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Cacao Diseases pp 337-358 | Cite as

Cacao Swollen Shoot Virus (CSSV): History, Biology, and Genome

Chapter

Abstract

Cacao swollen shoot virus (CSSV) is the only virus disease of cacao that is prevalent and damaging. CSSV is a dsDNA virus of the genus Badnavirus and the family Caulimoviridae transmitted by several species of mealybugs. The historical emergence of the disease is closely associated with the establishment of cacao cultivation in West Africa as it appeared soon after the introduction of the cacao in West Africa and remains endemic to this area. The disease is likely due to several host shifts from indigenous hosts. We can additionally conclude from the high molecular variability of the virus that the disease consists of a complex of viral species. Although the disease spreads slowly, eradication campaigns have failed to contain the disease which continues to emerge in new West African regions.

Keywords

Ivory Coast Citrus Tristeza Virus Cacao Tree Eradication Campaign Mild Strain 
These keywords were added by machine and not by the authors. This process is experimental and the keywords may be updated as the learning algorithm improves.

Notes

Acknowledgment

I wish to thank Mike Thresh for the numerous interesting discussions that help me approaching the problem of CSSV in its entirety. I thank Colin Campbell who helped me to write the tribute to Mike Thresh as an introduction of this chapter. I am grateful to Komlan Wegbe, Ekemini Obok, Francis Abrokwah and Henry Dzahini-Obiatey for giving to me some unpublished information. 

