![]() Rev Sci Tech 23:435–442īurt FJ, Rolph MS, Rulli NE, Mahalingam S, Heise MT (2012) Chikungunya: a re-emerging virus. ![]() PLoS Pathog 5(5):e1000455īrown C (2004) Emerging zoonoses and pathogens of public health significance – an overview. Bull World Health Organ 64(6):775–786īriese T, Paweska JT, McMullan LK, Hutchison SK, Street C, Palacios G, Khristova ML, Weyer J, Swanepoel R, Egholm M, Nichol ST, Lipkin WI (2009) Genetic detection and characterization of Lujo virus, a new hemorrhagic fever-associated arenavirus from southern Africa. Mol Phylogenet Evol 8:301–316īres PL (1986) A century of progress in combating yellow fever. World J Clin Cases 3:430–441īowen MD, Peters CJ, Nichol ST (1997) Phylogenetic analysis of the Arenaviridae: patterns of virus evolution and evidence for cospeciation between arenaviruses and their rodent hosts. Proc Natl Acad Sci U S A 110(51):20837–20842īogovic P, Strle F (2015) Tick-borne encephalitis: a review of epidemiology, clinical characteristics, and management. īlackwood JC, Streicker DG, Altizer S, Rohani P (2013) Resolving the roles of immunity, pathogenesis, and immigration for rabies persistence in vampire bats. J Am Vet Med Assoc 234:883–893īirge J, Sonnesyn S (2012) Powassan virus encephalitis, Minnesota, USA. Emerg Infect Dis 22:1921–1929īird BH, Ksiazek TG, Nichol ST, MacLachlan NJ (2009) Rift Valley fever virus. Antivir Res 100:159–189īewick S et al (2016) Epidemiology of La Crosse virus emergence, Appalachia Region, United States. Vet Med Int 2012:978501īente DA, Forrester NL, Watts DM, McAuley AJ, Whitehouse CA (2013) Crimean–Congo hemorrhagic fever: history, epidemiology, pathogenesis, clinical syndrome and genetic diversity. J Gen Virol 93:2590–2594īeltrán-Beck B, Ballesteros C, Vicente J, De La Fuente J, Gortázar C (2012) Progress in oral vaccination against tuberculosis in its main wild life reservoir in Iberia, the Eurasian wild boar. Rev Sci Tech 34:353–361īarr JA, Smith C, Marsh GA, Field H, Wang L-F (2012) Evidence of bat origin for Menangle virus, a zoonotic paramyxovirus first isolated from diseased pigs. 284pĪttoui H, Jaafar FM (2015) Zoonotic and emerging orbivirus infections. ![]() ![]() In: Delahay R, Smith G, Hutchings M (eds) Management of disease in wild mammals. Īrtois M, Blancou J, Dupeyroux O, Gilot-Fromont E (2011) Sustainable control of zoonotic pathogens in wildlife: how to be fair to wild animals? Rev Sci Tech 30(3):733–743Īrtois M, Bengis R, Delahay R, Duchêne M, Duff P, Ferroglio E et al (2009) Wildlife disease surveillance and monitoring. Rev Sci Tech 34:491–501Īrmstrong PM, Andreadis TG (2013) Eastern equine encephalitis virus – old enemy, new threat. Emerg Infect Dis 19:1159–1161Īrechiga Ceballos N, Aguilar Setien A (2015) Alphaviral equine encephalomyelitis (Eastern, Western and Venezuelan). Cell Death Discov 2:16048Īrai S, Nguyen ST, Boldgiv B, Fukui D, Araki K, Dang CN, Ohdachi SD, Nguyen NX, Pham TD, Boldbaatar B, Satoh H, Yoshikawa Y, Morikawa S, Tanaka-Taya K, Yanagihara R, Oishi K (2013) Novel bat-borne hantavirus, Vietnam. Rev Med Virol 26(4):221–241Īllocati N, Petrucci AG, Di Giovanni P, Masulli M, Di Ilio C, De Laurenzi V (2016) Bat–man disease transmission: zoonotic pathogens from wildlife reservoirs to human populations. KeywordsĪdouchief S, Smura T, Sane J, Vapalahti O, Kurkela S (2016) Sindbis virus as a human pathogen-epidemiology, clinical picture and pathogenesis. Thus, there is a convincing and effective chance for mutual gains for the conservation of wildlife and public health by collective and collaborative attempts. Therefore, emerging zoonotic viruses are not only potential threats to human beings but can also be harmful to wildlife species. The basic factors influencing the disease emergence from wildlife species are also the major drivers of biodiversity loss. The viral families Arenaviridae, Coronaviridae, Flaviviridae, Filoviridae, Hepeviridae, Hantaviridae, Herpesviridae, Nairoviridae, Orthomyxoviridae, Peribunyaviridae, Paramyxoviridae, Phenuiviridae, Poxviridae, Reoviridae, Rhabdoviridae, and Togaviridae enclose viruses which represent most of the viral zoonoses of wildlife origin. Anthropogenic factors like agricultural expansion, habitat destruction, urbanisation, trade of exotic or domestic animals and global travel comprise major drivers of the emergence of zoonotic disease. Wildlife can act as a reservoir or maintenance or spill-over or amplifier hosts or simply a liaison host of diseases transmissible to human beings and farmed livestock. The majority of the recent emerging diseases were caused by zoonotic viruses of wildlife origin and had significant impacts on public health and economies. Wildlife plays an important and complex role in the emergence of new diseases and the maintenance of endemic infectious diseases.
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