The Economic Impact of Filamentous Plant Viruses

Milne, Robert G.; Mink, Gaylord I.; Salazar, Luis F.; Lecoq, Hervé; Lot, Hervé; Kleinhempel, Helmut; Kegler, Hartmut; Martelli, Giovanni P.; Cook, Allyn A.; Varma, Anupam; Fauquet, Claude; Von Wechmar, M. Barbara; Chiu, Wei Fan; Inouye, Tadao; Iizuka, Norio; Kameya-Iwaki, Mitsuro; McLean, George D.; Mossop, Don W.

doi:10.1007/978-1-4684-7038-3_11

The Economic Impact of Filamentous Plant Viruses

Robert G. Milne⁴,
Gaylord I. Mink⁵,
Luis F. Salazar⁶,
Hervé Lecoq⁷,
Hervé Lot⁷,
Helmut Kleinhempel⁸,
Hartmut Kegler⁸,
Giovanni P. Martelli⁹,
Allyn A. Cook¹⁰,
Anupam Varma¹¹,
Claude Fauquet¹²,
M. Barbara Von Wechmar¹³,
Wei Fan Chiu¹⁴,
Tadao Inouye¹⁵,
Norio Iizuka¹⁶,
Mitsuro Kameya-Iwaki¹⁷,
George D. McLean^18,19 &
…
Don W. Mossop²⁰

Chapter

122 Accesses
6 Citations
1 Altmetric

Part of the book series: The Viruses ((VIRS))

Abstract

An attempt has here been made to picture the global effects of filamentous viruses by asking authorities in different world regions to assemble a hit parade of their 10 favorite viruses—favorite in the sense that a true pathologist always relishes a good, destructive disease.

This is a preview of subscription content, log in via an institution.

Chapter: USD 29.95; Price excludes VAT (USA)

eBook: USD 84.99; Price excludes VAT (USA)

Softcover Book: USD 109.99; Price excludes VAT (USA)

Tax calculation will be finalised at checkout

Purchases are for personal use only

Learn about institutional subscriptions

Preview

Unable to display preview. Download preview PDF.

