pp. 264. Disponible en: http://www.msc.es/profesionales/saludPublica/prevPromocion/promocion/migracion/docs/enfInfImpViajerosTropicos.pdf.
- Nash D, Mostashari F, Fine A, Miller J, O’leary D, Murray K, Huang A, Rosenberg A, Greenberg A, Sherman M, Wong S, Layton M. The outbreak of West Nile virus infection in the New York city area in 1999. NEJM. 2001; 344(24):1807-14.
- Eldridge BF, Edman JD. Medical entomology. Dordrecht, Boston, London: Kluwer Academic Publishers. 2000. pp. 659.
- Domingo C, Collado X, Falcón A, Ledesma J, Negredo A, Pozo F, Roiz D, Vázquez A, Vázquez S. Virus importados en nuestro ámbito sanitario: situación actual y riesgos de futuro. Virología. 2007; 12:7-35.
- Mouchet J, Rageau J, Laumond C, Hannoun C, Beytout D, Oudar J, Corniou B, Chippaux A. Epidemiolgie du virus West Nile: etude d’un foyer en Camargue. V. Le vecteur: Culex modestus Ficalbi (Diptera, Culicidae). Annales de l’Institut Pasteur. 1970; 118:839-55.
- Hubálek Z, Kriz B, Menne B, Bertollini R. West Nile virus: Ecology, epidemiology and prevention. Unedited Technical Report of World Health Organization (WHO). 2003. pp. 32.
- Norder H, Lundström JO, Kozuch O, Magnius LO. Genetic relatedness of Sindbis virus strains from Europe, Middle East and Africa. Virol. 1996; 222:440-5.
- Bakonyi T, Gould EA, Kolodziejek J, Weissenböck H, Nowotny N. Complete genome analysis and molecular characterization of Usutu virus that emerged in Austria in 2001: comparison with the South African strain SAAR-1776 and other flaviviruses. Virol. 2004; 328:301-10.
- Weissenböck H, Kolodziejek J, Url A, Lussy H, Rebel Bauder B, Nowotny N. Emergence of Usutu virus, an African mosquitoborne flavivirus of the Japanese Encephalitis virus group, Central Europe. Emerg. Infect. Dis. 2002; 8(7):652-6.
- Chastel C, Anach A, Lay G, Le Guiguen C, Linn I, Hardy E, Hart R, Beaucournu JC. Arbovirus infections insmall mammals in Armonique Park (Brittany) and around Exeter (GreatBritain): comparative serological surveys. Bulletin de la Société Française de Parasitologie. 1985; 1:79-82.
- Traavik T, Mehl R, Wiger R. Mosquito-borne arboviruses in Norway: further isolations and detection of antibodies to California encephalitis viruses in human, sheep and wildlife sera. J. Hyg. 1985; 94(1):111-22.
- Yeruham I, Braverman Y, Yadin H, Chai D, Van Ham M, Tiomkin D, Frank D. Epidemiological investigations of outbreaks of bovine ephemeral fever in Israel. Vet. Rec. 2002; 151:117-21.
- Danielova V. Relatioships of mosquitoes to Tahyna virus as determinant factors of its circulation in nature. Prague: Academia Publushing House of the Czechoslovak Academy of Science. 1992. pp. 102.
- Lundström JO. Vector competence of western European mosquitoes for arboviruses: A review of field and experimental studies. Bulletin of the Society for Vector Ecology. 1994; 19(1):43-8.
- Hubálek Z, Zeman P, Halouzca J, Juricová Z, Stovícková E, Bálková H, Sikutová S, Rudolf I. Mosquito-borne viruses, Czech Republic, 2002. Emerg. Infect. Dis. 2005; 11(1):116-8.
- Aspöck H. Stechmücken als virusübertr.ger in Mitteleuropa. Nova Acta Leopoldina. 1996; 292:37–55.
- Lundström JO. Mosquito-borne viruses in Western Europe: a review. J. Vector Ecol. 1999; 24(1):1-39.
- Francy DB, Jaenson TGT, Lundström JO, Schildt EB, Espmark A, Henriksson B, Niklasson B. Ecologic studies of mosquitoes and birds as hosts of Ockelbo virus in Sweden, and isolation of Inkoo and Batai viruses from mosquitoes. Am. J. Trop. Med. Hyg. 1989; 41:355–63.
- Medlock JM, Snow KR, Leach S. Possible ecology and epidemiology of medically important mosquito-borne arboviruses in Great Britain. Epidemiol. Infect. 2007; 135:466-82.
