Abstract
Viral diseases are a major constraint in improving productivity of crop plants in general and vegetable crops in particular. The losses caused by the viral diseases are greater in the tropics and semitropics, which provide ideal conditions for the perpetuation of not only the viruses but also their vectors and secondary hosts. Estimates of the losses caused by viral diseases in vegetables are not available, but viral infections frequently lead to even abandoning of crops due to high incidence of viruses (Varma and Malathi, 2003). Here, we briefly describe viral diseases of some common vegetables like eggplant, garlic, onion, pea and sweet pepper, and some uncommon vegetables like Amaranthus, chayote, Colocasia and Xanthosoma, Lablab, and okra.
This is a preview of subscription content, log in via an institution to check access.
Access this chapter
Tax calculation will be finalised at checkout
Purchases are for personal use only
Preview
Unable to display preview. Download preview PDF.
References
Ahlawat, Y.S., and Varma, A. 1997. Serological detection of a mixed viral infections in onion seed crop and possible measures for its management. Indian Phytopath. 50: 151–153.
Ali, A., and Randles, J.W. 1998. The effects of two pathotypes of pea seed-borne mosaic virus on the morphology and yield of pea. Australasian Pl. Pathol. 27: 226–233.
Ali, M., Hossain, M.Z., and Sarker, N.C. 2000. Inheritance of yellow vein mosaic virus (YVMV) tolerance in a cultivar of okra (Abelmoschus esculentus (L.) Moench). Euphytica 111: 205–209.
Arancibia, R.A., Valverde, R.A., and Can, F. 1995. Properties of a cryptic virus from pepper (Capsicum annuum). Pl. Pathol. 44: 164–168.
Atiri, G.I., Ivbijaro, M.F., and Oladele, A.D. 1991. Effects of natural and synthetic chemicals on the incidence and severity of okra mosaic virus in okra. Tropical Agr. 68: 178–180.
Avilla, A.C.de, Pena, L., Kitajima, E.W., Resende, R.de.O., Diaz-Mugica, M.V., Diaz-Ruiz, J.R., Peters, D., and De-Avilla, A.C. 1991. Characterization of tomato spotted wilt virus (TSWV), isolated from Capsicum annuum L. in the Canary Islands. Phytopath. Mediterranea 30: 23–29.
Avilla, C., Collar, J.L., Duque, M., Perez, P., and Fereres, A. 1997. Impact of floating rowcovers on bell pepper yield and virus incidence. Hort. Sci. 32: 882–883.
Awasthi, D.N., and Singh, B.P. 1974. Histopathological studies of reproductive organs in Capsicum annuum infected with cucumber mosaic virus. Indian Phytopath. 27: 218–22.
Baggett, J.R., Kasimor, K., and Hampton, R.O. 1994. OSU 663, OSU 668, and OSU 677 pea breeding lines resistant to pea seedborne mosaic virus. Hort. Sci. 29: 337–338.
Bernal, J.J., Jimenez, I., Moreno, M., Hord, M., Rivera, C., Koenig, R., and Rodriguez-Cerezo, E. 2000. Chayote mosaic virus, a new tymovirus infecting Cucurbitaceae. Phytopathology 90: 1098–1104.
Betti, L. 1992. Tomato spotted wilt virus on eggplant in Sicily (Italy). Phytopath. Mediterranea 31: 119–120.
Betti, L., Rubbini, M., Tanzi, M., and Canova, A. 1984. Research on TMV of Capsicum, n. Analysis of the aggressiveness of the virus and susceptibility of the host .Colture Protette 13: 49–52.
Bhat, A.I., Varma, A., Pappu, HR., Rajamannar, M., Jain, R.K., and Praveen, S. 1999. Characterization of a potyvirus from eggplant (Solanum melongena) as a strain of potato virus Y by N-terminal serology and sequence relationships. Pl. Pathol. 48: 648–654.
Boiteux, L.S., Cupertino, F.P., Silva, C., Dusi, A.N., Monte-Neshich, D.C., Vlugt, R.A.A.vander and Fonseca, M.E.N. 1996. Resistance to potato virus Y (pathotype 1-2) in Capsicum annuum and Capsicum chinense is controlled by two independent major genes. Euphytica 87: 53–58.
