Abstract
An increasing number of diseases transmitted by Brevipalpus mite species (Acari: Tenuipalpidae) is being identified that affect economically important plants such as citrus, coffee, passion fruit, orchids, and several ornamentals. All of these diseases are characterized by localized lesions (chlorotic, green spots, or ringspots) on leaves, stems, and fruits. Virus or virus-like agents are considered to be the causal agents, possibly transmitted in a circulative-propagative manner by Brevipalpus mites. The virus or virus-like particles are short, rod-like, or bacilliform, that induce two characteristic types of cell alteration: (1) ‘Nuclear type’ – nuclei of parenchyma and epidermal cells in the lesions often contain a large electron lucent inclusion. Short, naked, rod-like (40–50 nm × 100–110 nm) particles may be seen in the viroplasm or nucleoplasm and in the cytoplasm. These particles are commonly arranged perpendicularly on the membranes of the nuclear envelope or endoplasmic reticulum (ER). In a very few instances, they were found to be membrane-bound, within the ER cavities. (2) ‘Cytoplasmic type’ – short bacilliform particles (60–70 nm × 110–120 nm) are present within the cisternae of the ER and often have electron dense viroplasm of varied shapes present in the cytoplasm. Bacilliform particles may be seen budding into the ER lumen near the viroplasm. These particles resemble those of members of the Rhabdoviridae, but are shorter. The only sequenced virus of this group, orchid fleck virus (OFV), has a negative sense (bipartite) type ssRNA genome, but its organization is similar to known rhabdoviruses, which are monopartite. Both types of cytopathological effects have been found associated with citrus leprosis. In orchids, OFV has a ‘nuclear type’ of cytopathology, but in some species the ‘cytoplasmic type’ has been found associated with ringspot symptoms. In Hibiscus and Clerodendron, green spot symptoms have been associated with the cytoplasmic type of cell alteration, while chlorotic spots, in the same species, are associated with the nuclear type. In a few cases, both types of cytopathological effects have been found in the same tissue and cell.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Aubouy, J. and Devergne, J.C. 2000. Enfermedades producidas por virus de las plantas ornamentales. Madri. Ediciones Mundi-Prensa, 480 pp.
Bitancourt, A.A. 1955. Estudos sobre a leprose dos citrus. Arquivos do Instituto Biológico, São Paulo 22: 161–231.
Brown, L.G. and Bliss, W. 2001. Viruses. In: Diseases of Woody Ornamentals and Trees in Nurseries, R.K. Jones and D.M. Benson (eds), pp. 30–35. APS Press, St. Paul, MN.
Caner, J., Vicente, M. and July, J.R. 1977. Bacilliform particles associated with mycoplasmalike organisms in Hibiscus rosa-sinensis. Summa Phytopathol. 3: 155–157.
Carvalho, C.M., Figueira, A.R. and Ilarraz, E.S. 1998. New Brazilian coffee ringspot virus isolates acquired the ability to infect systemically experimental hosts. Phytopathology 88(9): S13–S14.
Chagas, C.M. 1980. Morphology and intracellular behavior of coffee ringspot virus (CRV) in tissues of coffee (Coffea arabica L.). Phytopathol. Z. 99: 301–309.
Chagas, C.M., Kitajima, E.W. and Rodrigues, J.C.V. 2003. Coffee ringspot virus vectored by Brevipalpus phoenicis (Acari: Tenuipalpidae) in coffee. Exp. Appl. Acarol. 30: 203–213.
Chiavegato, L.G. 1995. Transmissão da leprose pelo ácaro Brevipalpus phoenicis (Geijskes, 1939) (Acari: Tenuipalpidae) em citros. In: Leprose dos Citros. Jaboticabal, C.A.L. Oliveira and L.C. Donadio (eds), pp. 49–56. FUNEP, SP, Brazil.
Childers, C.C., Rodrigues, J.C.V., Derrick, K.S., Achor, D.S., French, J.V., Welbourn, W.C., Ochoa, R. and Kitajima, E.W. 2003. Citrus leprosis and its status in Florida and Texas: past and present. Exp. Appl. Acarol. 30: 181–202.
