African swine fever (ASF) and ticks. No risk of tick-mediated ASF spread in Poland and Baltic states

1. Achenbach J.E., Gallardo C., Nieto-Pelegrín E., Rivera-Arroyo B., Degefa-Negi T., Arias M., Jenberie S., Mulisa D.D., Gizaw D., Gelaye E., Chibssa T.R., Belaye A., Loitsch A., Forsa M., Yami M., Diallo A., Soler A., Lamien C.E., Sánchez-Vizcaíno J.M.: Identification of a new genotype of African swine fever virus in domestic pigs from Ethiopia. Transbound Emerg Dis 2016, doi: 10.1111/tbed.12511.10.1111/tbed.1251127211823Open DOISearch in Google Scholar

2. Arzt J., White W.R., Thomsen B.V., Brown C.C.: Agricultural diseases on the move early in the third millennium. Vet Pathol 2010, 47, 15–27.10.1177/030098580935435020080480Open DOISearch in Google Scholar

3. Bellini S., Rutili D., Guberti V.: Preventive measures aimed at minimizing the risk of African swine fever virus spread in pig farming systems. Acta Vet Scand 2016, 58, 82.10.1186/s13028-016-0264-x512924527899125Search in Google Scholar

4. Boinas F.S., Wilson A.J., Hutchings G.H., Martins C., Dixon L.J.: The persistence of African swine fever virus in field-infected Ornithodoros erraticus during the ASF endemic period in Portugal. PLoS One 2011, 6, e20383.10.1371/journal.pone.0020383310502721655242Search in Google Scholar

5. Burrage T.G.: African swine fever virus infection in Ornithodoros ticks. Virus Res 2013, 173, 131−139.10.1016/j.virusres.2012.10.01023085123Search in Google Scholar

6. Costard S., Mur L., Lubroth J., Sanchez-Vizcaino J.M., Pfeiffer D.U.: Epidemiology of African swine fever virus. Virus Res 2013, 173, 191–197.10.1016/j.virusres.2012.10.03023123296Search in Google Scholar

7. Costard S., Wieland B., de Glanville W., Jori F., Rowlands R., Vosloo W., Roger F., Pfeiffer D.U., Dixon L.K.: African swine fever: how can global spread be prevented? Philos Trans R Soc Lond B Biol Sci 2009, 364, 2683–2696.10.1098/rstb.2009.0098286508419687038Search in Google Scholar

8. de Carvalho Ferreira H.C., Tudela Zúquete S., Wijnveld M., Weesendorp E., Jongejan F., Stegeman A., Loeffen W.L.: No evidence of African swine fever virus replication in hard ticks. Borne Dis 2014, 5, 582–589.10.1016/j.ttbdis.2013.12.01224980962Search in Google Scholar

9. Diaz I., Olvera A., Segalés J.: Use of H-Index and other bibliometric indicators to evaluate research productivity outcome on swine diseases. PLoS One 2016, 11, e0149690.10.1371/journal.pone.0149690477301026930283Search in Google Scholar

10. European Food Safety Authority (EFSA): Scientific opinion on the role of tick vectors in the epidemiology of Crimean-Congo hemorrhagic fever and African swine fever in Eurasia. EFSA J 2010, 8, 1703.10.2903/j.efsa.2010.1703Search in Google Scholar

11. Galindo I., Alonso C.: African swine fever virus: a review. Viruses 2017, 9, 103.10.3390/v9050103545441628489063Search in Google Scholar

12. Global Agricultural Information Network: African swine fever detected in Romania. https://gain.fas.usda.gov/Recent%20GAIN%20Publications/African%20Swine%20Fever%20Detected%20in%20Romania_Bucharest_Romania_8-4-2017.pdf.Search in Google Scholar

13. Global Agricultural Information Network: African swine fever occurrence in the Czech Republic. https://gain.fas.usda.gov/Recent%20GAIN%20Publications/African%20Swine%20Fever%20Occurrence%20in%20the%20Czech%20Republic_Prague_Czech%20Republic_6-28-2017.pdfSearch in Google Scholar

14. Guinat C., Gogin A., Blome S., Keil G., Pollin R., Pfeiffer D.U., Dixon L.: Transmission routes of African swine fever virus to domestic pigs: current knowledge and future research directions. Vet Rec 2016, 178, 262–267.10.1136/vr.103593481965926966305Search in Google Scholar

15. Hinnebusch J., Barbour A.G.: Linear plasmids of Borrelia burgdorferi have a telomeric structure and sequence similar to those of a Eukaryotic virus. J Bacterol 1991, 173, 7233–7239.10.1128/jb.173.22.7233-7239.19912092301938918Search in Google Scholar

16. Huang Z.Y.X., van Langevelde F., Honer K.J., Naguib M., de Boer W.F.: Regional level risk factors associated with the occurrence of African swine fever in West and East Africa. Parasit Vectors 2017, 10, 16.10.1186/s13071-016-1953-z521976328061875Search in Google Scholar