References

Barnett, O. W., 1986, Surveying for plant viruses: Design and considerations, in: Plant Virus Epidemics: Monitoring, Modeling and Predicting Outbreaksv (G. D. McLean, R. G. Garrett, and W. G. Ruesink, eds.(, pp. 147–166, Academic Press, Sydney.
Google Scholar
Tomlinson, J. A., 1987, Epidemiology and control of virus diseases of vegetables, Ann. Appl. Biol 110: 661.
Article Google Scholar
Aapola, A. A., and Mink, G. I., 1973, Potential aphid vectors of pea seedbome mosaic virus in Washington, Plant Dis. Rep 57: 522.
Google Scholar
Bar-Joseph, M., Gamsey, S. M., Gonsalves, D., Moscovitz, M., Purcifull, D. E., Clark, M. F., and Loebenstein, G., 1979, The use of enzyme-linked immunosorbent assay for the detection of citrus tristeza virus, Phytopathology 69: 190.
Article Google Scholar
Brakke, M. K., 1971, Wheat streak mosaic virus, CMI/AAB Descriptions of Plant Viruses No. 48.
Google Scholar
Calavan, E. E., Harjung, M. K., Blue, R. L., Roistacher, C. N., Gumpf, D. J., and Moore, P. W., 1980, Natural spread of seedling yellows and sweet orange and grapefruit stem pitting tristeza viruses at the University of California, Riverside, in: Proc. 8th Conf. Int. Organization Citrus Virol., Sydney ( E. C. Calavan, S. M. Gamsey, and L. W. Timmer, eds.), pp. 69–75, IOCV, Riverside, CA.
Google Scholar
Chen, L.-C., Durand, D. F., and Hill, J. H., 1982, Detection of pathogenic strains of soybean mosaic virus by enzyme-linked immunosorbent assay with polystyrene plates and beads as the solid phase, Phytopathology 72: 1177.
Article Google Scholar
Demski, J. W., and Jellum, M. D., 1975, Single and double virus infection of soybeans: Plant characteristics and chemical composition, Phytopathology 75: 1154.
Article Google Scholar
Demski, J. W., and Lovell, G. R., 1985, Peanut stripe virus and the distribution of peanut seed, Plant Dis. 69: 734.
Article Google Scholar
Diaco, R., Hill, J. H., Hill, E. K., Tochibana, H., and Durand, D. P., 1985, Monoclonal antibody-based biotin-avidin ELISA for the detection of soybean mosaic virus in soybean seeds, J. Gen. Virol 66: 2089.
Article CAS Google Scholar
Drijfhout, E., Silbernagel, M. J., and Burke, D. W., 1978, Differentiation of strains of bean common mosaic virus, Neth. J. Plant Pathol 84: 12.
Article Google Scholar
Falk, B. W., and Echenique, G., 1983, Use of the enzyme-linked immunosorbent assay in Florida's lettuce mosaic virus-free seed indexing program, Proc. Fla. State Hort. Soc 96: 63.
Google Scholar
Gordon, D. T., Bradfute, O. E., Gingery, R. E., Knoke, J. K., Louie, R., Nault, L. R., and Scott, G. E., 1981, Introduction: History, geographic distribution, pathogen characteristics and economic importance, in: Virus and Viruslike Diseases of Maize in the United States (D. T. Gordon, J. K. Knoke, and G. E. Scott, eds.), Southern Cooperative Series Bull. 247, pp. 1–12.
Google Scholar
Grogan, R. G., 1980, Control of lettuce masaic with virus-free seed, Plant Dis. 64: 446.
Article Google Scholar
Hampton, R. O., and Braverman, W. W., 1979, Occurance of pea seed—borne mosaic virus in North American pea breeding lines, and new virus-immune germplasm in the plant introduction collection of Pisum sativum, Plant Dis. Rep 79: 631.
Google Scholar
Hampton, R. O., Mink, G I, Hamilton, R. I., Draft, J. M., and Meuhlbauer, F. J., 1976, Occurrence of pea seedbome mosaic virus in North American pea breeding lines, and procedures for its elimination, Plant Dis. Rep 60: 455.
Google Scholar
Hill, J. H., Lucas, B. S., Benner, H. I., Tochibana, H., Hammond, R. B., and Pedigo, L. P., 1980, Factors associated with the epidemiology of soybean mosaic in Iowa, Phytopathology 70: 536.
Article Google Scholar
Kennedy, B. W., and Cooper, R. L., 1967, Association of virus infection with mottling of soybean seed coats, Phytopathology 57: 35.
Google Scholar
Kuhn, C. W., and Demski, J. W., 1975, The relationship of peanut mottle virus to peanut production, Research Report 213, 19 pp., Georgia Agric. Exp. Station, Athens, GA.
Google Scholar
Lamey, H. A., and Timian, R. G., 1979, Wheat streak mosaic, North Dakota State Univ. Coop. Ext. Serv. Circ., 640 pp.
Google Scholar
Lister, R. M., 1978, Application of enzyme-linked immunosorbent assay for detecting viruses in soybean seeds and plants, Phytopathology 68: 1393.
Article Google Scholar
Mink, G. I., 1981, Control of plant diseases using disease-free stocks, in: Handbook of Pest Management in Agriculture, Vol. I ( D. Pimental, ed.), pp. 327–346, CRC Press, Boca Raton, FL.
Google Scholar
Mink, G. I., and Parsons, J. L., 1978, Detection of pea seedbome mosaic virus in pea seed by direct assay, Plant Dis. Rep 62: 249.
Google Scholar
Mink, G. I., Kraft, J., Knesek, J., and Jafri, A., 1969, A seed-borne virus of peas, Phytopathology 59: 1342.
Google Scholar
Mink, G. I., Inouye, T., Hampton, R. O., and Knesek, J. E., 1974, Relationships among isolates of pea seed—borne mosaic virus from the United States and Japan, Phytopathology 64: 569.
Article Google Scholar
Pfannenstiel, M. A., and Niblett, C. L., 1978, The nature of the resistance of agroticums to wheat streak mosaic virus, Phytopathology 68: 1204.
Article Google Scholar
Provvidenti, R., Silbernagel, M. J., and Wang, W.-Y., 1984, Local epidemic of NL-8 strain of bean common mosaic virus in bean fields in western New York, Plant Dis. 68: 1092.
Google Scholar
Roistacher, C. N., 1976, Tristeza in the central valley: A warning, Calif. Citrogro 62: 15.
Google Scholar
Ross, J. P., 1977, Effect of aphid-transmitted soybean mosaic virus on yields of closely related resistant and susceptible soybean lines, Crop Sci. 17: 869.
Article Google Scholar
Shahwan, J. M., and Hill, J. P., 1984, Identification and occurrence of wheat streak mosaic virus in winter wheat in Colorado and its effect on several wheat cultivars, Plant Dis. 68: 579.
Google Scholar
Shepard, J. F., and Claflin, L.E., 1975, Critical analysis of the principles of seed potato certification, Annu. Rev. Phytopathol 13: 271.
Article Google Scholar
Silbernagel, M. J., Mills, L. J., and Wang, W.-Y., 1986, Tanzanian strain of bean common mosaic virus, Plant Dis. 70: 839.
Article Google Scholar
Somsen, H. W., and Sill, W. H. Jr., 1970, The wheat curl mite, Aceria tulipae Keifer, in relation to epidemiology and control of wheat streak mosaic, Kan. Agric. Exp. Sta. Res. Publ 162, 4 pp.
Google Scholar
Stewart, V. P., and Reddeck, D., 1917, Bean mosaic, Phytopathology 7: 61.
Google Scholar
Tu, J. C., Ford, R. E., and Quinones, S. S., 1970, Effects of soybean mosaic and/or bean pod mottle virus infection on soybean nodulation, Phytopathology 60: 518.
Article Google Scholar
Almeida, A. M. R., 1983, Distribucao e prevalencia de estirpes do virus do mosaico comun da soja no estado de Parana, Fitopatol. Brasil 8: 349.
Google Scholar
Almeida, A. M. R., and Silveira, J. M., 1983, Efeito da idade de inoculacao de plantas de soja e de percentagem de plantas infectadas sobre o rendimiento e algumas caracteristicas economicas, Fitopatol. Brasil 8: 229.
Google Scholar
Alvarez, A. M., and Ziver, M. A., 1965, El strain N.Y.15 del mosaico comun del frijol en Chile, Agric. Technica (Chile) 25: 171.
Google Scholar
Anjos, J. R. N., Lin, M. T., and Kitajima, E. W., 1985, Caracterizacao de um isolado do virus do mosaico da soja, Fitopatol. Brasil 10: 143.
Google Scholar
Avila, A. C., Vecchia, P. T., Lin, M. T., De Oliveira, L. O. B., and De Araujo, J. P., 1984, Identificacao do virus de mosaico da melancia en melao (Cucumis melo) e melancia (Citrullus lanatus) na regiao do submedio San Francisco, Fitopatol. Brasil 9: 113.
Google Scholar
Barbosa, F. R., and Paguio, O. R., 1982, Virus da mancha anellar do mamoeiro: Incidence e efeito na producao do mamoeiro (Carica papaya L ), Fitopatol. Brasil 7: 365.
Google Scholar
Bennett, C. W., and Costa, A. S., 1949, Tristeza disease of citrus, J. Agric. Res 78: 207.
Google Scholar
Brown, C. R., Salazar, L. F., Ochoa, C., and Chuquillanqui, C., 1984, Strain-specific immunity to PVX-HB is controlled by a single dominant gene, Abstr. 9th Trienn. Conf. of EAPR, Interlaken, July 1984, p. 249.
Google Scholar
CIP (Centro Intemacional de la Pap), 1984, Annual Report, Thrust IV: Potato Virus Research, CIP, Lima, Peru, p. 63.
Google Scholar
Costa, A. S., and Kitajima, E. W., 1977, Virus problems of crop plants in Brazil: Past and present, Trop. Agric. Res. Ctr. Japan, Ser. 10: 73.
Google Scholar
Costa, A. S., and Muller, G. W., 1982, General evaluation of the impacts of virus deseases of economic crops on the development of Latin American countries, Proc. Con f. on the Impact of Virus Diseases on the Development of Latin American and Caribbean Countries, Rio de Janeiro, 1982.
Google Scholar
Costa, A. S., Kitajima, E. W., Miyasaka, S., and Almeida, L. D., 1971, Molestias de frijoeiro causadas por virus, in: Annais do 1“ Simposio Brasileiro de Feijao, Campinas, Brazil, pp. 342–384.