Colariccio, A., Lovisolo, O., Chagas, C.M., Galletti, S.R., Rossetti, V. and Kitajima, E.W. 1995. Mechanical transmission and ultrastructural aspects of citrus leprosis disease. Fitopatolol. Bras. 20: 208–213.
Doi, Y., Arai, K. and Yora, K. 1969. Ultrastructure of bacilliform virus found in Euonymus japonicum with mosaic and Cymbidium with ringspot. Ann. Phytopathol. Soc. Jpn. 35: 388.
Doi, Y., Chang, M.U. and Yora, K. 1977. Orchid fleck virus. CMI/AAB Descriptions of Plant Viruses No. 183.
Dominguez, F.S., Bernal, A., Childers, C.C. and Kitajima, E.W. 2001. First report of leprosis virus in Panama. Plant Dis. 84: 228.
Düvel, D. and Peters, K.R. 1971. Virusänhnliche Partikel in Dendrobium antennatum Ldl. Gartenwelt 71(3–6): 52–54.
Fawcett, H.S. 1936. Citrus Diseases and Their Control, 656 pp. McGraw-Hill, New York.
Freitas-Astua, J., Ferreira, P.T.O., Rezende, J.A.M. and Kitajima, E.W. 2002. Partículas baciliformes associadas a manchas verdes e cloroticas em folhas da dama-da-noite (cestrum nocturnum). Resumos 35° Congresso Brasileiro de Fitopatologia Recife. PE.
Gowanlock, D.H. and Dietzegen, R.G. 1995. Small rhabdovirus-like particles in violet (Viola spp.). Aust. Plant Pathol. 24: 215–216.
Hiruki, C. 1992. Plant diseases associated with mites as vectors of known viruses and unknown etiological agents. Plant Diseases of Viral, Viroid,Mycoplasma, and Unknown Etiological Agents, In: K. Maramorosch (ed.), pp. 126–156. Westview Press, Boulder, CO.
Kim, K.S., Ahn, K.K., Gergelich, R.C. and Kim, S.B. 2001. Possible etiology of eriophyid mite-borne pathogens associated with double membrane-bound particles. In: Virus-Insect-Plant Interactions, K.F. Harris, O.P. Smith and J.F. Dodds (eds), pp. 29–50. Academic Press, San Diego, CA.
Kitajima, E.W. 2001. Brevipalpus mite transmitted plant viruses. In: Proc. 11th Congress Mediterranean Phytopathological Union and 3rd Congress of the Sociedade Portuguesa de Fitopatologia, Évora, Portugal, pp. 36–39.
Kitajima, E.W. and Costa, A.S. 1972. Partículas baciliformes associadas à mancha anular do cafeeiro. Ciência e Cultura 24: 542–545.
Kitajima, E.W. and de Moraes, G.J. 2001. Manchas cloróticas em Clerodendron x speciosum e mancha anular em Solanum violaefolium associadas a efeitos citopáticos similares aos dos vírus transmitido pelo ácaro Brevipalpus. Summa Phytopathol. 27: 105.
Kitajima, E.W. and Rodrigues, J.C.V. 2001. Mancha verde e mancha clorótica de Hibiscus são causados por tipos diferentes de vírus transmitidos por Brevipalpus. Summa Phytopathol. 27: 105.
Kitajima, E.W., Müller, G.W., Costa, A.S. and Yuki, V.A. 1972. Short rod-like particles associated with citrus leprosis. Virology 50: 254–258.
Kitajima, E.W., Rosillo, M.A., Portillo, M.M., Müller, G.W. and Costa, A.S. 1974. Microscopia eletronica de tecidos foliares de laranjeiras infectadas pela lepra explosiva da Argentina. Fitopatol. (Lima) 9: 55–56.
Kitajima, E.W., Rezende, J.A.M., Rodrigues, J.C.V., Chiavegato, L.G., Piza Jr., C.T. and Morozini, W. 1997. Green spot of passion fruit, a possible viral disease associated with infestation by the mite Brevipalpus phoenicis. Fitopatol. Bras. 22: 555–559.
Kitajima, E.W., Novaes, Q.S., Rezende, J.A.M. and de Moraes, G.J. 1999a. Short rhabdoviruslike particles and a caulimovirus in Hibiscus rosa-sinensis with green spot. In: Abst. Scandem '99, Bergen, pp. 63–64.