Boiteux, L.S., Nagata, T., Dutra, W.P., and Fonseca, M.E.N. 1993. Sources of resistance to tomato spotted wilt virus (TSWV) in cultivated and wild species of Capsicum. Euphytica 67: 89–94.
Bos, L., Lindsten K and Maat, D.Z. 1977. Similarity of clover yellow vein virus and pea necrosis virus. Neth. J. Pl. Pathol. 83: 97–108.
Bosland, P.W. 2000. Sources of curly top virus resistance in Capsicum. Hort. Sci. 35: 1321–1322.
Bozarth, R.F., Lana, A.O., Koenig, R., and Reese, J. 1977. Properties of the Nigerian and Ivory Coast strains of the okra mosaic virus. Phytopathology 67: 735–737
Brunt, A.A., and Kenten, R.H. 1972. Pepper veinal mottle virus. CMI/AAB Descr. Pl. Viruses No. 104 p. 6.
Brunt, A.A., Crabtree, K., Dallwitz, M.J., Gibbs, A.J., and Watson, L. 1996. Viruses of Plants. CAB International, Wallingford. pp. 1484.
Budnik, K., Laing, M.D., Graca, J.V.-da and Da-Graca, J.V. 1996. An epidemiological study of viruses of pepper (Capsicum annuum L.) in KwaZulu-Natal, South Africa. African pl. Protection 2: 9–14.
Camele, I., Candido, V., Miccolis, V., and Rana, G.L. 2000. Influence of nitrogen fertilization and water stress on incidence of virus infections in sweet pepper culture under glasshouse. Atti. Giornate Fitopatologiche, Perugia, 16-20 aprile, 2000, volume primo: 51–54.
Capoor, S.P., and Sawant, D.M. 1987. Studies on bell pepper yellow mosaic virus. Indian Phytopath. 40: 443–450.
Capoor, S.P., and Varma, P.M. 1950. A new virus disease of dolichos lablab. Current Sci. 19: 248–249.
Caranta, C., Palloix, A., Gebre-Selassie, K., Lefebvre, V., Moury, B., and Daubeze, A.M. 1996. A complementation of two genes originating from susceptible Capsicum annuum lines confers a new and complete resistance to pepper veinal mottle virus. Phytopathology 86: 739–743.
Chew, M.Y.I., Zavaleta, M., Delgadillo, S.F., Valdivia, A.R., Pena-Martinez, M.R. and Cardenas S.E. 1995. Evaluation of control strategies for virus diseases of pepper (Capsicum annuum L.). Fitopatologia 30: 7484.
Chowrira, G.M., Cavileer, T.D., Gupta, S.K., Lurquin, P.F., and Berger, P.H. 1988. Coat protein-mediated resistance to pea enation mosaic virus in transgenic Pisum sativum L. Transgenic Res. 7: 265–271.
Cicek, Y., and Yorganci, U. 1991. Studies on the incidence of tobacco mosaic virus on certified seed of tomato, pepper and eggplant in Aegean region. J. Turkish Phytopath. 20: 57–68.
Clark, M.F. 1972. Purification and some properties of a Comovirus group virus isolated in New Zealand. New Zealand J. Agric. 15: 846–856.
Conci, V.C., Helguera, M., Nome, S.F. 1999. Serological and biological comparison of onion yellow dwarf virus from onion and garlic in Argentina. Fitopatol. Bras. 24: 73–75.
Debrot, E.A., Morales, F., Anzola, D., Perlasca, A., and Betancourt, L.A. 1986. Results of trials for virus control in peppers (Capsicum annuum L.) using resistant varieties. Agronomia Tropical 32: 249–260.
Demler, S.A., Rucker-Feeney, D.G., Skaf, J.S., Zoeten, G.A.-de and De-Zoeten, G.A. 1997. Expression and suppression of circulative aphid transmission in pea enation mosaic virus. J. Gen. Virology 78: 511–523.
Deol, G.S., and Rataul, H.S. 1978. Role of various barrier crops in reducing the incidence of cucumber mosaic virus in chilli, Capsicum annuum Linn. Indian J. Entomology 40: 261–264.