Google Scholar
Debrot, E. A., Lastra, R., and Ladera, P., 1982, Deteccion de un nuevo potyvirus atacando al pimenton (Capsicum annuum L) en Venezuela, Agron. Trop 30 (1/6): 85.
Google Scholar
Delhey, R., 1981, Incidencia de los virus S y M en los cultivos de papa en la Argentina, Fitopatologia 16: 1.
Google Scholar
Dongo, S., and Sotomayor, C. A., 1964, Identificacion de virus de frijol, Serv. Inv. Prom. Agrop. Peru. Inf. Especial., No. 9, 11.
Google Scholar
Escaff, G. M., and Urbina de Vidal, U., 1977, Identificacion del virus del enanismo de la cebolla (“onion yellow dwarf virus”) en Chile, Agric, Tec. 37: 174.
Google Scholar
Feldman, J. M., and Gracia, O., 1977, Pepper severe mosaic virus: A new potyvirus from pepper in Argentina, Phytopathol. Z 89: 146.
Article Google Scholar
Fernandez-Northcote, E. N., and Fulton, R. W., 1980, Detection and characterization of Peru tomato virus strains infecting pepper and tomato in Peru, Phytopathology 70: 315.
Article Google Scholar
Fernandez-Valiela, M. V., 1969, Introduccion a la Fitopatologia, Virus Col, Cient. INTA, Buenos Aires.
Google Scholar
Fribourg, C. E., 1975, Studies of potato virus X strains isolated from Peruvian potatoes, Potato Res. 18: 216.
Article Google Scholar
Fribourg, C. E., 1979, Host plant reactions, some properties and serology of Peru tomato virus, Phytopathology 69: 441.
Article Google Scholar
Fribourg, C. E., and Nakashima, J., 1984, Characterization of a new potyvirus from potato, Phytopathology 74: 1363.
Article Google Scholar
Gamez, R., 1977, Las enfermedades virales como factores limitantes en la produccion de frijol (Phaseolus vulgaris) en America Latina, Fitopatologia 12: 24.
Google Scholar
Gillaspie, A. G. Jr., and Mock, R. G., 1979, Recent survey of sugarcane mosaic virus strains from Columbia, Egypt and Japan, Sugarcane Pathol. Newsl 22: 21.
Google Scholar
Ksiazek, D., 1984, Experiments of spreading of potato viruses M, S, X in the industrial region of Poland, Zeszyty Problemowe Postepow Nank Rolniczych 1984: 205.
Google Scholar
Laguna, I. G., and Giorda, L. M., 1980, El virus del mosaico de la soja (Glycine max (L.) Merr.) en Argentina, RIA Ser. Patol. Veg 15: 513.
Google Scholar
Lasa, C. I., and Francis, M., 1983, Evolucion de los estudios en virologia vegetal en el Uruguay, Invest. Agron 4: 10.
Google Scholar
Latorre, B. A., Flores, V., and Marholz, G., 1984, Effect of potato virus Y on growth, yield and chemical composition of flue-cured tobacco in Chile, Plant Dis. 68: 884.
Google Scholar
Moreyra, A., Jones, R. A. C., and Fribourg, C. E., 1980, Properties of a resistance-breaking strain of potato virus X, Ann. Appl. Biol 95: 93.
Article Google Scholar
Muller, G. W., and Costa, A. S., 1977, Tristeza control in Brazil by preimmunization with mild strains, Proc. Int. Soc. Citric 3: 868.
Google Scholar
Nolla, J. A. B., and Valida, M. V. F., 1976, Contributions to the history of plant pathology in South America, Central America and Mexico, Annu. Rev. Phytopathol 14: 11.
Article Google Scholar
Nome, F. S., and Docampo, D., 1969, Estria negra del tomato, nueva enfermedad para Chile, Univ. Chile Est. Exp. Agric. Bol. Tec. No. 29, p. 27.
Google Scholar
Plaza, G., Lastra, R., and Martinex, J. E., 1984, Incidencia del virus de la tristeza de los citricos en Venezuela, Turrialba 34: 125.
Google Scholar
Ramallo, J. C., and D’Elia de Diaz, E. B., and Whet, S., 1978, Solanum chacoense Itt. y S. nigrum L. malezas portadores de los virus “X” e “Y” de la papa, Revta. Agron. del N. O. Argentino 15: 175.
Google Scholar
Raymer, W. B., Kahn, R. P., Hikida, H. R., and Waterworth, H. E., 1972, A new tomato virus from Peru, Phytopathology 62: 784 (abstract).
Google Scholar
Santos, A. A. dos, Lin, M. T., and Kitajima, E. W., 1984, Caracterizacao de dois potyvirus isolados de caupt (Vigna unguiculata) no estado do Piaui, Fitopatol. Brasil 9: 567.
Google Scholar
Schwartz, H. F., and Galvez, G. E., 1980, Bean Production Problems. Disease, Insect, Soil and Climatic Constraints of Phaseolus vulgaris, Centro Intemacional de Agricultura Tropical, Colombia.
Google Scholar
Timmer, L. W., Scorza, R., and Lee, R. F., 1981, Incidence of tristeza and other citrus diseases in Bolivia, Plant Dis. 65: 515.
Article Google Scholar
Trujillo, G. E., 1975, Virus deseases of beans in Venezuela, in: Bean Improvement Cooperative, Annual Report No. 18.
Google Scholar
Vallega, J., and Chiarappa, L., 1964, Plant disease losses as they occur worldwide, Phytopathology 54: 1305.
Google Scholar
Vincente, M., Chagas, C. M., and July, J. R., 1979, Tres solanaceas de vegetacao espontanea como hospedeiras naturais de virus, Fitopatol. Brasil 4: 73.
Google Scholar
Von der Pahlen, A., 1962, El mosaico amarillo del poroto, Phaseolus vulgaris (Pierce) Smith en cultivos de haba, arveja y poroto en los alrededores de Buenos Aires, Rev. Inv. Agric. 16: 87.
Google Scholar
Von der Pahlen, A., and Nagai, Y. H., 1973, Resistencia del pimiento (Capsicum spp.) a estirpes predominantes del virus Y de la papa en Buenos Aires, el N.O. Argentino y en el centro-sur del Brasil, Rev. Inv. Agropec., Ser. 5. Patol, Veg. 10: 109.
Google Scholar
Wellman, F. L., 1972, Tropical American Plant Diseases, Scarecrow, Metuchen, NJ.
Google Scholar
Adams, M. J., 1985, Barley yellow mosaic virus, Rothamsted Experimental Station Rept. for 1984, Part 1, p. 130.
Google Scholar
Anonymous, 1983, Plum pox virus, European and Mediterranean Plant Protection Organization Data Sheets on Quarantine Organisms, set 6, EPPO Bull. 13 (1): 1.
Article Google Scholar
Beczner, L., Maat, D. Z., and Bos, L., 1976, The relationships between pea necrosis virus and bean yellow mosaic virus, Neth. J. Plant Pathol 82: 41.
Article Google Scholar
Bercks, R., 1970, Potato virus X, CMI/AAB Descriptions of Plant Viruses No. 4.
Google Scholar
Bos, L., 1970, Bean yellow mosaic virus, CMI/AAB Descriptions of Plant Viruses No. 40. Conti, M., Luisoni, E., and Giunchedi, L., 1985, La sharka delle drupacee, Ital. Agric 122 (2): 183.
Google Scholar
Cook, A. A., and Anderson, C. W., 1960, Inheritance of resistance to potato virus Y derived from strains of Capsicum annuum, Phytopathology 50: 73.
Google Scholar
De Bokx, J. A., 1972, Spread of potato virus S, Potato Res. 15: 67.
Article Google Scholar
De Bokx, J. A., and Huttinga, H., 1981, Potato virus Y, CMI/AAB Descriptions of Plant Viruses No. 242.
Google Scholar
Dixon, G. R., 1981, Vegetable Crop Diseases, Macmillan, London.
Google Scholar
Ehlers, U., and Paul, H. L., 1986, Characterization of the coat proteins of different types of barley yellow mosaic virus by polyacrylamide gel electrophoresis and electro-blot immunoassay, J. Phytopathol. 115: 294.
CAS Google Scholar
Gooding, G. B., and Kennedy, G. G., 1985, Resistance in tobacco breeding line NC 744 to potato virus Y and inoculation by aphids, Plant Dis. 69: 396.
Article Google Scholar
Grüntzig, M., and Fuchs, E., 1986, Untersuchungen zur Differenzierung von Stämmen des Scharka-Virus (plum pox virus, PPV), Z. Pflanzenkrank. Pflanzenschutz 93: 19.
Google Scholar
Hammond, J., Derks, A. F. L. M., Bamett, O. W., Lawson, R. H., Brunt, A. A., Inouye, N., and Allen, T. C., 1985, Viruses infecting bulbous iris: A clarification of nomenclature, Acta Hort. 164: 395.
Google Scholar
Harrington, R., Katis, N., and Gibson, R. W., 1986, Field assessment of the relative importance of different aphid species in the transmission of potato virus Y, Potato Res. 29: 67.
Article Google Scholar
Hebert, T. T., and Panizo, C. H., 1975, Oat mosaic virus, CMI/AAB Descriptions of Plant Viruses No. 145.
Google Scholar
Huth, W., 1982, Evaluation of sources of resistance to barley yellow mosaic virus in winter barley, J. Plant Breeding 89: 158.
Google Scholar
Huth, W., Lesemann, D. E., and Paul, H. L., 1984, Barley yellow mosaic virus: Purification, electron microscopy, serology, and other properties of two types of the virus, Phytopathol. Z 111: 37.
Article Google Scholar
Inouye, T., and Saito, Y., 1975, Barley yellow mosaic virus, CMI/AAB Descriptions of Plant Viruses No. 143.
Google Scholar
Jones, R. A. C., 1982, Breakdown of potato virus X resistance gene Nx: Selection of a group four strain from strain group three, Plant Pathol. 31: 325.
Article Google Scholar
Kegler, H., and Schade, C., 1971, Plum pox virus, CMI/AAB Descriptions of Plant Viruses No. 70.
Google Scholar
Kegler, H., Bauer, E., Grüntzig, 1., Fuchs, E., Verderevskaja, T. D., and Bivol, T. F., 1986, Nachweis unterschiedlicher Resistenztypen bei Pflaumen gegen das Scharka-Virus (plum pox virus), Arch. Phythopathol. Pflanzenschutz 21: 339.
Google Scholar
Kerlan, C., and Dunez, J., 1979, Différenciation biologique et sérologique de souches du virus de la sharka, Ann. Phytopathol 11: 241.
Google Scholar
Lapierre, H., and Hariri, D., 1985, Céréales: Les virus transmis par le sol, Phytoma Défense Cultures 368: 24.