Kitajima, E.W., Pedrazzoli, D.S., Novaes, Q.S., Gioria, R., Rezende, J.A.M., de Moraes, G.J. and Rodrigues, J.C.V. 1999b. Ivy green spot and Schefflera ringspot: two additional cases of plant diseases caused by citrus leprosis type virus. Virus Rev. Res. 4 (Suppl. 1): 148–149.
Kitajima, E.W., Pedrazzolli, D.S., Rabelo, L.C., Gioria, R. and Rezende, J.A.M. 2000. Infecção natural de Solanum violaefolium por um isolado de eggplant mosaic virus. Fitopatol. Bras. 25: 441–442.
Kitajima, E.W., Kondo, H., MacKenzie, A., Rezende, J.A.M., Gioria, R. and Tamada, T. 2001a. Comparative cytopathology and in situ immunocytochemistry of Japanese, Australian, and Brazilian isolates of orchid fleck virus. J. Gen. Plant Pathol. 67: 231–237.
Kitajima, E.W., Rezende, J.A.M., Novaes, Q.S., Pedrazzolli, D., Rabelo, L.C. and Gioria, R. 2001b. Vírus da mancha anular de Solanum violaefolium: Transmissão mecânica e pelo ácaro. Summa Phytopathol. 27: 105.
Kitajima, E.W., Espina, L.M., Gaspar, J.O., Rezende, J.A.M., Ferraz, L.C.C.B. and Ferreira, P.T.O. 2002. Infecção natural de Solanum violaefolium pelo vírus do anel do pimentão (Pepper ringspot tobravirus-PepRSV). In: Resumos XXV Congresso Paulista de Fitopatologia, Santo Antonio do Pinhal, SP, p. 138.
Kitajima, E.W., Rezende, J.A.M. and Rodrigues, J.C.V. 2003. Passion fruit green spot virus vectored by Brevipalpus phoenicis (Acari: Tenuipalpidae) in passion fruit in Brazil. Exp. Appl. Acarol. 30: 225–231.
Kondo, H., Maeda, T., Mitsuhata, K. and Inouye, N. 1996. Detection of the viruses occurring in oriental Cymbidium in Japan. Bull. Res. Inst. Bioresource, Okayama Univ. 4: 149–162.
Kondo, H., Maeda, T., Tamada, T. and Shirako, Y. 1998. The genome structure of orchid fleck virus shows to be a unique bipartite genome virus that resembles rhabdoviruses. In: Seventh Int. Cong. Plant Pathol., Edinburgh, p. 1.11.81 (abstract).
Kondo, H., Maeda, T. and Tamada, T. 2003. Orchid fleck virus: Brevipalpus californicus mite transmission, biological properties and genome structure. Exp. Appl. Acarol. 30: 215–223.
Lal, L. and Mukharji, S.P. 1979. Observation of the injury symptoms caused by phytophagous mites. Zool. Beiträge 25(1): 13–17.
Lesemann, D. and Begtrup, J. 1971. Elektronenmikroskopischer Nachweis eines bazilliformen Virus in Phalaenopsis. Phytopathol. Z. 71: 257–269.
Lima, M.L.R.Z.C., Costa Lima No., V. and Souza, V.B.V. 1991. The causal agent of the Ligustrum ringspot disease. Phytopathology 81: 1216.
Lockhart, B.E.L. 1987. Evidence for identity of plant rhabdovirus causing vein-yellowing of tomato and Hibiscus rosa-sinensis. Plant Dis. 71: 731–733.
Lockhart, B.E.L. and Olszewski, N.E. 1996. Schefflera ringspot virus, a widely distributed mealybug-transmitted badnavirus occurring in Schefflera and Aralia. Acta Hort. 432: 196–202.
Lorenzi, H. and de Souza, H.M. 1995. Plantas ornamentais no Brasil. Arbustivas, Herbáceas e Trepadeiras. Editora Plantarum Ltd., São Paulo, 720 pp.
Maeda, T., Kondo, H., Misuhata, K. and Tamada, T. 1998. Evidence that orchid fleck virus is efficiently transmitted in a persistent manner by the mite Brevipalpus californicus. In: Seventh Int. Cong. Plant Pathol., Edinburgh, p. 1.13.18 (abstract).