References

  1. Adegbola, M. O. K. (1971). Significant developments in the study of the cocoa swollen shoot virus disease. Bulletin of Entomological Society of Nigeria, 3, 6–18.Google Scholar
  2. Ampofo, S. T. (1997). The current cocoa swollen shoot virus disease situation in Ghana. In: First International Cocoa Pests and Diseases Seminar Accra, Ghana, November 6–10, 1995 (pp. 175–178).Google Scholar
  3. Attafuah, A., Blencowe, J., & Brunt, A. A. (1963). Swollen shoot disease of cocoa in Sierra Leone. Tropical Agriculture, Trinidad, 40, 229–232.Google Scholar
  4. Bartley, B. G. D. (2005). The genetic diversity of cacao and its utilization. Wallingford: CABI Publishing. 341 pp.CrossRefGoogle Scholar
  5. Bigger, M. (1981). The relative abundance of the mealybug vectors (Hemiptera: Coccidae and Pseudococcidae) of cocoa swollen shoot disease in Ghana. Bulletin of Entomological Research, 71, 435–448.CrossRefGoogle Scholar
  6. Braudeau, J. (1969). Le cacaoyer. Techniques Agricoles et Productions Tropicales. Paris: Maisonneuve et Larose.Google Scholar
  7. Brunt, A. A. (1970). Cacao swollen shoot virus. In A. J. Gibbs, B. D. Harrison, & A. F. Murant (Eds.), CMI/AAB descriptions of plant viruses. Kew: Commonwealth Mycological Institute.Google Scholar
  8. Brunt, A. A., & Kenten, R. H. (1962). Mechanical transmission of cocoa mottle leaf virus and three distinct isolates of the cocoa swollen shoot virus. Virology, 16, 199–201.CrossRefPubMedGoogle Scholar
  9. Brunt, A. A., Kenten, R. H., & Nixon, H. L. (1964). Some properties of cocoa swollen shoot virus. Journal of General Microbiology, 36, 303–309.CrossRefPubMedGoogle Scholar
  10. Burle, L. (1961). Le cacaoyer. Paris: G. P. Maisonneuve et Larose.Google Scholar
  11. CABI, Crop Protection Compendium. (2002). Cacao swollen shoot virus. Wallingford: CABI Publishing.Google Scholar
  12. Cilas, C., Muller, E., & Mississo, E. (2005). Occurrence of cacao swollen shoot virus in Litimé, the main cocoa-producing area of Togo. Plant Disease, 89(8), 913.CrossRefGoogle Scholar
  13. Cornwell, P. B. (1958). Movements of the vectors of virus diseases of cacao in Ghana. I. Canopy movement in and between trees. Bulletin of Entomological Research, 49, 613–630.CrossRefGoogle Scholar
  14. Domfeh, O., Dzahini-Obiatey, H., Ameyaw, G. A., Abaka-Ewusie, K., & Opoku, G. (2011). Cocoa swollen shoot virus disease situation in Ghana: A review of current trends. African Journal of Agricultural Research, 6, 5033–5039.Google Scholar
  15. Dongo, L. N., & Orisajo, S. B. (2007). Status of cocoa swollen shoot disease in Nigeria. African Journal of Biotechnology, 6(17), 2054–2061.Google Scholar
  16. Dufour, B. (1988). Utilisation d’une méthode de transmission pour caractériser les formes togolaises du virus du cacao swollen shoot du cacaoyer. Café, Cacao, Thé, 32, 219–228.Google Scholar
  17. Dzahini-Obiatey, H., Akumfi Ameyaw, G., & Ollennu, L. A. A. (2006). Control of cocoa swollen shoot disease by eradicating infected trees in Ghana: A survey of treated and replanted areas. Crop Protection, 25, 647–652.CrossRefGoogle Scholar
  18. Folimonova, S. Y. (2013). Developing an understanding of cross-protection by Citrus tristeza virus. Frontiers in Microbiology, 4, 1–9.CrossRefGoogle Scholar
  19. Ghana COCOBOD Executive Diary. (2007).Google Scholar
  20. Hagen, L. S., Jacquemond, M., Lepingle, A., Lot, H., & Tepfer, M. (1993). Nucleotide sequence and genomic organization of Cacao swollen shoot virus. Virology, 196(2), 619–628.CrossRefPubMedGoogle Scholar
  21. Hagen, L. S., Lot, H., Godon, C., Tepfer, M., & Jacquemond, M. (1994). Infection of Theobroma cacao using cloned DNA of cacao swollen shoot virus and particle bombardment. Molecular Plant Pathology, 84, 1239–1243.Google Scholar
  22. Hughes, J. d’A., & Ollennu, L. A. A. (1994). Mild strain protection of cocoa in Ghana against cocoa swollen shoot virus – A review. Plant pathology, 43(3), 442–457.Google Scholar
  23. Jacquot, E., Hagen, L. S., Jacquemond, M., & Yot, P. (1996). The open reading frame 2 product of cacao swollen shoot badnavirus is a nucleic acid-binding protein. Virology, 225(1), 191–195.CrossRefPubMedGoogle Scholar