Google Scholar
Lecoq, H., and Pitrat, M., 1983, Field experiments on the integrated control of aphid-borne viruses in muskmelon, in: Plant Virus Epidemiology ( J. M. Thresh and R. Plumb, eds.), pp. 169–176, Blackwell Scientific Publications, Oxford, U.K.
Google Scholar
Lisa, V., and Lecoq, H., Zucchini yellow mosaic virus, CMI/AAB Descriptions of Plant Viruses No. 282.
Google Scholar
Lot, H., and Maury-Chovelon, V., 1985, New data on two major virus diseases of lettuce in France: Lettuce mosaic virus and beet western yellows virus, Phytoparasitica 13: 277.
Google Scholar
Marchoux, G., Gebre Selassie, K., and Quiot, J. B., 1976, Observations préliminaires concernant les souches et les plantes réservoirs du virus Y de la pomme de terre dans le sud-est de la France, Agric. Conspect. Sci 39: 541.
Google Scholar
Nienhaus, F., and Stille, B., 1965, Ubertragung des Kartoffel-X-Virus durch Zoosporen von Synchytrium endobioticum, Phytopathol. Z 54: 335.
Article Google Scholar
Pemberton, A. W., 1978, Plum pox (sharka disease), Ministry of Agriculture, Fisheries and Food advisory leaflet 611, MAFF Publications, Pinner, Middlesex, U.K.
Google Scholar
Phatak, H. G., 1974, Seed borne plant viruses: Identification and diagnosis in seed health testing, Seed Sci. Technol 2: 3.
Google Scholar
Pitrat, M., and Lecoq, H., 1984, Inheritance of zucchini yellow mosaic virus resistance in Cucumis melo L, Euphytica 33: 57.
Article Google Scholar
Purcifull, D. E., and Edwardson, J. R., 1981, Potexviruses, in: Handbook of Plant Virus Infections and Comparative Diagnosis ( E. Kurstak, ed.), pp. 627–693, Elsevier/North Holland, Amsterdam
Google Scholar
Raccah, B., 1985, Use of a combination of mineral oils and pyrethroids for control of non-persistent viruses, Phytoparasitica 13: 280.
Google Scholar
Robert, Y., 1978, Rôle épidémiologique probable d’éspèces de pucerons autres que celles de la pomme de terre dans la dissémination intempestive du virus Y depuis 4 ans dans l’ouest de la France, Proc. 7th EAPR Conference, Warsaw, Poland, 1978, p. 242.
Google Scholar
Russell, G. E., 1970, Beet yellows virus, CMI/AAB Descriptions of Plant Viruses No. 13.
Google Scholar
Russell, G. E., 1971, Beet mosaic virus, ClI/AAB Descriptions of Plant Viruses No. 53.
Google Scholar
Russell, G. E., 1978, Plant Breeding for Pest and Disease Resistance, Butterworths, London. Schmidt, H. E., 1982, Virosen an Gemüse-und Körnerhülsenfrüchten in der Deutschen Demokratischen Republik und Möglichkeiten ihrer Bekämpfung, Diss. B Akad. Landw.-Wiss. D.D.R.
Google Scholar
Schmidt, H. E., Rollwitz, W., Schimanski, H.-H., and Kegler, H., 1985, Nachweis von Resistenzgegen gegen das Bohnengelbmosaik-Virus (bean yellow mosaic virus) in Vicia faba L., Arch. Phytopathol. Pflanzenschutz 21: 83.
Article Google Scholar
Slykhuis, J. T., 1976, Wheat spindle streak mosaic virus, CMI/AAB Descriptions of Plant Viruses No. 167.
Google Scholar
Sutic, D., 1971, Etat des récherches sur le virus de la sharka, Ann. Phytopathol. INRA Publ 71: (2): 161.
Google Scholar
Thomas, J. E., 1981, Resistance to potato virus Y in Lycopersicon species, Aust. Plant Pathol 10 (4): 67.
Article Google Scholar
Tomlinson, J. A., 1970, Lettuce mosaic virus, CMI/AAB Descriptions of Plant Viruses No. 9.
Google Scholar
Torrance, L., Larkins, A. P., and Butcher, G. W., 1986, Characterization of monoclonal antibodies against potato virus X and comparison of serotypes with resistance groups, J. Gen. Virol 67: 57.
Article Google Scholar
Van Hoof, H. A., 1980, Aphid vectors of potato virus Y, Neth. J. Plant Pathol. 86:159.
Article Google Scholar
Vértesy, J., 1981, Elimination of plum pox virus from plum (Prunus domestica L) rootstocks by meristem culture, Proc. 9th Conf. Czech Plant Virol, Brno, Czechoslovakia, 1980, p. 197.
Google Scholar
Walkey, D. G. A., limes, N. L., and Miller, A., 1983, Resistance to bean yellow mosaic virus in Phaseolus vulgaris, I. Agric. Sci 100: 643.
Google Scholar
Weidemann, H. L., 1986, Die Ausbreitung der Kartoffel Viren S und M unter Feldbedingungen, Potato Res. 29: 109.
Article Google Scholar
Wetter, C., 1971, Potato virus S, CMI/AAB Descriptions of Plant Viruses No. 60.
Google Scholar
Wetter, C., 1972, Potato virus M, CMI/AAB Descriptions of Plant Viruses No. 87.
Google Scholar
Wiesner, K., 1973, Zur Schädigung der Zuckerrüben durch die Milde Rübenvergilbung, durch die Nekrotische Rübenvergilbung und durch Mischinfektionen beider Viren, Arch. Phytopathol. Pflanzenschutz 9: 151.
CAS Google Scholar
Alper, M., and Loebenstein, G., 1981, Bean yellow mosaic in bulbous irises in Israel, Plant Dis. 65: 694.
Article Google Scholar
Avgelis, A., 1985, Epidemiological studies of zucchini yellow fleck virus in Crete, Phytopathol. Medit 24: 208.
Google Scholar
Bar-Joseph, M., and Loebenstein, G., 1973, Effect of strain, source plant and temperature on transmissibility of citrus tristeza virus by the melon aphid, Phytopathology 63:716.
Article Google Scholar
Bernhard, R., and Marenaud, C., 1975, Le bark split du prunier, Phytoma 75: 10.
Google Scholar
Bos, L., 1970, Bean yellow mosaic virus, CMI/AAB Descriptions of Plant Viruses No. 40.
Google Scholar
Bos, L., 1982, Virus diseases of faba beans, in: Faba Bean Improvement ( G. Hawtin and C. Webb, eds.), pp. 233–242, ICARDA (International Center for Agricultural Research in the Dry Areas) Aleppo, Syria.
Google Scholar
Canizzaro, G., Rosciglione, B., and Russo, M., 1975, Infezioni misti dei virus del mosaico della lattuga e del mosaico del cetriolo su Lactuca spp. in Sicilia, Phytopathol. Medit. 14: 113.
Google Scholar
Catara, A., and Terranova, C., 1985, Virosi degli agrumi, Ital. Agric 122 (2): 53.
Google Scholar
Cohen, S., 1982, Resistance to transmission of aphid-borne nonpersistent viruses. Acta Hort. 127: 117.
Google Scholar
Conti, M., and Marte, M., 1983, Virosi e micoplasmosi del peperone, Ital. Agric 120 (1): 132.
Google Scholar
Conti, M., and Milne, R. G., 1985, Closterovirus associated with leafroll and stem pitting in grapevine, Phytopathol. Medit 24: 110.
Google Scholar
Conti, M., Milne, R. G., Luisoni, E., and Boccardo, G., 1980, A closterovirus from a stem pitting—diseased grapevine, Phytopathology 70: 394.
Article Google Scholar
Conti, M., Luisoni, E., and Giunchedi, L., 1985, La sharka delle drupacee, Ital. Agric. 122(2);183.
Google Scholar
Delbos, R., and Dunez, J., 1988, Apple chlorotic leaf spot, in: European Handbook of Plant Diseases (I. M. Smith et al.,eds.), pp. 5–7, Blackwell Scientific Publications, Oxford, U.K.
Google Scholar
Dunez, J., 1986, Preliminary observations on the presence of virus and virus-like diseases of stone fruits in the Mediterranean and Near East countries, FAO Plant Protec. Bull 34: 43.
Google Scholar
Dunez, J., and Sutic, D., 1988, Plum pox, in: European Handbook of Plant Diseases (I. M. Smith et al, eds.), pp. 44–46, Blackwell Scientific Publications, Oxford„ U.K.
Google Scholar
Engelbrecht, D. J., and Kasdorf, G. G. E., 1985, Association of a closterovirus with grapevines indexing positive for grapevine leafroll disease and evidence for its natural spread in grapevine, Phytopathol. Medit 24: 101.
Google Scholar
Faccioli, G., 1983, Virosi della patata, Ital. Agric 120 (1): 116.
Google Scholar
Fishman, S., Marcus, R., Talpaz, H., Bar-Joseph, M., Oren, Y., Salomon, R., and Zohar, M., 1983, Epidemiological and economic models for spread and control of citrus tristeza virus disease, Phytoparasitica 11: 39.
Article Google Scholar
Foddai, A., Corda, P., and Idini, G., 1983, Influenza del potyvirus latente del carciofo “Spinoso sardo” sulla produttività delle piante in pieno campo. I. Risultati relativi al primo anno d’impianto, Riv. Pat. Veg. S. IV 19: 29.
Google Scholar
Gadh, I. P. S., and Bemier, C. C., 1984, Resistance in faba bean (Vicia faba) to bean yellow mosaic virus, Plant Dis. 62: 109.
Google Scholar
Garau, R., Cugusi, M., Dore, M., and Prota, U., 1985, Investigations on the yield of “Monica” and “Italia” vines affected by legno riccio (stem pitting), Phytopathol. Medit 24: 64.
Google Scholar
Gebre Selassie, K., Marchoux, G., Dellecolle, B., and Pochard, E., 1985, Variabilité naturelle des souches du virus Y de la pomme de terre dans les cultures de piment du sud-est de la France. Caracterisation et classification en pathotypes, Agronomie 5: 621.
Article Google Scholar
Giunchedi, L., and Poggi Pollini, C., 1984, Principali malattie da virus e virus-simili delle drupacee in Italia, Informatore Fitopathol. 34 (3): 75.
Google Scholar
Grogan, R. G., 1980, Control of lettuce mosaic virus with virus-free seed, Plant Dis. 64: 446.
Article Google Scholar
Harbaoui, Y., Samijn, G., Welvaert, W., and Debergh, P., 1982, Assainissement viral de l’artichaut (Cynara scolymus L.) par la culture in vitro d’apex méristématiques, Phytopathol. Medit 21: 15.
Google Scholar