17. Jori F., Vial L., Penrithd M.L., Pérez-Sánchez R., Etter E., Albinac E., Michaudc V., Roger F.: Review of the sylvatic cycle of African swine fever in sub-Saharan Africa and the Indian ocean. Virus Res 2013, 173, 212–227.10.1016/j.virusres.2012.10.00523142551Search in Google Scholar

18. Krug P.W., Holinka L.G., O'Donnell V., Reese B., Sanford B., Fernandez-Sainz I., Gladue D.P., Arzt J., Rodriguez L., Risatti G.R., Borca M.V.: The progressive adaptation of a Georgian isolate of African swine fever virus to vero cells leads to a gradual attenuation of virulence in swine corresponding to major modifications of the viral genome. J Virol 2015, 89, 2324–2332.10.1128/JVI.03250-14433888125505073Search in Google Scholar

19. Little S.E.: Vector-borne diseases. In: Georgis’ Parasitology for Veterinarians, edited by D.D. Bowman, Elsevier Saunders, Saint Louis, 2014, pp. 241–263.Search in Google Scholar

20. Madder M., Horak I., Stoltsz H.: Ticks: tick identification. University of Pretoria, Faculty of Veterinary Science, Pretoria, 2010, pp. 1–48.Search in Google Scholar

21. Manzano-Román R., Díaz-Martín V., De La Fuente J., Pérez-Sánchez R.: Soft ticks as pathogen vectors: distribution, surveillance and control. INTECH 2012, doi: 10.5772/32521.10.5772/32521Open DOISearch in Google Scholar

22. Penrith M.L.: African swine fever. Onderstepoort J Vet Res 2009, 76, 91–95.10.4102/ojvr.v76i1.70Search in Google Scholar

23. Ribeiro R., Otte J., Madeira S., Hutchings G.H., Boinas F.: Experimental infection of Ornithodoros erraticus sensu stricto with two Portuguese African swine fever virus strains. Study of factors involved in the dynamics of infection in ticks. PLoS One 2015, 10, e0137718.10.1371/journal.pone.0137718456940026366570Search in Google Scholar

24. Rowlands R.J., Michaud V., Heath L., Hutchings G., Oura C., Vosloo W., Dwarka R., Onashvili T., Albina E., Dixon L.K.: African swine fever virus isolate, Georgia, 2007. Emerg Infect Dis 2008, 14, 1870–1874.10.3201/eid1412.080591263466219046509Search in Google Scholar

25. Sanchez-Vizcaıno J.M., Mur L., Bastos A.D.S., Penrith M.L.: New insights into the role of ticks in African swine fever epidemiology. Rev Sci Tech Off Int Epiz 2015, 34, 503–511.10.20506/rst.34.2.237526601452Search in Google Scholar

26. Sanchez-Vizcaıno J.M., Mur L., Martinez-Lopez B.: African swine fever: an epidemiological update. Transbound Emerg Dis 2012, 59, 27–35.10.1111/j.1865-1682.2011.01293.x22225967Open DOISearch in Google Scholar

27. Śmietanka K., Woźniakowski G., Kozak E., Niemczuk K., Frączyk M., Bocian Ł., Kowalczyk A., Pejsak Z.: African swine fever epidemic, Poland, 2014–2015. Emerg Infect Dis 2016, 22, 1201–1207.10.3201/eid2207.151708491816927314611Search in Google Scholar

28. Sonenshine D.E., Roe R.M.: Biology of Ticks. Oxford University Press, New York, 2014, pp. 293–294.Search in Google Scholar

29. Trape J.-F., Diatta G., Arnathau C., Bitam I., Sarih M., Belghyti D., Bouattour A., Elguero E., Vial L., Mané Y., Baldé C., Pugnolle F., Chauvancy G., Mahé G., Granjon L., Duplantier J.-M., Durand P., Renaud F.: The epidemiology and geographic distribution of relapsing fever borreliosis in West and North Africa, with a review of the Ornithodoros erraticus complex (Acari: Ixodida). PLoS One 2013, 8, e78473.10.1371/journal.pone.0078473381725524223812Search in Google Scholar

30. Vial L., Wieland B., Jori F., Etter E., Dixon L.K., Roger F.: African swine fever virus DNA in soft ticks, Senegal. Emerg Infect Dis 2007, 13, 1928–1931.10.3201/eid1312.071022287677318258050Search in Google Scholar

31. Woźniakowski G., Frączyk M., Niemczuk K., Pejsak Z.: Selected aspects related to epidemiology, pathogenesis, immunity, and control of African swine fever. J Vet Res 2016, 60, 119–125.10.1515/jvetres-2016-0017Search in Google Scholar

32. Woźniakowski G., Kozak E., Kowalczyk A., Łyjak M., Pomorska-Mól M., Niemczuk K., Pejsak Z.: Current status of African swine fever virus in a population of wild boar in eastern Poland (2014−2015). Arch Virol 2016, 161, 189–195.10.1007/s00705-015-2650-5469827826497350Search in Google Scholar