Mostrando 7 resultados de: 7
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Annual Review of Ecology, Evolution, and Systematics(1)
Environmental Health Perspectives(1)
Gates Open Research(1)
Journal of Animal Ecology(1)
Philosophical Transactions of the Royal Society B: Biological Sciences(1)
Confronting amphibian declines and extinctions
ReviewAbstract: Stopping further global losses of amphibian populations and species requires an unprecedented conserPalabras claves:Autores:Alford R.A., Blaustein A.R., Bolaños F., Boone M., Brodie E.D., Burrowes P.A., Campbell J.A., Collins J.P., Crump M.L., Da Silva H.R., Daszak P., Diffendorfer J.E., Dobson A.P., Domingo J.J.C., Du Preez L.H., Frost D.R., Gagliardlo R.W., Gascon C., Griffiths R.A., Halliday T., Howell K.M., Hunt S., Hyatt A.D., Joglar R.L., Kuzmin S.L., Lacy R.C., Lannoo M.J., Lau M., Lawson D.P., Lips K.R., Lock B., Lötters S., Luis A. Coloma, Marca E.L., Mendelson J.R., Murphy J.B., Parra-Olea G., Pethiyagoda R., Price M.S., Rabb G.B., Raxworthy C.J., Roberto Ibáñz D., Robertson H., Rodriguez-Mahecha J.V., Stuart S.N., Wake D.B., Wake M.H., Weldon C., Wright K.M., Zippel K.C.Fuentes:scopusDisease invasion: Impacts on biodiversity and human health
ArticleAbstract: An introduction to the theme issue that includes papers that identify how, where and why infectiousPalabras claves:Disease emergence, Disease invasion, Emerging infectious disease spillover, Host-pathogen dynamicsAutores:Andrew Alexander Cunningham, Dobson A.P., Hudson P.Fuentes:scopusDisentangling serology to elucidate henipa- and filovirus transmission in Madagascar fruit bats
ArticleAbstract: Bats are reservoirs for emerging human pathogens, including Hendra and Nipah henipaviruses and EbolaPalabras claves:age–seroprevalence, filovirus, Flying fox, force of infection, Fruit bat, henipavirus, Madagascar, zoonosisAutores:Andrew Alexander Cunningham, Broder C.C., Brook C.E., Dobson A.P., Gibson L., Héraud J.M., Metcalf C.J., Peel A.J., Ranaivoson H.C., Wood J.L.N.Fuentes:scopusInsights from quantitative and mathematical modelling on the proposed WHO 2030 goals for chagas disease [version 1; peer review: 2 approved]
ArticleAbstract: Chagas disease (CD) persists as one of the neglected tropical diseases (NTDs) with a particularly laPalabras claves:Chagas disease, Elimination as a public health problem, Intradomiciliary transmission interruption, NTD Modelling Consortium, Trypanocidal treatment, WHO guidelinesAutores:Basanez M.G., Cohen J.E., Cucunubá Z.M., Dobson A.P., e Gürtler R., Fabrizio M.d.C., Fernando Abad-Franch, Gourbière S., Levy M.Z., Nouvellet P., Rabinovich J.E., Schweigmann N.J., Villar J.C., Zu Dohna H.Fuentes:scopusPhocine distemper Virus: Current knowledge and future directions
ReviewAbstract: Phocine distemper virus (PDV) was first recognized in 1988 following a massive epidemic in harbor anPalabras claves:CD150/SLAM, epidemiology, immunity, Morbillivirus, pathology, phylogeny, Pinnipeds, Sea otter, VaccineAutores:Baker J.D., Barbieri M., Colegrove K.M., de Guise S., de Swart R.L., di Guardo G., Dobson A.P., Duignan P.J., Duprex W.P., Early G., Fauquier D., Goldstein T., Grenfell B., Groch K.R., Gulland F., Hall A.J., Jensen B.A., Lamy K., Matassa K., Mazzariol S., Morris S.E., Nielsen O., Rotstein D.S., Rowles T.K., Saliki J.T., Siebert U., Simon J. Goodman, Van Bressem M.F., Waltzek T., Wellehan J.F.X.Fuentes:scopusUnhealthy landscapes: Policy recommendations on land use change and infectious disease emergence
ArticleAbstract: Anthropogenic land use changes drive a range of infectious disease outbreaks and emergence events anPalabras claves:Biodiversity, Deforestation, ecosystems, Emerging infectious diseases, Land use, Lyme disease, MALARIA, Urban sprawl, Wildlife, zoonosisAutores:Aguirre A.A., Amerasinghe F.P., Andrew Alexander Cunningham, Ashford R.W., Barthelemy D., Bos R., Bradley D.J., Buck A., Butler C., Chivian E.S., Chua K.B., Clark G.F., Colwell R.R., Confalonieri U.E., Corvalan C., Daszak P., Dein J., Dobson A.P., Else J.G., Epstein J., Epstein J.H., Field H.E., Foufopoulos J., Furu P., Gascon C., Graham D., Haines A., Hyatt A.D., Jamaluddin A., Kilpatrick A.M., Kleinau E.F., Koontz F., Koren H.S., LeBlancq S., Lele S., Lindsay S.W., Maynard N., McLean R.G., McMichael T., Molyneux D., Morse S.S., Norris D.E., Ostfeld R.S., Patz J.A., Pearl M., Pimentel D., Rakototiana L., Randriamanajara O., Riach J., Rosenthal J.P., Salazar-Sanchez E., Silbergeld E., Tabor G.M., Thomson M.C., Vittor A.Y., Wolfe N.D., Yameogo L., Zakarov V.Fuentes:scopusSocial Organization and Parasite Risk in Mammals: Integrating Theory and Empirical Studies
ReviewAbstract: Mammals are exposed to a diverse array of parasites and infectious diseases, many of which affect hoPalabras claves:Biodiversity, Conservation, Host behavior, infectious disease, mating system, SOCIAL STRUCTURE, Transmission modeAutores:Altizer S., Andrew Alexander Cunningham, Antonovics J., Dobson A.P., Ezenwa V., Gittleman J.L., Jones K.E., Nunn C.L., Pedersen A.B., Poss M., Pulliam J.R.C., Thrall P.H.Fuentes:scopus