Horvath, J., Juretic, N., Besada, W. H., and Kuroli, G., 1975, Two viruses isolated from patisson (Cucurbita pepo L. var. patissoniana Greb. f. radiata Nois.), a new vegetable natural host in Hungary. I. Watermelon mosaic virus (general), Acta Phytopathol. Acad. Sci. Hung 10: 93.
Google Scholar
Kaiser, W. J., 1973, Biology of bean yellow mosaic and pea leafroll affecting Vicia faba in Iran, Phytopathol. Z 78: 253.
Article Google Scholar
Kyriakopoulou, P. E., 1985, A lethal strain of lettuce mosaic virus in Greece, in: Abstracts, 5th Conf. ISHS—Vegetable Virus Working Group, Bet Dagan, Israel, Sept. 1985, p. 18.
Google Scholar
Lisa, V., Boccardo, G., D’Agostino, G., Dellavalle, G., and D’Aquilio, M., 1981, Characterization of a potyvirus that causes zucchini yellow mosaic, Phytopathology 71: 667.
Article CAS Google Scholar
Lister, R. M., and Bar-Joseph, M., 1981, Closteroviruses, in: Handbook of Plant Virus Infections and Comparative Diagnosis ( E. Kurstak, ed.), pp. 809–846, Elsevier/North Holland, Amsterdam.
Google Scholar
Lockhart, B. E. L., and Fischer, J. U., 1974, Serious losses caused by potato virus Y infections in peppers in Morocco, Plant Dis. Rep 58: 141.
Google Scholar
Lot, H., and Maury-Chovelon, V., 1985, New data about the two major virus diseases of lettuce in France: Lettuce mosaic and beet western yellows virus, Abstracts, 5th Conf. ISHS—Vegetable Virus Working Group, Bet Dagan, Israel, September 1985, p. 31.
Google Scholar
Lovisolo, O., and Conti, M., 1984, Allarme: Arriva la sharka, G. Agric 94 (21): 34.
Google Scholar
Lovisolo, O., and Lisa, V., 1983, Virosi e micoplasmosi delle cucurbitacee, Ital. Agric 120 (1): 58.
Google Scholar
Maison, P., Kerlan, C., and Massonié, G., 1983, Selection de semis de Prunus persica Batsch. résistants à la transmission du virus de la sharka par les virginopares aptères de Myzus persicae Sulz., C. R. Acad. Agric. Fr. 69: 337.
Google Scholar
Makkouk, K. M., Russo, M., Menassa, P., and Katul, L., 1984, Detection of three non persistently-transmitted cucumber viruses in plant tissues and aphid vector and reducing virus and virus spread by oil sprays, Proc. 6th Congress Medit. Phytopathol. Union Cairo, 1984, p. 60.
Google Scholar
Marco, S., 1985, Reducing incidence of aphid-transmitted viruses by reflective material, in: Abstracts, 5th Conf. ISHS—Vegetable Virus Working Group, Bet Dagan, Israel, September 1985, p. 35.
Google Scholar
Marenaud, C., Dunez, J., and Bernhard, R., 1976, Identification and comparison of different strains of apple chlorotic leaf spot virus and possibility of cross-protection, Acta Hort. 67: 219.
Google Scholar
Marras, F., Foddai, A., and Fiori, M., 1982, Possibilità di risanamento del carciofo da infezioni virali mediante coltura in vitro di apici meristematici, Atti Giornate Fitopatol. (Suppl.) 1: 151.
Google Scholar
Marrou, J., and Mehani, S., 1964, Etude d’un virus parasite de l’artichaut, C. R. Acad. Agric. Fr 50: 1053.
Google Scholar
Martelli, G. P., 1986, Virus and virus-like diseases of thé grapevine in the Mediterranean area, FAO Plant Protec. Bull 34: 25.
Google Scholar
Martelli, G. P., and Prota, U., 1985, Virosi della vite, Ital. Agric 122 (2): 201.
Google Scholar
Migliori, A., Lot, H., Pécaut, P., Duteil, M., and Rouzé-Jouan, J., 1984, Les virus de l’artichaut. I. Mise en évidence de trois virus dans les cultures françaises d’artichaut, Agronomie 4: 257.
Article Google Scholar
Milne, R. G., Conti, M., Lesemann, D. E., Stellmach, G., Tanne, E., and Cohen, J., 1984, Closterovirus-like particles of two types associated with diseased grapevines, Phytopathol. Z 110: 360.
Article Google Scholar
Moreno, P., Navarro, L., Fuerte, C., Pina, J. A., Ballester, F. J., Hermoso de Mendoza, A., Juarez, J., and Cambra, M., 1983, La tristeza de los agrios, Problematica en Espana, Hoja Tecnica INIA (Instituto Nacional de Investigaciones Agrarias) No. 47.
Google Scholar
Navarro, L., Llacer, G., Cambra, M., Arregui, J. M., and Juarez, J., 1982, Shoot tip grafting in vitro for elimination of viruses in peach plants (Prunus persica Batsch.), Acta Hort. 130: 185.
Google Scholar
Navarro, L., Pina, J. A., Juarez, J., Ballester, F. J., and Arregui, J. M., 1983, Obtention de Plantas de Agrios Libres de Virus en Espana, Hoja Tecnica INIA (Instituto Nacional de Investigaciones Agrarias) No. 48.
Google Scholar
Nitzany, F., 1970, Virus Diseases of Annual Crops in Israel, Division of Scientific Publications, Bet Dagan, Israel.
Google Scholar
Pena-Iglesias, A., and Ayuso-Gonzales, P., 1972, Degeneration of Spanish globe artichoke (Cynara scolymus L.) plants. I. Virus isolation, host range, purification and ultrastructure of infected hosts, Ann. INIA Protect. Veg 2: 89.
Google Scholar
Pena-Iglesias, A., and Ayuso, P., 1982, The elimination of some globe artichoke viruses by shoot apex culture and in vitro micropropagation, Acta Hort. 127: 31.
Google Scholar
Purcifull, D., Edwardson, J., Hiebert, E., and Gonsalves, D., 1984a, Papaya ringspot virus, CMI/AAB Descriptions of Plant Viruses No. 292.
Google Scholar
Purcifull, D., Hiebert, E., and Edwardson, J., 1984b, Watermelon mosaic virus 2, CMI/AAB Descriptions of Plant Viruses No. 293.
Google Scholar
Raccah, B., 1985, The use of combination of mineral oils and pyrethroids for control of non persistent viruses, Abstracts, 5th Con f. ISHS-Vegetable Virus Working Group, Bet Dagan, Israel, September 1985, p. 36.
Google Scholar
Ragozzino, A., 1983, Virosi della lattuga, Ital. Agric 120 (1): 96.
Google Scholar
Ragozzino, A., 1985, Virosi dell’albicocco, Ital. Agric 122 (2): 46.
Google Scholar
Ragozzino, A., Caia, R., and Xafis, C., 1971, I virus patogeni della lattuga in Campania, Riv. Ortoflorofruttic. Ital 55: 346.
Google Scholar
Rana, G. L., and Mondelli, D., 1985, Solanum nigrum L. and Ecballium elaterium Rich. ospiti di virus patogeni per le piante coltivate in Puglia, Informatore Fitopatol 35 (5): 43.
Google Scholar
Rana, G. L., Russo, M., Gallitelli, D., and Martelli, G. P., 1982, Artichoke latent virus: Characterization, ultrastructure and geographical distribution, Ann. Appl. Biol 101: 279.
Article Google Scholar
Roistacher, C. N., Bar-Joseph, M., and Gumpf, D. J., 1984, Transmission of tristeza and seedling yellow tristeza virus by small populations of Aphis gossypii, Plant Dis. 68: 494.
Google Scholar
Rosciglione, B., and Castellano, M. A., 1985, Further evidence that mealybugs can transmit grapevine virus A to herbaceous hosts, Phytopathol. Medit 24: 186.
Google Scholar
Russo, M., and Rana, G. L., 1978, Occurrence of two legume viruses in artichoke, Phytopathol. Medit 17: 212.
Google Scholar
Russo, M., Martelli, G. P., Cresti, M., and Ciampolini, F., 1979, Bean yellow mosaic virus in saffron, Phytopathol. Medit 18: 189.
Google Scholar
Russo, M., Savino, V., and Vovlas, C., 1983, Virosi della fava, Ital. Agric 120 (1): 83.
Google Scholar
Salibe, A. A., 1986, Major virus and virus-like diseases in the Mediterranean, FAO Plant Protec. Bull 34: 49.
Google Scholar
Savino, V., and Di Franco, A., 1980, Le virosi delle piante ortensi in Puglia. XXV. Malformazioni del pomodoro causate dal virus Y della patata, Informatore Fitopatol. 30(2):7.
Google Scholar
Schmidt, H. E., Rollwitz, W., Schimanski, H. H., and Kegler, H., 1985, Nachweis von Resistenzgenen gegen das Bohnengelbmosaik-Virus (bean yellow mosaic virus) bei Vicia faba L., Arch. Phytopathol. Pflanzenschutz 21:83.
Article Google Scholar
Sutic, D., and Rankovic, M., 1981, Resistance of some plum cultivars and individual trees to plum pox (sharka) virus, Agronomie 1: 617.
Article Google Scholar
Tanne, E., and Givony, L., 1985, Serological detection of two viruses associated with leafroll-diseased grapevines, Phytopathol. Medit 24: 106.
Google Scholar
Vederevskaja, T. D., Kegler, H., Grüntzig, M., and Bauer, E., 1985, Zur Bedeutung von Unkräutern als Reservoire des Scharka-Virus (plum pox virus), Arch. Phytopathol. Pflanzenschutz 21: 409.
Article Google Scholar
Vovlas, C., Hiebert, E., and Russo, M., 1981, Zucchini yellow fleck, a new potyvirus of zucchini squash, Phytopathol. Medit 20: 123.
Google Scholar
Vovlas, C., Avgelis, A., and Quacquarelli, A., 1983, La malformazione dei frutti di cetriolo in Grecia associata al virus della picchettatura gialla dello zucchino, Informatore Fitopatol. 33 (7–8): 59.
Google Scholar
Abdul Sattar, M. H., and Haithami, M. N., 1986, Diseases of major crops in Democratic Yemen and their economic importance, FAO Plant Protec. Bull 34: 73.
Google Scholar
Al-Musa, A. M., 1982a, Effect of watermelon mosaic virus-2 on starch, reducing sugar and some nutrient elements of squash (Cucurbita pepo leaves, Dirasat University of Jordan) 9: 41.
Google Scholar
Al-Musa, A. M., 1982b, Response of different cultivated cucurbit cultivars to watermelon mosaic virus-2 and cucumber mosaic virus in Jordan, Dirasat University of Jordan) 9: 163.
Google Scholar