Eldin, A.S.G., El-Kady, M.A., and El-Amrety. A.A. 1983. Pea mosaic virus (PMV) strain of bean yellow mosaic virus isolated from pea. Egyptian J. PhytoPathol. 13: 23–28.
Feldman, J.M., and Garcia, O. 1977. Pepper severe mosaic virus: A new Potyvirus from pepper in Argentina. Phytopath. Z. 89: 146–160.
Fukami, M., and Ishii, K. 1991. Occurrence of garlic latent virus (GLV) and onion yellow dwarf virus (OYDV) on seedless Welsh onions “Bozushirazu” in Chiba Prefecture, and influence of their infection on their yield. Bull. Chiba Prefectural Agril. Experiment Station 32: 9–17.
Gibbs, A J., and Harrison, B.D. 1973. Eggplant mosaic virus. CMI/AAB Descr. Pl. Viruses No. 124, p. 4.
Gilardi, P., Garcia-Luque, I., and Serra, M.T. 1998. Pepper mild mottle virus coat protein alone can elicit the Capsicum spp. L3 gene-mediated resistance. Molec. Pl. Microbe Interact. 11: 1253–1257.
Givord, L., and Koeing, R. 1974. Okra mosaic virus. CMI/AAB Descr. Pl. Viruses No. 128 p. 4.
Gollifer, D.E., and Brown, J.F. 1972. Virus diseases of Colocasia esculenta in the British Solomon Islands. Plant Dis. Reptr. 56: 597–599.
Goto, H., Itai, T., and Sato, S. 1977. Selection of attenuated viruses for control of sweet pepper [Capsicum annuum] mosaic disease caused by tobacco mosaic virus pepper strain and cucumber mosaic virus and their effects. Bull. Oita Prefectural Agril. Res. Center 27: 79–122.
Govindasamy, C.V., Marappan, V., Kandaswamy, T.K., and Padmanabham, C. 1967. “Mosaic disease of Amaranthus in Coimbatore. (Madras State). Madras Agric. J. 54: 35–36.
Green, S.K., and Chou, J.C. 1991. Studies on management practices to reduce aphidtransmitted viruses and their vectors in pepper (Capsicum annuum L.). Pl. Protection Bull. Taipei 33: 364–375.
Green, S.K and Kim, J.S. 1994. Sources of resistance to viruses of pepper (Capsicum spp.): a catalog. Technical Bullt. Asian Veg. Res. Dev. Center. No. 20, p. 64.
Grube, R.C., Zhang, Y.P., Murphy, J.F., Loaiza-Figueroa, F., Lackney, V.K., Provvidenti, R. and Jahn, M.K. 2000. New source of resistance to cucumber mosaic virus in Capsicum frutescens. Plant Dis. 84: 885–891.
Guerini, M.N., and Murphy, J.F. 1999. Resistance of Capsicum annuum ‘Avelar’ to pepper mottle potyvirus and alleviation of this resistance by co-infection with cucumber mosaic cucumovirus are associated with virus movement. J. Gen. Virology 80: 2785–2792.
Guigon-Lopez, C., and Gonzalez-Gonzalez, P.A. 1999. Integrated control of viruses of pepper (Capsicum annuum, L.) in the South of Chihuahua. Rev. Mexic. Fitopatologia 17: 8–16.
Hampton, R.O., Kraft, J.M., and Muehlbauer, F.J. 1993. Minimizing the threat of seedborne pathogens in crop germ plasm: elimination of pea seedborne mosaic virus from the USDA-ARS germ plasm collection of Pisum sativum. Plant Dis. 77: 220–224.
Harrison, B.D., Muniyappa, V., Swanson, M.M., Roberts, I.M., and Robinson, D.J. 1991. Recognition and differentiation of seven whitefly-transmited geminiviruses from India and their relationship to African cassare mosaic and Thailand mung bean yellow mosaic viruses. Annl. appl. Biol. 118: 299–308.
Hobbs, H.A., Black, L.L., Johnson, R.R., and Valverde, R.A. 1994. Differences in reactions among tomato spotted wilt virus isolates to three resistant Capsicum chinense lines. Plant Dis. 78: 1220.