  24. Jacquot, E., Hagen, L. S., Michler, P., Rohfritsch, O., Stussi-Garaud, C., Keller, M., et al. (1999). In situ localization of cacao swollen shoot virus in Theobroma cacao. Archives of Virology, 144, 259–271.CrossRefPubMedGoogle Scholar
  25. Kenten, R. H., & Legg, J. T. (1971). Serological relationships of some viruses from cocoa (Theobroma cacao L.) in Ghana. Annals of Applied Biology, 67, 195–200.CrossRefGoogle Scholar
  26. Kenten, R. H., & Woods, R. D. (1976). A virus of the cocoa swollen shoot group infecting cocoa in North Sumatra. Pest Articles and News Summaries, 22(4), 488–490.Google Scholar
  27. Kirkpatrick, T. W. (1953). Insect pests of cacao and insect vectors of cacao virus diseases. In Cocoa Research, Trinidad, 1945–51 (pp. 122–125).Google Scholar
  28. Kouakou, K., Kebe, I., Kouassi, N., Aké, S., Cilas, C., & Muller, E. (2012). Geographical distribution of cacao swollen shoot virus (CSSV) molecular variability in Côte d’Ivoire. Plant Disease, 96, 1445–1450.CrossRefGoogle Scholar
  29. Legg, J. T., & Bonney, J. K. (1967). The host range and vector species of viruses from Cola chlamydantha K. Schum., Adansonia digitata L. and Theobroma cacao L. Annals of Applied Biology, 60, 399–403.CrossRefGoogle Scholar
  30. Legg, J. T., & Lockwood, G. (1981). Resistance of cocoa to swollen shoot virus in Ghana. I. Field trials. Annals of Applied Biology, 97, 75–89.CrossRefGoogle Scholar
  31. Lister, R. M., & Thresh, J. M. (1957). The history and control of cocoa swollen shoot disease in Nigeria. In Proceedings of the Cocoa Conference, London (pp. 132–142).Google Scholar
  32. Liu, P. S. W., & Liew, P. S. C. (1979). Transmission studies of a cocoa virus disease (yellow vein-banding) in Sabah (Technical bulletin, Vol. 4). Sabah: Department of Agriculture.Google Scholar
  33. Lockhart, B. E. L. (1990). Evidence for a double-stranded circular DNA genome in a second group of plant viruses. Phytopathology, 80, 127–131.CrossRefGoogle Scholar
  34. Lockhart, B. E. L., & Sackey, S. (2001). Cacao swollen shoot. In O. C. Maloy & T. D. Murray (Eds.), Encyclopedia of plant pathology (Vol. 1, pp. 172–173). New York: Wiley-Interscience, Inc.Google Scholar
  35. Longworth, J. F. (1963). Cocoa swollen shoot disease of cocoa. Cocoa Grower’s Bulletin, 1, 17–21.Google Scholar
  36. Lot, H., Djiekpor, E., & Jacquemond, M. (1991). Characterization of the genome of Cacao swollen shoot virus. Journal of General Virology, 72, 1735–1739.CrossRefPubMedGoogle Scholar
  37. Mangenot, G., Alibert, H., & Basset, A. (1946). Sur les caractères du swollen shoot en Côte d’Ivoire. Revue Internationnale de Botanique Appliquée (Paris) Tropical bulletin, 283, 13.Google Scholar
  38. Meiffren, M. (1953). Note sur l’étude contre de la protection des cacaoyers contre les insectes et les et les maladies en A.O.F. In West African International Cacao Research Conference, Tafo.Google Scholar
  39. Muller, E., Jacquot, E., & Yot, P. (2001). Early detection of Cacao swollen shoot virus using the polymerase chain reaction. Journal of Virological Methods, 93, 15–22.CrossRefPubMedGoogle Scholar
  40. Muller, E., & Sackey, S. (2005). Molecular variability analysis of five new complete Cacao swollen shoot virus genomic sequences. Archives of Virology, 150, 53–66.CrossRefPubMedGoogle Scholar
  41. Olunloyo, O. A. A. (2001). General overview of cocoa viruses in West Africa. In J. d’A. Hughes & B. O. Odu (Eds.), Plant virology in sub-Saharan Africa (pp. 33–49). Ibadan: International Institute of Tropical Agriculture (IITA).Google Scholar
  42. Orellana, R. G., & Peiris, J. W. L. (1957). The swollen shoot phase of the virus disease of cacao in Ceylon. FAO Plant Protection Bulletin, V(11), 165–168.Google Scholar
  43. Oro, F., Mississo, E., Okassa, M., Guilhaumon, C., Fenouillet, C., Cilas, C., et al. (2012). Geographical differentiation of the molecular diversity of Cacao swollen shoot virus in Togo. Archives of Virology, 157, 509–514.CrossRefPubMedGoogle Scholar
  44. Owusu, G. K. (1983). The cocoa swollen shoot disease problem in Ghana. In R. T. Plumb & J. M. Thresh (Eds.), Plant virus epidemiology (pp. 73–83). Oxford: Blackwell Scientific.Google Scholar
  45. Paine, J. (1945). Report of Agronomy Division, W.A.C.R.I. unpublished.Google Scholar