Al-Musa, A., and Mansour, A., 1982, Some properties of a watermelon mosaic virus in Jordan, Plant Dis. 66: 330.
Article Google Scholar
Al-Musa, A., and Mansour, A., 1983, Plant viruses affecting tomatoes in Jordan. Identification and prevalence, Phytopathol. Z 106: 186.
Article Google Scholar
Al-Musa, A., and Mansour, A., 1984, Occurrence and incidence of lettuce mosaic virus in Jordan, Phytopathol. Medit 23: 57.
Google Scholar
Cook, A. A., Sharif, M., and Abdeen, F., 1985, Virus and viruslike diseases of pepper, potato and tomato found in Saudi Arabia, Proc. 8th Symp. Saudi Biol. Soc, Al Hasa, Saudi Arabia, March 1985, p. 93.
Google Scholar
Danesh, D., and Kaiser, W. L., 1969, Chickpea virus diseases in Iran, Iran J. Plant Pathol. 5: 50.
Google Scholar
Kaiser, W. L., 1973a, Biology of bean yellow mosaic and pea leaf roll viruses affecting Vicia faba in Iran, Phytopathol. Z 78: 253.
Article Google Scholar
Kaiser, W. L., 1973b, Etiology and biology of viruses affecting lentil (Lens esculenta) in Iran, Phytopathol. Medit 12: 7.
Google Scholar
Kaiser, W. L., and Danesh, D., 1971a, Etiology of virus-induced wilt of Cicer arietinum, Phytopathology 61: 453.
Article Google Scholar
Kaiser, W. L., and Danesh, D., 1971b, Biology of four viruses affecting Cicer arietinum in Iran, Phytopathology 61: 372.
Article Google Scholar
Kaiser; W. L., and Eskandari, F., 1970, Studies with bean yellow mosaic virus in Iran, Iran J. Plant Pathol 6: 26.
Google Scholar
Kaiser, W. L., and Mossahebi, G., 1974, Natural infection of mungbean by bean common mosaic virus, Phytopathology 64: 1209.
Article Google Scholar
Kaiser, W. L., Mossahebi, G. M., and Okhovvat, M., 1971, Alternate hosts of viruses affecting food legumes in Iran, Iran J. Plant Pathol 7: 27.
Google Scholar
Kaiser, W. L., Danesh, D., Okhovvat, M., and Mossahebi, G., 1972a, Virus Diseases of Pulse Crops in Iran, Tehran University, Karaj, Iran, (in Farsi).
Google Scholar
Kaiser, W. L., Danesh, D., Okhovvat, M., and Mossahebi, G., 1972b, Virus diseases of lentil in Iran, Iran J. Plant Pathol 8: 75.
Google Scholar
Karram, N., and Al-Musa, A., 1984, Purification and characterization of a Jordanian isolate of watermelon mosaic virus, Phytopathol. Z 111: 114.
Article Google Scholar
Katul, L., and Makkouk, K. M., 1987, Occurrence and serological relatedness of five cucurbit potyviruses in Lebanon and Syria, Phytopathol. Medit 26 (in press).
Google Scholar
Makkouk, K. M., and Lesemann, D. E., 1980, A severe mosaic of cucumbers in Lebanon caused by watermelon mosaic virus 1, Plant Dis. 64: 799.
Article Google Scholar
Makkouk, K. M., Lesemann, D. E., and Haddod, N., 1982, Bean yellow mosaic virus from broad bean in Lebanon: Incidence, host range, purification, and serological properties, J. Plant Dis. Protect 89: 59.
Google Scholar
Mansour, A., and Al-Musa, A., 1982, Incidence, economic importance, and prevention of watermelon mosaic virus-2 in squash (Cucurbita pepo) fields in Jordan, Phytopathol. Z 103: 35.
Article Google Scholar
Nienhaus, F., and Saad, A. T., 1967, First report on plant virus diseases in Lebanon, Jordan and Syria, Z. Pflanzenkrank. Pflanzenschutz 74: 459.
Google Scholar
Nour, M. A., and Nour, J. J., 1962, Broad bean mosaic caused by pea mosaic virus in the Sudan, Phytopathology 52: 398.
Google Scholar
Agarwal, V. K., Nene, Y. L., and Beniwal, S. P. S., 1977, Detection of bean common mosaic virus in urdbean (Phaseolus mungo) seeds, Seed Sci. Technol 5: 619.
Google Scholar
Balaraman, K., 1982, Cross protection against tristeza virus on budded acid lime, Indian J. Agric. Sci 52: 679.
Google Scholar
Balaraman, K., and Ramakrishnan, K., 1976, Can tristeza resistant root stocks protect acid lime against the disease? Curr. Res 5: 178.
Google Scholar
Bhargava, B., 1977, Effect of watermelon mosaic virus on the yield of Cucurbita pepo, Acta Phytopathol. Acad. Sci. Hung. 12: 165.
Google Scholar
Bhargava, B., Bhargava, K. S., and Joshi, R. D., 1975, Perpetuation of watermelon mosaic virus in eastern Uttar Pradesh, India, Plant Dis. Rep 59: 635.
Google Scholar
Bhargava, K. S., 1975, Sugarcane mosaic—retrospect and prospects, Indian Phytopathol. 28: 1.
Google Scholar
Bhargava, K. S., and Khurana, S. M. P., 1969, Papaya mosaic control by oil sprays, Phytopathol. Z 64: 338.
Article Google Scholar
Bhargava, K. S., and Khurana, S. M. P., 1970, Insect transmission of papaya mosaic virus, Zentbl. Bakt. Parasitk. Abt 124: 688.
CAS Google Scholar
Capoor, S. P., 1975, Role of tristeza virus in citrus die back complex, Indian J. Hort 32: 1.
Google Scholar
Capoor, S. P., and Varma, P. M., 1958, A mosaic disease of papaya in Bombay, Indian J. Agric. Sci 28: 225.
Google Scholar
Capoor, S. P., and Varma, P. M., 1961, Immunity to papaya mosaic virus in the genus Carica, Indian Phytopathol. 14: 96.
Google Scholar
Chohan, J. S., and Singh, S. L., 1981, Some properties of peanut mottle virus in Punjab, Proc. 3rd Inn. Symp. Plant Pathol, New Delhi, December 1981, p. 72 (abstract).
Google Scholar
Chona, B. L., 1944, Sugarcane mosaic and its control, Indian Farming 4: 178.
Google Scholar
Chona, B. L., 1958, Some diseases of sugarcane reported from India in recent years, Indian Phytopathol. 11: 1.
Google Scholar
Dean, J. L., 1974, Sugarcane disease observations in Pakistan, Sugarcane Pathol. Newsl. 1112: 34.
Google Scholar
Dhingra, K. L., and Chenulu, V. V., 1980, Effect of soybean mosaic virus on yield and nodulation of soybean cv. Bragg, Indian Phytopathol. 33: 586.
Google Scholar
Fakir, G. A., 1983, Soybean diseases in Bangladesh, Bull. Bangladesh Agric. Univ, Mymensingh, Bangladesh, p. 13.
Google Scholar
Ghewande, M. P., 1984, Occurrence of peanut (groundnut) mottle disease in Saurashtra, Indian Bot. Rep 3: 98.
Google Scholar
Ghosh, S. K., and Mukhopadhyay, S., 1979, Viruses of pumpkin (Cucucurbita moschata) in West Bengal, Phytopathol. Z 94: 172.
Article Google Scholar
Iizuka, N., Rajeshwari, R., Reddy, D. V. R., Goto, T., Muniyappa, V., Bharathan, N., and Ghanekar, A. M., 1984, Natural occurrence of a strain of cowpea mild mottle virus on groundnut (Arachis hypogaea) in India, Phytopathol. Z 109: 245.
Article Google Scholar
Joshi, R. D., and Gupta, U. P., 1974, Prevention of natural spread of soybean mosaic virus with some oils, Proc. Natl. Acad. Sci. India 14B: 1.
Google Scholar
Joshi, R. D., and Gupta, A. K., 1975, Prevalence of mosaic disease of French bean in Kumaon, Curr. Sci 44: 360.
Google Scholar
Khurana, S. M. P., Singh, V., and Nagaich, B. B., 1975, Five strains of potato virus Y affecting potatoes in Simla hills, J. Indian Potato Assoc 2: 38.
Google Scholar
Manandhar, J. B., and Sinclair, J. B., 1982, Occurrence of soybean diseases and their importance in Nepal, FAO Plant Protec. Bull 30: 13.
Google Scholar
Moses, G. J., and Nariani, T. K., 1975, A mosaic disease of Phaseolus atropurpureus, Indian Phytopathol. 28: 102.
Google Scholar
Muniyappa, V., and Reddy, D. V. R., 1983, Transmission of cowpea mild mottle virus by Bemisia tabaci in a nonpersistent manner, Plant Dis. 67: 391.
Article Google Scholar
Nagaich, B. B., 1983, Disease resistance in potato in India, Indian Phytopathol. 36: 1.
Google Scholar
Nagaich, B. B., Pushkarnath, Bharadwaj, V. P., Giri, B. K., Anand, S. R., and Upreti, G. C., 1969, Production of disease-free seed potatoes in the Indo-Gangetic plains, Indian J. Agric. Sci 39: 238.
Google Scholar
Nirula, K. K., and Kumar, R., 1969, Soil application of systemic insecticides for control of aphid vectors and leaf roll and “Y” viruses, in potato, Indian J. Agric. Sci 39: 699.
Google Scholar
Purcifull, D., Edwardson, J., Hiebert, E., and Gonsalves, D., 1984, Papaya ringspot virus, CMI/AAB Descriptions of Plant Viruses No. 292.
Google Scholar
Rajeshwari, R., Iizuka, N., Nolt, B. L., and. Reddy, D. V. R., 1983, Purification, serology and physico-chemical properties of a peanut mottle virus isolate from India, Plant Pathol. 32: 197.
Article CAS Google Scholar
Rao, K. N., Appa Rao, A., and Reddy, D. V. R., 1970, A ringspot strain of potato virus X on chilli (Capsicum annuum), Indian Phytopathol. 23: 69.
Google Scholar
Raychaudhuri, M., and Varma, A., 1975a, Virus diseases of cucurbits in Delhi, Proc. 62d Indian Sci. Congr. Part III, p. 74 (abstract).
Google Scholar
Raychaudhuri, M., and Varma, A., 1975b, Virus-vector relationship of marrow mosaic virus with Myzus persicae Sulz, Indian J. Entomol 37: 247.
Google Scholar
Raychaudhuri, M., and Varma, A., 1983, Effect of oils on transmission of marrow mosaic virus by Myzus persicae Sulz, J. Entomol. Res 7: 107.
CAS Google Scholar
Raychaudhuri, S. P., Seth, M. L., Renfro, B. L., and Varma, A., 1976, Principal maize virus diseases in India, in: Proc. Int. Maize Virus Diseases Colloquium and Workshop ( L. E. Williams, D. T. Gordon, and L. R. Nault, eds.), pp. 69–77, Ohio Agric. Res. and Development Center, Wooster.
Google Scholar