Igwegbe, E.C.K., and Waterworth, H.E. 1982. Proportion and serology of a strain of pepper veinal mottle virus isolated from eggplant (Solanum melongena L.) in Nigeria. Phytopath Z. 103: 9–12
James, M., Kenten, R.H., and Woods, R.D. 1973. Virus-like particles associated with two diseases of Colocasia esculenta (L.) Schott in the Solomon Islands. J. Gen. Virology 21: 145–153.
Jasnic, S. 1979. Effect of tomato mosaic virus on capsicum yield. Savremena Poljoprivreda 27: 335–341.
Johansen, I.E., Keller, K.E., Dougherty, W.G., and Hampton, R.O. 1996. Biological and molecular properties of a pathotype P-1 and a pathotype P-4 isolate of pea seed-borne mosaic virus. J. Gen. Virology 77: 1329–1333.
Jose, J., and Usha, R. 2003. Bhendi yellow vein mosaic disease in India is caused by association of a DNA β satellite with a begomovirus. Virology 305: 310–317.
Kassanis, B., and Varma, A. 1975. Sunn-hemp mosaic virus, CMI/AAB Descr. Pl. Viruses No. 153.
Kenten, R.H., and Woods, R.D. 1973. Viruses of Colocasia esculenta and Xanthosoma saggitifolium. PANS 19: 38–41.
Khalil, J.A., Nelson, M.R., and Wheeler, R.E. 1982. Host range, purification, serology and properties of a Carlavirus from eggplant. Phytopathology 72: 1064.
Khan, M.A., and Mukhopadhyay, S. 1985. Effect of different pesticide combinations on the incidence of yellow vein mosaic virus disease of okra (Abelmoschus esculentus) and its whitefly vector Bemisia tabaci Genn. IndianJ. Virology 1: 147–151.
Khetarpal, R.K., and Maury, Y. 1987. Pea seed-borne mosaic virus: a review. Agronomie 7: 215–224.
Khetarpal, R.K., Maury, Y., Cousin, R., Burghofer, A., and Varma, A. 1990. Studies on resistance of pea to pea seed borne mosaic virus and new pathotypes. Ann. appl. Biol. 116: 297–304.
Kishtah, A.A., Russo, M., Tolba, M.A., and Martelli, G.P. 1978. A strain of broad bean wilt virus isolated from pea in Egypt. Phytopath. Mediterranea 17: 157–164.
Kiss, E., Kajati, I., Kolber, M., Basky, Z., and Nasser, M.A.K. 1988. The effect of Atplus 411 F on virus infection of red pepper and bell pepper. Meded. Facu. Landbouwwetenschappen, Rijksuniversiteit Gent 53: 479–486.
Kostova, D. 1982. Susceptibility of some Capsicum varieties to tomato strains of tobacco mosaic virus. Gradinarska I Lozarska Nauka 19: 95–103.
Ladera, P., Lastra, R., and Debrot, E.A. 1982. Purification and partial characterization of a Potyvirus infecting pepper in Venezuela. Phytopathology 83: 514–521.
Ladipo, J.L., Lesemann, D.E., and Koenig, R. 1988a. Further studies on a virus causing a green mosaic disease of eggplant in Nigeria. J. PhytoPathol. 121: 159–165.
Ladipo, J.L., Lesemann, D.E., and Koenig, R. 1988b. Host ranges, serology and cytopathology of eggplant and tomato strains of eggplant severe mottle virus, a new potyvirus from Nigeria. J. PhytoPathol. 122: 359–371.
Lana, A.O., and Ajibola-Taylor, T. 1976. The insect transmission of an isolate of okra mosaic virus occurring in Nigeria. Ann. appl. Biol. 82: 361–364.
Lana, A.O., Gilmer, R.M., Wilson, G.F., and Shoyinka, S.A. 1975. Identification and characterisation of a severe strain of pepper veinal mottle virus isolated from pepper (Capsicum annuum and C. frutescens) in Nigeria. Nigerian J. Pl. Protection 1: 76–81.
Lesemann, D.E. 1977. Virus group specific and virus specific cytological alteration induced by members of the tymovirus group. Phytopath. Z. 90: 315–336.
Lisa, V., and Lecoq, H. 1984. Amaranthus leaf mottle virus. CMI/AAB Descr. Pl. Viruses No. 282 p. 4.
