References

  1. Arzt, J., Pacheco, J.M. & Rodriguez, L.L., 2010. The early pathogenesis of foot-and-mouth disease in cattle after aerosol inoculation: identification of the naso-pharynx as the primary site of infection. Veterinary Pathology, 47, 1048-1063.
  2. Arzt, J., Juleff, N., Zhang, Z. & Rodriguez. L.l., 2011a. The pathogenesis of foot-and-mouth disease I: Viral pathways in cattle. Transboundary & Emerging Diseases, 58, 291-304.
  3. Arzt, J., Baxt, b., Grubman, M.J., Jackson, T., Juleff, N., Rhyan, J., Rieder, J., Waters, R. & Rodriguez, R., 2011b. The pathogenesis of foot-and-mouth disease II: Viral pathways in swine, small ruminants, and wildlife; myotropism, chronis syndromes, and molecular virus-host interactions. Transboundary & Emerging Diseases, 58, 305-326.
  4. Bachrach, H.L., 1968. Foot-and-mouth disease. Annual Review of Microbiology, 201-244.
  5. Bastos, A.D.S., Bodhoff, C.I., Keet, D.F., Bengis, R.G. & Thomson, G.R., 2000. Natural transmission of foot-and-mouth disease virus between African buffalo (Syncerus caffer) and impala (Aepyceros melampus) in the Kruger National Park, South Africa. Epidemiology & Infection, 124,591-598.
  6. Bastos, A.D.S., Haydon, D.T., Sangare, O., Boshoff, C.I., Edrich, J.L. & Thomson, G.R., 2003. The implications of virus diversity within the SAT 2 serotype for control of foot-and-mouth disease in sub-Saharan Africa. Journal of General Virology, 84, 1595-1606.
  7. Burrows, R., Mann, J.A., Garland, A., Grieg, A. & Goodridge, D., 1981. The pathogenesis of natural and simulated natural foot-and-mouth disease infection in cattle. Journal of Comparative Pathology, 91, 599-629.
  8. Charleston, B., Bankowski, B.M., Gubbins, S, et al., 2011. Relationship between clinical signs and transmission of an infectious disease and the implications for control. Science, 332, 726-729.
  9. Dillon, M.B., 2011. Skin as a potential source of infectious foot and mouth aerosols. Proceedings of the Royal Society B, 278, 1761-1767.
  10. Francis, M.J., Hastings, G.Z., Syred, A.D., McGinn, B., Brown, F. & Rowlands, D.J., 1987. Non-responsiveness to a foot-and-mouth disease virus peptide overcome by addition of foreign helper-cell determinants. Nature, 300, 168-170.
  11. Juleff, N., Windsor, M., Reid, E., Seago, J., Zhang, Z., Monaghan, P., Morrison, I. & Charleston, B., 2011. Foot-and-mouth-disease virus persists in the light zone of germinal centres. PloS ONE, e3434 (www.plosone.org).
  12. Maree, F.F., Blignaut, B., Esterhuysen, J.J., de Beer, T.A., Theron, J., O'Neill, H.G. & Rieder, E.., 2011. Predicting antigenic sites on the foot-and-mouth disease virus capsid of the South African Territories (SAT) types using virus neutralization data. Journal of General Virology. In press (June 2011).
  13. Paton, D.J., Sinclair, M. & Rodriguez, R., 2010. Qualitative assessment of the commodity risk for spread of foot-and-mouth disease associated with trade in deboned beef. Transboundary & Emerging Diseases, 57, 115-134.
  14. Platt, H., 1960. The localization of lesions in experimental foot-and-mouth disease. British Journal of Experimental Pathology, 41, 150-159.
  15. SADC, 2008. Report of the workshop on ‘Achieving compatibility between the trans-frontier conservation area (TFCA) concept and international standards for the management of trans-boundary animal diseases (TADS) held at Kasane (Botswana) in November 2008.
  16. SADC, 2010. Final report of the EU-funded SADC FMD Project, volume III.
  17. Terpstra, C., 1972. Pathogenesis of foot-and-mouth disease in experimentally infected pigs. Bulletin Office International des Epizooties, 77, 859-874.
  18. Thomson, G.R. & Bastos, A.D.S., 2004a. Foot-and-mouth disease. In: Infectious Diseases of Livestock, 2nd edn. JAW Coetzer & RC Tustin (eds.). Vol. 2; pp 1324-1365. Cape Town: Oxford University Press Southern Africa.
  19. Thomson, G.R., Tambi, E.N., Hargreaves, S.K., Leyland, T.J., Catley, A.P., van ‘t Klooster, G.G.M. & Penrith, M-L., (2004b). International trade in livestock and livestock products: The need for a commodity-based approach. Veterinary Record, 155, 429-433.
  20. Thomson, G.R., Perry. B., Leyland, T.J., Catley, A.P., Penrith, M-L, & Donaldson, A.I. (2006). Certification for regional and international trade in livestock commodities: the need to balance credibility and enterprise. Veterinary Record, 159, 53-57.
  21. Thomson, G.R., Leyland, T.J. & Donaldson, A.I. (2009). De-boned beef – An example of a commodity for which specific standards could be developed to ensure an appropriate level of protection for international trade. Transboundary & Emerging Diseases, 56, 9-17.
  22. Vosloo, W., Thompson, P.N., Botha, B., Bengis, R.G. & Thomson, G.R. (2009). Longditudinal study to investigate the role of impala (Aepyceros melampus) in foot-and-mouth disease maintenance in the Kruger National Park, South Africa. Transboundary & Emerging Diseases, 56, 18-30.
  23. Woodbury, E.L., 1995. A review of the possible mechanisms for persistence of foot-and-mouth disease virus. Epidemiology & Infection, 114, 1-13.
  24. Woods, A., 2004. A manufactured plague: The history of foot and mouth disease in Britain. London: Earthscan.
  25. Zhang, Z. & Alexandersen, S., 2004. Quantitative analysis of foot-and-mouth disease viral loads in bovine tissues: implications for the site of viral persistence. Journal of General Virology, 85, 2567-2575.