- Brummer Korvenkontio M. Arboviruses in Finland. V. Serological survey of antibodies against Inkoo virus in human, cow, reindeer and wildlife sera. Am. J. Trop. Med. Hyg. 1973; 22:654-61.
- Eiros Bouza JM, Hernández B, Labayru C, Vega T, Ruiz Cosín C. Tularemia: experiencia desde Castilla y León. En: Picazo, J., Bouza, E. (editores), Infección 2002, 1ª edición. 2002. pp. 243-66.
- Petersen JM, Mead PS, Schriefer ME. Francisella tulariensis: an arthropod-borne pathogen. Vet. Res. 2009; 40:07. Disponible en: DOI: https://doi.org/10.1051/vetres:2008045.
- Christenson B. An outbreak of tularemia in the northern part of central Sweden. Scand. J. Infect. Dis. 1984; 16:285-90.
- Eliasson H, Lindback J, Nuorti P, Areneborn M, Giesecke J, Tegnall A. The 2000 tularemia outbreak: a case control-study of risk factors in disease-endemic and emergent areas, Sweden. Emerg. Infect. Dis. 2002; 8:956-60.
- Aldea Mansilla C, Nebreda T, García De Cruz S, Dodero E, Escudero R, Anda P, Campos A. Tularemia: una década en la provincia de Soria. Enferm. Infecc. Microbiol. Clin. 2010; 28(1):21-6.
- Bueno Marí R, Jiménez-Peydró R. Study of the malariogenic potential of Eastern Spain. Trop. Biomed. 2012; 29(1):39-50.
- Cuadros J, Calvente, MJ, Benito A, Arévalo J, Calero, MA, Segura J, Rubio JM. Plasmodium ovale Malaria Acquired in Central Spain. Emerg. Infect. Dis. 2002. 8(12):1506-8.
- Olalla Peralta PS, Vázquez Torres MC, Latorres Fandós E, Mairal Claver P, Cortina Solano P, Puy Azón A, Adiego Sancho B, Leitmeyer K, Lucientes Curdi J, Sierra Moros MJ. First autochthonous malaria case due to Plasmodium vivax since eradication, Spain, October 2010. Euro SurveilL. 2010; 15(41):2- 4.
- Bueno Marí R, Bernués Bañeres A, Chordá Olmos FA, Jiménez- Peydró R. Entomological surveillance in a recent autochthonous malaria area of Spain. J. Vector Borne Dis. 2012; 49:45-7.
- Clavero G. Aedinos de España. Rev. San. Hig. Pública. 1946; 20:1205-32.
- Rico Avelló C. Fiebre Amarilla en España (epidemiología histórica). Rev. San. Hig. Pública. 1953; 27:29-87.
- Bueno Marí R, Bernués Bañeres A, Jiménez-Peydró R. Updated checklist and distribution maps of mosquitoes (Diptera: Culicidae) of Spain. Eur. mosq. bull. 2012; 30:91-126.
- Ministerio de Sanidad. Erradicación de Aedes aegypti en la isla de Fuerteventura. 2018. https://www.sanidad.gob.es/ciudadanos/saludAmbLaboral/docs/Encuesta_Vigilancia_Entomoñogica.2018.pdf.
- Mourya DT, Banerjee K. Experimental transmission of chikungunya virus by Aedes vittatus mosquitoes. Indian J. Med. Res. 1987; 86:269-71.
- Mavale MS, Ilkal MA, Dhanda V. Experimental studies on the susceptibility of Aedes vittatus to dengue viruses. Acta Virol. 1992; 36:412-6.
- Lewis DJ. Mosquitoes in relation to yellow fever in the Nuba Mountains Anglo-Egyptian Sudan. Ann. trop. Med. parasitol. 1943; 37:65-76.
- Satti MH, Haseeb MA. An outbreak of yellow fever in the Southern Fung and Upper Nile province, Republic of the Sudan. Journal of Tropical Medicine and Hygiene. 1966; 69:36-44.
- Bernués Bañeres A, Bueno Marí R, Chordá Olmos FA, Jiménez-Peydró R. Factores de riesgo eco-entomológicos en la emergencia de arbovirosis en las zonas húmedas de la comunidad Valenciana. Valencia, España. Bol. Malariol. Salud Ambient. 2012; 2(2):257-67.
- Simkova A. Tahyna virus in birds. Acta Virol. 1962; 6:190.
- Aspöck H, Kunz C. Investigation of overwintering of Tahyna and Calovo viruses in amphibians and reptiles. Zentralblatt für Bakteriologie. 1971; 214:160-73.