Liu, H.M., Zhang, Q.P., and Li, J.R. 1996. Studies on the characteristics of welsh-onion yellow stripe virus. J. Shandong Agric. University 27: 303–310.
Liu, H.M., Zhang, Q.P., and Wei, Y.Y. 1999. Identification of resistance and primary screening of resistant resources to Welsh onion virus. J. Shandong Agric. University 30: 31–36.
Liu, L.J., Licha, M., Baella, D., and Rosa.E. 1982. Variations in morphology and mosaic virus resistance in plantlets of taniers (Xanthosoma sp.) via tissue culture. Phytopathology 72: 990.
Loebenstein, G., Alper, M., and Levy, S. 1970. Field test with oil sprays for the prevention of aphid-viruses in peppers. Phytopathology 60: 212–215.
MacFarlane, S.A., and Davies, J.W. 1992. Plants transformed with a region of the 201kilodalton replicase gene from pea early browning virus RNA1 are resistant to virus infection. Proc. Natl. Acad. Sci. USA 89: 5829–5833.
MacFarlane, S.A., Wallis, C.V., and Brown, D.J.F. 1996. Multiple virus genes involved in the nematode transmission of pea early browning virus. Virology 219: 417–422.
Makkouk, K.M., Koenig, R., and Lesemann, D.E. 1981. Characterization of a tobamoviurs isolated from eggplant. Phytopathology 71: 572.
Martelli, G.P., and Hamadi, A. 1986. Occurrence of eggplant mottled dwarf virus in Algeria. Pl. Pathol. 35: 595–597
Masmoudi, K., Duby, C., Suhas, M, Guo, J.Q., Guyot, L., Olivier, V., Taylor, J., and Maury, Y. 1994. Quality control of pea seed for pea seed borne mosaic virus. Seed Sci.Technol. 22: 407–414.
Matsumoto, T., Ohkawa, T., Hasegawa, S., and Inoue, M. 1991. Occurrence of virus disease of pea caused by white clover mosaic virus in Akita Prefecture. Ann. Rep. Soci. pl. Protec. North Japan 42: 48–52.
Monge, M., Arias, O., and Ramirez, P. 1987. Obtencion de plantas de tiquisque blanco (Xanthosoma sagittifolium), de tiquisque morado (Xanthosoma violaceum) y de nampi (Colocasia esculenta) libre de virus por medio del cultivo in vitro de apices. Agron. Costar 11: 71–79.
Morita, K., Arai, K., Doi, Y., and Hora, K. 1974. Necrotic leaf spot, a new virus disease of eggplant caused by broad bean wilt virus. Ann. Phytopathol. Soci. Japan 40: 288–294.
Moury, B., Palloix, A., Selassie, K.G., and Marchoux, G. 1997. Hypersensitive resistance to tomato spotted wilt virus in three Capsicum chinense accessions is controlled by a single gene and is overcome by virulent strains. Euphytica 94: 45–52.
Murant, A.F., Robinson, D.J., Taliansky, M.E., deZoeten, G.A., Falk, B.W., Gibbs, M.J., Pietersen, G., and Waterhouse, P.M. 2000. Family Luteoviridae. In: Virus Taxonmy. Van Regenmortel et al. (eds), Academic Press, San Diego. pp. 775–790.
Musa, A.M., and Lockhart, B. 1990. Occurrence of eggplant mottled dwarf virus in Jordan. J. PhytoPathol. 128: 283–287.
Musil, M., and Kowalska, C. 1993. Transmission of three isolates of broad bean stain virus through seeds of some pea cultivars of the Czechoslovak and Polish assortment. Ochrana Rostlin 29: 17–21.
Musil, M., Leskova, O., and Rapi, J. 1981. Effects of some factors on the transmission of the pea leaf roll mosaic virus by seed. Biologia Czechoslovkia 36: 889–896.
Nagai, Y., Choi, Y.M., and Tochihara, H. 1987. TMV-U, a new strain of tobacco mosaic virus isolated from sweet pepper. Ann. Phytopathol. Soci. Japan 53: 540–543.
Naqvi, Q.A., and Mahmood, K. 1976. Studies on brinjal mild mosaic virus. Indian Phytopath. 29: 138–142.