Reddy, D. V. R., Iizuka, N., Ghanekar, A. M., Murthy, K. K., Kuhn, C. W., Gibbons, R. W., and Chohan, J. S., 1978, The occurrence of peanut mottle virus in India, Plant Dis. Rep 62: 978.
Google Scholar
Reddy, K. R. C., and Nariani, T. K., 1963, Studies on mosaic diseases of vegetable marrow (Cucurbita pepo L), Indian Phytopathol. 16: 260.
Google Scholar
Rishi, N., and Rishi, S., 1985, Purification, electron-microscopy and serology of strain A and F of sugarcane mosaic virus, Indian J. Virol 1: 79.
Google Scholar
Sachchidananda, S., Singh, S., Prakash, N., and Verma, V. S., 1973, Bean common mosaic virus on cowpea in India, Z. Pflkrankh 2: 88.
Google Scholar
Sastry, K. S., 1982, Studies on identification of mosaic diseases of brinjal Solanum melongena L. in Karnataka, Curr. Sci. 51: 568.
Google Scholar
Shah, S. S., 1972, Sugarcane agriculture, Indian Farming 22: 38.
Google Scholar
Singh, K., 1971, Virus diseases of sugarcane and the seed programme, Adv. Agric. (Kanpur) 1: 69.
Google Scholar
Singh, M. N., Nagaich, B. B., and Agrawal, H. O., 1984, Spread of viruses Y and leafroll by aphids in potato fields, Indian Phytopathol. 37: 241.
Google Scholar
Singh, R., 1976, Natural infection of mungbean by common mosaic virus, Indian J. Mycol. Plant Pathol 6: 94.
Google Scholar
Singh, R. A., and Nagaich, B. B., 1976, Effect of power oil on aphid transmission of potato virus Y, J. Indian Potato Assoc 3: 21.
Google Scholar
Singh, R. N., 1976, A new strain of bean common mosaic virus on bean in India, Indian J. Mycol. Plant Pathol 6: 156.
CAS Google Scholar
Singh, R. N., and Nene, Y. L., 1978, Further studies on the mosaic mottle disease of urdbean, Indian Phytopathol. 31: 159.
Google Scholar
Singh, S. J., 1981, Studies on a virus causing mosaic diseases of pumpkin (Cucurbita maxima Duch.), Phytopathol. Medit 20: 184.
Google Scholar
Solangi, G. R., Moghal, S. M., and Khanzada, S. D., 1983, Identification of some viruses infecting solanaceous hosts in Sind, Pakistan J. Bot 15: 19.
Google Scholar
Suteri, B. D., 1980, Oil content of soybean seeds infected with two strains of soybean mosaic virus, Indian Phytopathol. 33: 139.
CAS Google Scholar
Varma, A., 1985, Natural occurrence of cowpea mild mottle virus in Vigna mungo, Indian Phytopathol. 38: 626.
Google Scholar
Varma, P. M., Rao, D. G., and Capoor, S. P., 1965, Transmission of tristeza virus by Aphis craccivora (Kock) and Dactynotus jaceae L., Indian J. Entomol 27: 67.
Google Scholar
Anonymous, 1980, Sugarcane diseases in South Africa, Exp. St. S. Afr. Sugar Assoc. Bull 9: 7.
Google Scholar
Bailey, R. A., 1979, An assessment of the status of sugarcane diseases in South Africa, Sasta Proc. 53: 1.
Google Scholar
Bailey, R. A., and Fox, P. H., 1980, The susceptibility of varieties to mosaic and the effect of planting date on mosaic incidence in South Africa, Sasta Proc. 54: 1.
Google Scholar
Bock, K. R., and Robertson, D. J., 1976, Notes on East African plant virus diseases, East Afr. Agric. Forestry J 41: 340.
Google Scholar
Bock, K. R., Guthrie, E. J., Meredith, G. C., and Njuguna, J. G. M., 1975, Groundnut viruses, Rep. East Afr. Agric. Forestry Res. Org. 1974, p. 120.
Google Scholar
Brunt, A. A., and Kenten, R. H., 1971, Pepper veinal mottle virus—a new member of the potato virus Y group from peppers (Capsicum annuum L. and C. frutescens L.) in Ghana, Ann. Appl. Biol 69: 235.
Article Google Scholar
Brunt, A. A., and Kenten, R. H., 1973, Cowpea mild mottle, a newly recognized virus infecting cowpeas (Vigna unguiculata) in Ghana, Ann. Appl. Biol 74: 67.
Article PubMed CAS Google Scholar
Brunt, A. A., and Phillips, S., 1981, “Fuzzy-vein,” a disease of tomato (Lycopersicon esculenturn) in western Nigeria induced by cowpea mild mottle virus, Trop. Agric. Trinidad 58:177.
Google Scholar
Brunt, A. A., Atkey, P. T., and Woods, R. D., 1983, Intracellular occurrence of CMMV in two unrelated plant species, Intervirology 20: 137.
Article PubMed CAS Google Scholar
Da Graça, J. V., Marais, L. J., and Van Broembsen, L. A., 1982, Severe tristeza stem pitting in young grapefruit, Citrus Subtrop. Fruit J 588: 20.
Google Scholar
Deall, M. W., 1980, Identification of a strain of potato virus Y causing bronzing of tobacco leaves, Zimbabwe J. Agric. Res 18: 125.
Google Scholar
De Wijs, J.-J., 1973, Pepper veinal mottle virus in Ivory Coast, Neth. J. Plant Pathol 79: 189.
Article Google Scholar
Dubem, J., and Dollet, F., 1980, Groundnut eyespot virus, a new member of the potyvirus group, Ann. Appl. Biol 96: 193.
Article Google Scholar
Dubem, J., and Dollet, M., 1981, Groundnut crinkle virus, a new member of the carlavirus group, Phytopathol. Z 101: 337.
Article Google Scholar
Fauquet, C., and Thouvenel, J. C., 1980, Influence of potyviruses on the development of plants in Ivory Coast, Second Int. Conference on the Impact of Viral Diseases on the Development of African and Middle Eastern Countries, Nairobi, Kenya, December 1980.
Google Scholar
Fauquet, C., and Thouvenel, J.-C., 1987, Plant Viruses in the Ivory Coast, Initiations Documentations—Techniques, no. 46, p. 243, ORSTOM, Paris.
Google Scholar
Fauquet, C., Thouvenel, J.-C., and Fargette, D., 1985, Une nouvelle maladie virale de l’arachide en Côte d’Ivoire: La maladie des taches chlorotiques de l’arachide, C. R. Acad. Sci. Paris 17: 773.
Google Scholar
Hollings, M., and Bock, K. R., 1976, Purification and properties of sweet potato mild mottle, a whitefly borne virus from sweet potato (Ipomea batatas) in East Africa, Ann. Appl. Biol 82: 511.
Article PubMed CAS Google Scholar
Igwegbe, E. C. K., and Waterworth, H. E., 1982, Properties and serology of a strain of pepper veinal mottle virus isolated from eggplant (Solanum melongena L.) in Nigeria, Phytopathol. Z. 103: 9.
Article Google Scholar
IITA (International Institute of Tropical Agriculture), 1981, Highlights for 1980, IITA, Ibadan, Nigeria.
Google Scholar
Iwaki, M., Thongmeearkom, P., Prommin, M., Honda, Y., and Hibi, T., 1982, Whitefly transmission and some properties of cowpea mild mottle virus on soybean in Thailand, Plant Dis. 66: 365.
Article Google Scholar
Ladipo, J. L., and Roberts, I. M., 1979, Occurrence of pepper veinal mottle virus in tobacco in Nigeria, Plant Dis. Rep 63: 161.
Google Scholar
Lamy, D., Thouvenel, J.-C., and Fauquet, C., 1979, A strain of guinea grass mosaic virus naturally occurring on maize in the Ivory Coast, Ann. Appl. Biol 93: 37.
Article Google Scholar
Lana, A. O., Gilmer, R. M., Wilson, G. F., and Shoyinka, S. A., 1975, An unusual new virus, possibly of the potyvirus group, from pepper in Nigeria, Phytopathology 65: 1329.
Article Google Scholar
McClean, A. P. D., 1957, Tristeza virus complex: Its transmission by the aphid Toxoptera citricidus, Phytophylactica 7: 109.
Google Scholar
McClean, A. P. D., 1963, The tristeza virus complex, S. Afr. J. Agric. Sci 6: 303.
Google Scholar
Muniyappa, V., and Reddy, D. V. R., 1983, Transmission of cowpea mild mottle virus by Bemisia tabaci in a non-persistent manner, Plant Dis. 67: 391.
Article Google Scholar
Siebert, V. S., and Engelbrecht, D. J., 1982, Association of apple stem grooving virus with a decline of Packham’s Triumph pear on seedling rootstock, Acta Hort. 130: 47.
Google Scholar
Terry, E. R., 1976, Incidence, symptomatology, and transmission of a yam virus in Nigeria, in: Proc. 4th Int. Symp. Trop. Root Crops, Cali, Colombia, p. 170.
Google Scholar
Thatcher, J., 1978, Isolation of an apparently new PVY strain from Burley tobacco, Phytophylactica 10: 73.
Google Scholar
Thompson, G. J., 1980, Studies on a Capsicum mosaic and tomato spotted wilt, MSc. Thesis, University of Natal, Natal, South Africa.
Google Scholar
Thouvenel, J.-C., and Fauquet, C., 1977, Une mosaïque de l’igname (Dioscorea cayenensis) causée par un virus filamenteux en Côte d’Ivoire, C. R. Acad. Sci. Paris 284 série III: 1947.
Google Scholar
Thouvenel, J.-C., and Fauquet, C., 1982, Les viroses de l’igname en Côte d’Ivoire, in: Yams ( J. Miège and S. N. Lyonga, eds.), pp. 245–252, Oxford Sciences Pub., Oxford, U.K.
Google Scholar
Thouvenel, J.-C., Fauquet, C., and Monsarrat, A., 1982, Isolation of cowpea mild mottle virus from diseased soybeans in the Ivory Coast, Plant Dis. 66: 336.
Article Google Scholar
Van der Meer, F., 1985, Identification, characterization and strain differentiation of watermelon mosaic virus in South Africa, MSc. Thesis, Univ. of the Witwatersrand, Witwatersrand, South Africa.
Google Scholar
Van der Meer, F. W., and Garnett, H. M., 1985, Control of and resistance to watermelon mosaic virus: A review, S. Afr. Dept. of Agric. and Water Supply Tech. Comm. 201, Hort. Sci. Series 3: 7–14.
Google Scholar
Van Regenmortel, M. H. V., 1961, Purification of a watermelon mosaic virus, S. Afr. J. Agric. Sci 4: 405.
Google Scholar
Von Wechmar, M. B., 1967, A study of viruses affecting Gramineae in South Africa, Ph.D. Thesis, University of Stellenbosch, Stellenbosch, South Africa.
Google Scholar