  46. Partiot, M., Djiekpor, E. K., Amefia, Y. K., & Bakar, K. A. (1978). Le “swollen shoot” du cacaoyer au Togo. Inventaire préliminaire et première estimation des pertes causées par la maladie. Café, Cacao, Thé, 22(3), 217–228.Google Scholar
  47. Peiris, J. W. L. (1953). A virus disease of cacao in Ceylon. Tropical Agriculture, Trinidad, 109, 135–138.Google Scholar
  48. Posnette, A. F. (1940). Transmission of swollen shoot disease of cacao. Tropical Agriculture, Trinidad, 17, 98.Google Scholar
  49. Posnette, A. F. (1947). Virus diseases of cacao in West Africa, Cacao viruses 1A, 1B, 1C, and 1D. Annals of Applied Biology, 34, 388–402.CrossRefGoogle Scholar
  50. Posnette, A. F. (1981). The role of wild hosts in cocoa swollen shoot disease. In J. M. Thresh (Ed.), Pests, pathogens and vegetation (pp. 71–78). London: Pitman.Google Scholar
  51. Posnette, A. F., Robertson, N. F., & Todd, J. (1950). Virus disease of cacao in West Africa. V. Alternative host plants. Annals of Applied Biology, 37, 229–240.CrossRefGoogle Scholar
  52. Posnette, A. F., & Todd, J. M. (1951). Virus diseases of cacao in West Africa. The search for virus resistant cacao. Annals of Applied Biology, 38(4), 785–800.CrossRefGoogle Scholar
  53. Posnette, A. F., & Todd, J. M. (1955). Virus diseases of cocoa in West Africa. IX. Strain variation and interference in virus 1A. Annals of Applied Biology, 43, 433–453.CrossRefGoogle Scholar
  54. Quainoo, A. K., Wetten, A. C., & Allainguillaume, J. (2008). Transmission of cocoa swollen shoot virus by seeds. Journal of Virological Methods, 150, 45–49.CrossRefPubMedGoogle Scholar
  55. Renaud, R. (1957). Distribution of virus disease of cocoa in the Ivory Coast. Proceedings of the Cocoa Conference, London (pp. 78–80). Google Scholar
  56. Steven, W. H. (1936). A new disease of cacao in the Gold Coast. Gold Coast Farmer, 5, 122–144.Google Scholar
  57. Strickland, A. H. (1950). The dispersal of Pseudococcidae (Hemiptera: Homoptera) by air currents in the Gold Coast (pp. 1–9). London: Royal Entomological Society.Google Scholar
  58. Strickland, A. H. (1951). The entomology of swollen shoot of cacao I. The insect species involved with notes on their biology. Bulletin of Entomological Research, 41, 725–748.CrossRefGoogle Scholar
  59. Swarbrick, J. T. (1961). Cacao virus in Trinidad. Tropical Agriculture, Trinidad, 38(3), 245–249.Google Scholar
  60. Thresh, J. M. (1959). The control of cacao swollen shoot disease in Nigeria. Tropical Agriculture, Trinidad, 36, 35–44.Google Scholar
  61. Thresh, J. M., & Owusu, G. K. (1986). The control of cocoa swollen shoot disease in Ghana: An evaluation of eradication procedures. Crop Protection, 5(1), 41–52.CrossRefGoogle Scholar
  62. Thresh, J. M., Owusu, G. K., & Ollennu, L. A. A. (1988). Cocoa swollen shoot: An archetypal crowd disease. Zeitschrift für Pflanzenkrankheiten und Pflanzenschutz, 95, 428–446.Google Scholar
  63. Thresh, J. M., & Tinsley, T. W. (1959). The viruses of cocoa. Tafo: West African Cocoa Research Institute.Google Scholar
  64. Tinsley, T. W. (1971). The ecology of cacao viruses. I. The role of wild hosts in the incidence of swollen shoot virus in West Africa. Journal of Applied Ecology, 8(2), 491–495.CrossRefGoogle Scholar
  65. Tinsley, T. W., & Wharton, A. L. (1958). Studies on the host range of viruses from Theobroma cacao L. Annals of Applied Biology, 46, 1–6.CrossRefGoogle Scholar
  66. Todd, J. M. (1951). An indigenous source of swollen shoot disease of cacao. Nature, 167, 952–953.CrossRefPubMedGoogle Scholar
  67. Vanderplank, J. E. (1948). The relation between the size of fields and the spread of plant-disease into them. Part I. Crowd diseases. Empire Journal of Experimental Agriculture, 16, 134–142.Google Scholar
  68. Wiltshire, S. P. (1946). Common names of virus diseases used in the Review of Applied Mycology. Review of Applied Mycology, 24, 513.Google Scholar
  69. Wood, G. A. R., & Lass, R. A. (1987). Cocoa (Tropical agriculture series 4th ed.). New York: Longman Scientific Technical.Google Scholar

Copyright information

© Springer International Publishing Switzerland 2016

Authors and Affiliations

  1. 1.UMR BGPICIRADMontpellier Cedex 5France

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