Natsuaki, T., Wang, W.Q., and Okuda, S. 1994. Characterization of chrysanthemum mild mottle virus isolates from sweet pepper (Capsicum annuum) and petunia (Petunia X hybrida). Bull. College Agr. Utsunomiya Univ. 15: 11–19.
Ndunguru, J., and Kapooria, R.G. 1999. Identification and incidence of virus diseases of Capsicum annuum in the Lusaka Province of Zambia. Bull. OEPP 29: 183–189.
Nono-Womdim, R., Gebre-Selassie, K., Palloix, A., Pochard, E., and Marchoux, G. 1993a. Study of multiplication of cucumber mosaic virus in susceptible and resistant Capsicum annuum lines. Ann. appl. Biol. 122: 49–56.
Ohashi, M., and Kamiunten, H. 1994. Mosaic disease of grain amaranth (Amaranthus hypochondriacus L.) caused by cucumber mosaic virus (CMV). Ann. Phytopathol. Soci. Japan 60: 119–121.
Padgett, G.B., Nutter, F.W. Jr., Kuhn, C.W., and All, J.N. 1990. Quantification of disease resistance that reduces the rate of tobacco etch virus epidemics in bell pepper. Phytopathology 80: 451–455.
Pares, R.D., and Gunn, L.V. 1989. The role of non-vectored soil transmission as a primary source of infection by pepper mild mottle and cucumber mosaic viruses in glasshousegrown Capsicum in Australia. J. PhytoPathol. 126: 353–360.
Pategas, K.G., Schuerger, A.C., and Wetter, C. 1989. Management of tomato mosaic virus in hydroponically grown pepper (Capsicum annuum). Plant Dis. 73: 570–573.
Phatak, H.S. 1965. Mosaic disease of amaranthus-A new record for India. Current Sci. 34: 645–646
Pozzer, L., Bezerra, I.C., Kormelink, R., Prins, M., Peters, D., Resende, R.de.O., and Avilla, A.C.de. 1999. Characterization of a tospovirus isolate of iris yellow spot virus associated with a disease in onion fields in Brazil. Plant Dis. 83: 345–350.
Provvidenti, R., and Granett, A.L. 1976. Occurrence of plantago mottle virus in pea, Pisum sativum, in New York State. Ann. appl. Biol. 82: 85–89.
Provvidenti, R., and Niblett, C.L. 1994. Inheritance of resistance to a strain of passionfruit woodiness virus in pea (Pisum sativum L.). Hort. Sci. 29: 901–902.
Pun, K.B., Sabitha-Doraiswamy, Jeyarajan, R, Doraiswamy S,. 2000. Screening of virus inhibitory chemicals and neem products against okra yellow vein mosaic virus. Indian Phytopath. 53: 95–96.
Rafie, A., Diaz, J., and McLeod, P. 1999. Effects of forage groundnut in reducing the sweetpotato whitefly and associated gemini virus disease in bell pepper in Honduras. Tropical Agr. 76: 208–211.
Ragozzino, A., and Angelaccio, C. 1981. Browning of Capsicum annuum fruits and stems caused by a strain of tomato mosaic virus. Phytopath. Mediterranea 20: 51–55.
Raj, S.K., Amin-ud-din, Aslam, M., and Singh, B.P. 1991. Elimination of eggplant mottled crinkle virus using virazole in explant cultures of Solanum melongena L. Indian J. Exp. Biology 29: 594–595.
Raj, S.K., Aminuddin, Singh, B.P., and Pal, M. 1997. Characterization of a cucumber mosaic virus isolate causing leaf crinkle and severe mosaic of Amaranthus in India. Canadian J. Pl. Pathol. 19: 97–100.
Rajagopalan, K. 1974. First record of spider mite Tetranychus ludeni Zacher transmitting dolichos enation mosaic virus. Current Sci. 43: 488–489.
Rao, G.P., Singh, M., Shukla, K., and Gupta, S.N. 1995. A new strain of cucumber mosaic virus causing mosaic disease of pea (Pisum sativum L.) in India. Indian J. Virology 11: 43–48.
Reina, J., Morilla, G., and Bejarano, E.R. 1999. First report of Capsicum annuum plants infected by tomato yellow leaf curl virus. Plant Dis. 83: 1176.
