病原溢出(pathogen spillover)是指病原獲得感染新宿主的能力,從原本宿主(自然宿主)跨越到另一種宿主的現象[1] 。感染人類的病毒英語human virus有超過三分之二為人畜共通傳染病[2],即由其他動物溢出至人類。大多數人類病毒最早都可能是由其他動物溢出而來[3]。多數病毒溢出事件為有限的偶發感染,不會發生進一步人傳人的感染,如狂犬病毒經動物咬傷的傷口感染人類,不過有些病毒溢出則會在人群中擴散,造成新興傳染病,如伊波拉病毒SARS-CoVMERS-CoVSARS-CoV-2等。其他生物間也常有病原溢出事件發生,感染野生動物的病原可能溢出至家禽與家畜,如鴨冠狀病毒2714自野生水鳥溢出至家雞[4]布魯氏菌病非洲水牛溢出至畜養的牛隻、豬急性腹瀉綜合症冠狀病毒(SADS-CoV)自蝙蝠溢出至豬隻等[5],也有感染野生雜草的病原溢出至農作物的例子[1]

近年來動物病原溢出至人類的事件頻頻增加,可能原因有農地擴張森林砍伐、野生動物的棲地破壞[6]。病原溢出至人類的過程受原始宿主分佈與密度、病原流行率、散播強度與存活率、與人類接觸情形和人類免疫反應等因素影響,溢出過程的瓶頸步驟因病原不同而異[7]

種內病原溢出

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病原溢出也可發生在不同種群的同種生物之間。人工飼養的熊蜂病原包括熊蜂短膜蟲英語Crithidia bombi熊蜂孢子蟲英語Apicystis bombi熊蜂微孢子蟲英語Nosema bombi東方蜜蜂微孢子蟲英語Nosema ceranae畸翅病毒英語deformed wing virus[8][9],皆可能隨着熊蜂逃逸至野外而溢出至野生種群[10][11],有研究發現一間人工飼養熊蜂的溫室附近有近半野生熊蜂被熊蜂短膜蟲感染[12][13],此比例隨與溫室的距離增加而下降,顯示溫室中飼養的熊蜂可能是感染源,在北美洲、日本與英國皆有類似病原溢出至野生蜜蜂種群的紀錄[14]

參見

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參考文獻

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  1. ^ 1.0 1.1 Power, AG; Mitchell, CE. Pathogen spillover in disease epidemics. Am Nat. Nov 2004, 164 (Suppl 5): S79–89. PMID 15540144. doi:10.1086/424610. 
  2. ^ Woolhouse M, Scott F, Hudson Z, Howey R, Chase-Topping M. Human viruses: discovery and emergence.. Philos Trans R Soc Lond B Biol Sci. 2012, 367 (1604): 2864–71. PMC 3427559 . PMID 22966141. doi:10.1098/rstb.2011.0354. 
  3. ^ Wolfe ND, Dunavan CP, Diamond J. Origins of major human infectious diseases.. Nature. 2007, 447 (7142): 279–83. PMC 7095142 . PMID 17507975. doi:10.1038/nature05775. 
  4. ^ Pauly, Maude; Snoeck, Chantal J.; Phoutana, Vannaphone; Keosengthong, Amphone; Sausy, Aurélie; Khenkha, Latdavone; Nouanthong, Phonethipsavanh; Samountry, Bounthome; et al. Cross-species transmission of poultry pathogens in backyard farms: ducks as carriers of chicken viruses. Avian Pathology. 2019, 48 (6): 503–511. ISSN 0307-9457. doi:10.1080/03079457.2019.1628919. 
  5. ^ Wang LF, Anderson DE. Viruses in bats and potential spillover to animals and humans.. Curr Opin Virol. 2019, 34: 79–89. PMC 7102861 . PMID 30665189. doi:10.1016/j.coviro.2018.12.007. 
  6. ^ Berger, Kevin. The Man Who Saw the Pandemic Coming. Nautilus. 2020-03-12 [2020-03-16]. (原始內容存檔於2020-03-15). 
  7. ^ Plowright RK, Parrish CR, McCallum H, Hudson PJ, Ko AI, Graham AL; et al. Pathways to zoonotic spillover.. Nat Rev Microbiol. 2017, 15 (8): 502–510. PMC 5791534 . PMID 28555073. doi:10.1038/nrmicro.2017.45. 
  8. ^ Graystock, P; Yates, K; Evison, SEF; Darvill, B; Goulson, D; Hughes, WOH. The Trojan hives: pollinator pathogens, imported and distributed in bumblebee colonies. Journal of Applied Ecology. 2013, 50 (5): 1207–15. doi:10.1111/1365-2664.12134. 
  9. ^ Sachman-Ruiz, Bernardo; Narváez-Padilla, Verónica; Reynaud, Enrique. Commercial Bombus impatiens as reservoirs of emerging infectious diseases in central México. Biological Invasions. 2015-03-10, 17 (7): 2043–53. ISSN 1387-3547. doi:10.1007/s10530-015-0859-6. 
  10. ^ Durrer, Stephan; Schmid-Hempel, Paul. Shared Use of Flowers Leads to Horizontal Pathogen Transmission. Proceedings of the Royal Society of London B: Biological Sciences. 1994-12-22, 258 (1353): 299–302. Bibcode:1994RSPSB.258..299D. ISSN 0962-8452. doi:10.1098/rspb.1994.0176. 
  11. ^ Graystock, Peter; Goulson, Dave; Hughes, William O. H. Parasites in bloom: flowers aid dispersal and transmission of pollinator parasites within and between bee species. Proc. R. Soc. B. 2015-08-22, 282 (1813): 20151371. ISSN 0962-8452. PMC 4632632 . PMID 26246556. doi:10.1098/rspb.2015.1371. 
  12. ^ Otterstatter, MC; Thomson, JD. Does Pathogen Spillover from Commercially Reared Bumble Bees Threaten Wild Pollinators?. PLOS ONE. 2008, 3 (7): e2771. Bibcode:2008PLoSO...3.2771O. PMC 2464710 . PMID 18648661. doi:10.1371/journal.pone.0002771. 
  13. ^ Graystock, Peter; Goulson, Dave; Hughes, William O.H. The relationship between managed bees and the prevalence of parasites in bumblebees. PeerJ. 2014, 2: e522. PMC 4137657 . PMID 25165632. doi:10.7717/peerj.522. 
  14. ^ Graystock, Peter; Blane, Edward J.; McFrederick, Quinn S.; Goulson, Dave; Hughes, William O. H. Do managed bees drive parasite spread and emergence in wild bees?. International Journal for Parasitology: Parasites and Wildlife. 2016, 5 (1): 64–75. PMC 5439461 . PMID 28560161. doi:10.1016/j.ijppaw.2015.10.001.