Martins, C.R.F., Lima, M.I., Barros, T.S.L., Resende, R.O. and Kitajima, E.W. 1999. Further characterization and serological properties of soursop yellow blotch rhabdovirus. Fitopatol. Bras. 24: 410–415.
Nogueira, N.L., Rodrigues, J.C.V. and Rossi, M.L. 2001. Partículas semelhantes a rhabdovirus associadas a sintomas de mancha verde em folhas de manacá (Brunfelsia sp.). Fitopatol. Bras. 26(Suppl.): 513.
Plavsic, B., Eric, Z. and Milicic, D. 1984. Rhabdovirus-like particles associated with vein yellowing of Hibiscus rosa sinensis L. Phytopathol. Mediterranea 23: 52–54.
Plavsic-Banjac, B., Milicic, D. and Eric, Z. 1976. Rhabdovirus in Pittosporum tobira plants suffering from vein and yellowing disease. Phytopathol. Z. 86: 225–232.
Rangel, E., Kitajima, E.W., Cermeli, M. and Centeno, F. 2000. Recientes avances en el estudio de la leprosis de los cítricos en Venezuela. In: Memorias VII Congreso Nacional de Frutales, R. Del Valle et al. (eds), p. 154. San Cristobal, Universidad Nacional Experimental Tachira.
Rodrigues, J.C.V., Nogueira, N.L. and Freitas, D.S. 1995. Ringspot of Ligustrum lucidum Aiton, a new disease transmitted by Brevipalpus phoenicis G. (Acari: Tenuipalpidae) in Brazil. Fitopatol. Bras. 20: 292.
Rodrigues, J.C.V., Nogueira, N.L., Freitas, D.S. and Prates, H.S. 1997. Virus-like particles associated with Brevipalpus phoenicis Geijskes (Acari: Tenuipalpidae), vector of Citrus leprosis virus. Anais Soc. Bras. Entomol. 26(2): 391–395.
Rodrigues, J.C.V., Machado, M.A., Kitajima, E.W. and Müller, G.W. 2000. Transmission of citrus leprosis virus by Brevipalpus phoenicis. In: Proc. 14th Conf. Int. Org. Citrus Virol, pp. 174–178. Univ. Calif. Press, Riverside.
Rodrigues, J.C.V., Kitajima, E.W., Childers, C.C. and Chagas, C.M. 2003. Citrus leprosis virus vectored by Brevipalpus phoenicis (Acari: Tenuipalpidae) in citrus in Brazil. Exp. Appl. Acarol. 30: 161–179.
Russo, M., Castellano, M.A. and Martelli, G.P. 1979. Rhabdovirus-like particles in English ivy (Hedera helix) and ivyleafed geranium (Pelargonium peltatum). Phytopathol. Z. 96: 122–131.
Slykhuis, J.T. 1980. Mites. In: Vectors of Plant Pathogens, K. Harris and K. Maramorosch (eds), pp. 325–356. Academic Press, New York.
Vergani, A.R. 1942. La transmission de la lepra explosiva de la ligustrina por ácaros. Rev. Agric. Agron. 9: 292–294.
Walker, P.J., Benmansour, A., Dietzgen, R., Fang, R.X., Jackson, A.O., Kurath, C., Leong, J.C., Nadin-Davies, S., Tesh, R.B. and Tordo, N. 2000. Family Rhabdoviridae. In: Virus Taxonomy, 7th Rpt. Int. Comm. Taxon. Viruses, M.H.V. van Regenmortel et al. (eds), pp. 563–583. Academic Press, San Diego, CA.
Waterworth, H. 1980. Hibiscus chlorotic ringspot virus. CMI/AAB Descriptions of Plant Viruses, No. 227.
Author information
Authors and Affiliations
Corresponding author
Rights and permissions
About this article
Cite this article
Kitajima, E., Chagas, C. & Rodrigues, J. Brevipalpus-Transmitted Plant Virus and Virus-Like Diseases: Cytopathology and Some Recent Cases. Exp Appl Acarol 30, 135–160 (2003). https://doi.org/10.1023/B:APPA.0000006546.55305.e3
Issue Date:
DOI: https://doi.org/10.1023/B:APPA.0000006546.55305.e3