Sakata, Y., Chen, Y., Chen, H., Zhao, J., and Xu, Q. 1997. Identification of strains of tobacco mosaic virus (TMV) isolated from Capsicum in southcentral China. J. Japanese Soci. Hort. Sci. 66: 99–104.
Sako, I., Takami, T., Nakasone, W., Osaki, T., and Inouye, T. 1994. Occurrence of garlic latent virus and onion yellow dwarf virus in seedless Welsh onion (cv. Bozushirazu) and influence of virus reinfection on their yield. Proc. KansaiPl. Protec. Soci. 36: 21–27.
Sandhu, K.S., and Chohan, J.S. 1979. Studies on the characterization of a mottle disease of chilli (Capsicum annuum) in the Punjab. Indian J. Mycol. Pl. Pathol. 9: 177–182.
Sastry, K.S., and Nayudu, M.V. 1976. Ringspot symptoms of eggplant, incited by tobacco ring spot virus. Phytopath. Mediterranea 15: 60–62.
Schuerger, A.C., and Hammer, W. 1995. Effects of temperature on disease development of tomato mosaic virus in Capsicum annuum in hydroponic systems. Plant Dis. 79: 880–885.
Shahraeen, N., Bananej, K., Ahoonmanesh, A., and Lesemann, D.E. 1998. Identification of three elongated viruses from Allium species (onion and garlic) in Tehran province. Iranian J. Pl. Pathol. 34: 117–118.
Sharma, O.P., Sharma, P.P., and Chowfla, S.C. 1989. Inheritance of resistance to potato virus Y in garden pepper (Capsicum annuum L.). Euphytica 42: 31–33.
Shaw, D.E., Plumb, R.T., and Jackson, G.V.H. 1979. Virus diseases of taro (Colocasia esculenta) and Xanthosoma sp. in Papua New Guinea. Papua New Guinea Agric. J. 30: 71–97.
Silveira-Junior, W.G., Avilla, A.C., and Munoz, J.O. 1985. Chayote (Sechium edule Sw), a new host of tomato spotted wilt (vira-cabeca) virus. Fitopatol. Bras. 10: 661–665.
Singh, S., Varma, A., Chenulu, V.V., and Verma, V.S. 1972. Pigweed mosaic virus. Phytopath. Z. 75: 82–85.
Surendran, M., Shanmugam, V., Kamalakannan, A., and Srinivasan, R. 2000. Transmission studies of brinjal mosaic virus. Intern. J. Tropical Agr. 18: 123–131.
Taiwo, M.A. 1988. Studies on a virus disease of Amaranthus hybridus L. in Nigeria. Intern. J. Tropical Plant Dis. 6: 195–200.
Takeuchi, S., Kawaike, N., and Kawada, Y. 1998. Control of cucumber mosaic virus by application of attenuated strain in open fields of green pepper (Capsicum annuum L.). Bull. KochiAgril. Res. Center 7: 1–9.
Thottappilly, G. 1969. Investigations on leaf-roll virus of pea and its vectors. I. Transmission tests with different species of aphids that had developed on pea plants infected with the virus. Phytopathol. Z. 64: 327–337.
Tian, W.H., and Zhang, S.P. 1995. Identification of tobacco rattle virus on sweet pepper. J. Hebei Agril. University 18(4): 32–35.
Uhde, K., Koenig, R., and Lesemann, D.E. 1998. An onion isolate of tobacco rattle virus: reactivity with an antiserum to hypochoeris mosaic virus, a putative furovirus, and molecular analysis of its RNA 2. Arch. Virol. 143: 1041–1053.
Van Dijk, P., Verbeek, M., and Bos, L. 1991. Mite-borne virus isolates from cultivated Allium species, and their classification into two new rymoviruses in the family Potyviridae. Neth. J. Pl. Pathol. 97: 381–399.
Varma, A. 1970. Red clover vein mosaic virus. CMI/AAB Descr. Pl. Viruses No. 22 p. 4.
Varma, A. 1993. Integrated management of plant viral diseases. In: Crop Protection and Sustainable Agriculture (CIBA Foundation Symposium 177). D. J. Chadwick and J. Marsh (eds). Chichester, John Wiley & Sons. pp. 140–157.
Varma, A., and Malathi, V.G. 2003. Emerging geminivirus problems: A serious threat to crop production. Ann. appl. Biol. 142: 145–164.
Varma, A., Khetarpal, R.K., Vishwanath, S.M., Dhirendra, K., Maury, Y., Sharma, B., Tyagi, M.C., and Kumar, D. 1991. Detection of pea seed-borne mosaic virus in commercial seeds of pea, and germplasm of pea and lentil. Indian Phytopath. 44: 107–111.
Varma, P.M. 1952. Studies on the relationship of the Bhendi yellow-vein mosaic virus and its vector, the white-fly (Bemisia tabaci Gen.). Indian J. Agric. Sci. 22: 75–91.
Vlugt, R.A.A.-van-der, Steffens, P., Cuperus, C., Barg, E., Lesemann, D.E., Bos, L. and Vetten, H.J. 1999. Further evidence that shallot yellow stripe virus (SYSV) is a distinct potyvirus and reidentification of Welsh onion yellow stripe virus as a SYSV strain. Phytopathology 89: 148–155.
Vyanjane, N.T., and Mali, V.R. 1981. Occurrence of alfalfa mosaic virus on brinjal in India. Indian Phytopath. 34: 164–168.
Wang, D.W., MacFarlane, S.A., and Maule, A.J. 1997. Viral determinants of pea early browning virus seed transmission in pea. Virology 234: 112–117.
Wetter, C., Dore, I., and Bernard, M. 1987. Bell pepper mottle virus, a distinct tobamovirus infecting pepper. J. PhytoPathol. 119: 333–344.
Xu, Z.G., Cockbain, A.J., Woods, R.D., and Govier, D.A. 1988. The serological relationships and some other properties of isolates of broad bean wilt virus from faba bean and pea in China. Ann. appl. Biol. 113: 287–296.
Yonaha, T, Toyosato, T., Kawano, S., and Osaki, T. 1995. Pepper vein yellows virus, a novel luteovirus from bell pepper plants in Japan. Ann. Phytopathol. Soci. Japan 61: 178–184.
Yu, J., Gu, W.K., Provvidenti, R., and Weeden, N.F. 1995. Identifying and mapping two DNA markers linked to the gene conferring resistance to pea enation mosaic virus. J. American Soci. Hort. Sci. 120: 730–733.
Zettler, F.W., Foxe, M.J., Hartman, R.D., Edwardson, R.D., and Christie, R.G. 1970. Filamentous viruses infecting dasheen and other araceous plants. Phytopathology 60: 983–987.
Zettler, F.W., and Hartman, R.D. 1980. Evaluation of dieffenbachia maculata ‘perfection’ plants free of Dasheen mosaic virus. Acta Hort. 110: 259.
Zhou, G.Y., and Chen, Y.X. 1990. Identification of staple viruses of Dolichos in Nanjing. Chinese J. Virology 6: 233–238.
Zhou, X.P., Liu, Y.L., Robinson, D.J., and Harrison, B.D. 1998. Four DNA-A variants among Pakistani isolates of cotton leaf curl virus and their affinities to DNA-A of geminivirus isolates from okra. J. Gen. Virology 79: 915–923.
Zimmer, R.C., and Lamb, R.J. 1993. Amplification and spread of pea seed-borne mosaic virus in field-grown peas. Canadian J. Pl. Pathol. 15: 17–22.
Author information
Authors and Affiliations
Editor information
Editors and Affiliations
Rights and permissions
Copyright information
© 2003 Springer Science+Business Media Dordrecht
About this chapter
Cite this chapter
Varma, A., Mandal, B. (2003). Other vegetables. In: Loebenstein, G., Thottappilly, G. (eds) Virus and Virus-like Diseases of Major Crops in Developing Countries. Springer, Dordrecht. https://doi.org/10.1007/978-94-007-0791-7_27
Download citation
DOI: https://doi.org/10.1007/978-94-007-0791-7_27
Publisher Name: Springer, Dordrecht
Print ISBN: 978-94-010-3729-7
Online ISBN: 978-94-007-0791-7
eBook Packages: Springer Book Archive