Von Wechmar, M. B., and Chauhan, R., 1984, Seedborne viruses of maize in South Africa, Maize Virus Dis. Newsl 1: 54.
Google Scholar
Von Wechmar, M. B., and Chauhan, R., 1985, Occurrence of two strains of maize dwarf mosaic virus in South Africa: Strain A and B, Maize Virus Dis. Newsl 2 (in press).
Google Scholar
Von Wechmar, M. B., and Hahn, J. S., 1967, Virus diseases of cereals in South Africa, S. Afr. J. Agric. Sci 10: 241.
Google Scholar
Von Wechmar, M. B., Chauhan, R., and Knox, E., 1986, Seedtransmitted viruses in maize, in: Proc. of 6th South African Maize Breeders Symposium (H. O. Gevers and I. V. Whythe, eds), Dept. Agriculture and Water Supply. 202: 52–55.
Google Scholar
Von Wechmar, M. B., Chauhan, R., Heam, S., and Knox, E., 1987, Applications of immunoelectroblotting to differentiate between strains of maize dwarf mosaic virus and sugarcane mosaic virus occurring in South Africa, CSFRI Symposium: (Research into Citrus and Subtropical Crops) Abstract 59.
Google Scholar
Bock, K. R., and Kuhn, C. W., 1975, Peanut mottle virus, CMI/AAB Descriptions of Plant Viruses No. 141.
Google Scholar
Chien, Y. D., Chen, Z. M., and Zhou, K. H., 1988, ‘Studies on the wheat yellow leaf virus disease,’ Acta Phytopathol. Sin 18 (2): 1988.
Google Scholar
Chiu, W. F., 1961a, ‘The kwuting disease of Chinese cabbage and its control,’ in: ’The Science of Plant Protection in China’ ( C. Y. Shen, ed.), pp. 908–981, Agriculture Publishing House, Beijing, China.
Google Scholar
Chiu, W. F., 196lb, ‘The primary source of infection, transmission and control of sugar beet yellows in Inner Mongolia,’ in: ’The Science of Plant Protection in China’ (C. Y. Shen, ed.), pp. 1058–1063, Agriculture Publishing House, Beijing, China.
Google Scholar
Chiu, W. F., 1982a, ‘Virus diseases of cruciferous crops in China,’ in: ’A Textbook for Diseases of Crop Plants’ ( W. F. Chiu, ed.), pp. 408–415, Agriculture Publishing House, Beijing, China.
Google Scholar
Chiu, W. F., 1982b, ‘Virus diseases of potato,’ in: ’A Textbook for Diseases of Crop Plants’ ( W. F. Chiu, ed.), pp. 212–220, Agriculture Publishing House, Beijing, China.
Google Scholar
Chiu, W. F., and Wang, C. K., 1957, ‘Kwuting, a virosis of Chinese cabbage,’ Acta Phytopathol. Sin 3 (1): 31.
Google Scholar
Chiu, W. F., Chang, I. H., Hsieh, C. C., Cheo, Y., and Hang, S. Y., 1959, ‘On the epiphytotics of sugar beet yellows in Inner Mongolia,’ Acta Phytopathol. Sin. 5 (2): 53.
Google Scholar
Guo, J. R., Chen, Y. X., and Fang, C. D., 1984, ‘Identification of cowpea aphid-borne mosaic virus in Nanjing,’ Acta Phytopathol. Sin 14(3):175.
Google Scholar
Guo, S. H., Zhang, H. L., Zhu, F. C., and Cai, Y. N., 1984, ‘The purification of maize dwarf mosaic virus and the preparation of antiserum,’ in: Abstracts, Joint Meeting of Societies for Biochemistry, Microbiology and Phytopathology, September 1984, p. 33, Joint Office of the CBS, CMS, and CPS, Urumchi and Beijing, China.
Google Scholar
Hollings, M., and Brunt, A. A., 1981, Sugarcane mosaic virus, CMI/AAB Descriptions of Plant Viruses, No. 245.
Google Scholar
Ke, C., Chen, H., Chen, X. C., and Chan, L. J., 1979, ‘Electron microscopic observation of papaya ringspot mosaic virus in Fujian,’ Acta Phytopathol. Sin. 9(1):31.
Google Scholar
Ke, C., Garnsey, S. M., and Tsai, S. Z., 1984, ‘A preliminary study on citrus decline,’ in: Abstracts, Joint Meeting of Societies for Biochemistry, Microbiology and Phytopathology, September 1984, p. 36, Joint Office of the CBS, CMS, and CPS, Urumchi and Beijing, China.
Google Scholar
Li, G. X., and Pei, M. Y., 1981, ‘A mosaic disease of pumpkin caused by watermelon mosaic virus in Beijing,’ Acta Phytopathol. Sin 11 (2): 41.
Google Scholar
Lo, G. C., Wang, C. Z., Zhu, K. R., and Chen, Y. X., 1984, ‘Studies on a sugarcane mosaic virus disease and its control in Zhejiang province,’ Acta Agric. Univ. Zhejiangensis 10 (2): 137.
Google Scholar
Pu, Z. C., and Zhou, Y. J., 1984, ‘On the bean mosaic virus disease in Nanjing’ submitted. Ruan, Y. L., 1983, ‘On barley yellow mosaic virus (BYMV),’ Acta Phytopathol. Sin 13 (3): 49.
Google Scholar
Ruan, Y. L., Lin, M. S., and Xu, R. Y., 1984, ‘Identification of the causal entity of wheat yellow mosaic disease in Zhejiang province,’ in: Abstracts, Joint Meeting of Societies for Biochemistry, Microbiology and Phytopathology, September 1984, p. 42, Joint Office of the CBS, CMS, and CPS, Urumchi and Beijing, China.
Google Scholar
Shi, Y. L., Zhang, Q., Wang, F. R., Xi, Z. X., and Xu, S. H., 1986, ‘Identification of strains of maize dwarf mosaic virus,’ Acta Phytopathol. Sin 16 (2): 99.
Google Scholar
Shi, C. L., and Hsu, S. H., 1979, ‘Maize dwarf mosaic virus of corn and sorghum in Beijing,’ Acta Phytopathol. Sin 9 (1): 35.
Google Scholar
Xia, J. Q., Yan, D. Y., and Wang, T. H., 1984, ‘On the mosaic disease of asparagus lettuce. I. Etiological identification,’ Acta Phytopathol. Sin. 14(4): 241.
Google Scholar
Xiang, Y. Y., Xi, Z. G., and Zhang, H. L., 1984, ‘A study on properties of poplar mosaic virus,’ Sci. Silvae Sin 20 (4): 441.
Google Scholar
Xu, Z., Yu, Z., Liu, J., and Barnett, O. W., 1983, A virus causing peanut mild mottle in Hubei province, China, Plant Dis. 67: 1029.
Article Google Scholar
Yin, Y. Q., Cui, X. M., Quan, J. R., Liu, Y., and Liang, X. S., 1982, ‘Isolation and identification of viruses infecting saccharin melon in Xinjiang,’ Acta Phytopathol. Sin 9 (3): 157.
Google Scholar
Zhang, H. L., Guo, S. H., Pang, R. J., Jiang, L. Q., Zhao, E. Y., and Gong, G. P., 1983, ‘Studies on the potato virus Yn,’ Acta Sci. Nat. Univ. Intramongol 14(2):231.
Google Scholar
Zhang, H. L., Guo, S. H., Pang, R. J., Jiang, L. Q., and Zhao, E Y., 1984, ‘Isolation of potato virus S and preparation of its antiserum,’ in: Abstracts, Joint Meeting of Societies for Biochemistry, Microbiology and Phytopathology, September 1984, p. 46, Joint Office of the CBS, CMS, and CPS, Urumchi and Beijing, China.
Google Scholar
Zhang, J. R., and Shen, S. L. (eds.), 1984, ’Handbook for Virus Diseases of Flowering Plants,’ Shanghai Institute of Gardening, Shanghai, China.
Google Scholar
Zhang, M. H., Lü, W. Q., and Zhong, Z. X., 1980, ‘The occurrence and identification of virus diseases of soybean,’ Acta Phytopathol. Sin 10 (2): 111.
Google Scholar
Akita, S., 1981, ‘Virus diseases of clover in pasture of Japan. 1. Identification and prevalence of white clover viruses,’ Bull. Nat. Grassland Res. Inst. 18:55 (English summary)
Google Scholar
Benigno, S. A., 1977, Plant virus diseases in the Philippines, Trop. Agric. Res. Ser 10: 51.
Google Scholar
Cho, E. K., Choi, S. H., and Cho, W. T., 1983, Newly recognized soybean mosaic virus mutants and sources of resistance in soybeans, Res. Rep. Office Rural Dev. (SPMU) 25: 18.
Google Scholar
Deema, N., 1977, Virus diseases of economic crops in Thailand, Trop. Agric. Res. Ser 10: 69.
Google Scholar
Fukumoto, F., Thongmeearkom, P., Iwaki, M., Choopanya, D., Sarindu, N., Deema, N., and Tsuchizaki, T., 1986a, Peanut mottle virus occurring on peanut in Thailand, Tech. Bull. Trop. Agric. Res. Center 21: 144.
Google Scholar
Fukumoto, F., Thongmeearkom, P., Iwaki, M., Choopanya, D., Sarindu, N., Deema, N., and Tsuchizaki, T., 1986b, Peanut chlorotic ring mottle virus occurring on peanut in Thailand, Tech. Bull. Trop. Agric. Res. Center 21: 150.
Google Scholar
Horio, H., 1976, ‘Studies on M Mosaic and S mosaic of potato,’ Res. Bull. Nat. Potato Found. Stock Seed Farm Jpn. 12:1 (English summary)
Google Scholar
Horio, H., 1981, Seed potato production and virus diseases in Japan, Rev. Plant Protec. Res 14: 59.
Google Scholar
Ieki, H., and Yamaguchi, A., 1984, ‘Attenuation and elimination of a virulent strain of citrus tristeza virus (CTV-S) by gamma-ray radiation and heat treatment,’ Ann. Phytopathol. Soc. Jpn 50: 434.
Article Google Scholar
Inouye, N., 1968a, Virus disease of cymbidium and cattleya caused by cymbidium mosaic virus, Ber. Ohara Inst. Landw. Biol. Okayama Univ 14: 161.
Google Scholar
Inouye, T., 1968b, ‘Studies on host range of PVY group viruses in leguminous plants in Japan, and identification of them by the selected differential test plants,’ Nogaku Kenkyu 52:11 (English summary in Ber. Ohara Inst. Landw. Biol. Okayama Univ 14: A7, 1968 ).
Google Scholar
Inouye, T., 1969, ‘Peanut mottle virus from peanut and pea,’ Nogaku Kenkyu 52:159 (English summary in Ber. Ohara Inst. Landw. Biol. Okayama Univ. 15:A2, 1969).
Google Scholar
Inouye, T., and Saito, Y., 1975, Barley yellow mosaic virus, CMI/AAB Descriptions of Plant Viruses No. 143.
Google Scholar
Iwaki, M., and Auzay, H., 1978, Virus diseases of mungbean in Indonesia, in: 1st International Mungbean Symp, Los Banos, Philippines, p. 169.
Google Scholar
Iwaki, M., Thongmeearkom, P., Prommin, M., Honda, Y., and Hibi, T., 1982, Whitefly transmission and some properties of cowpea mild mottle virus on soybean in Thailand, Plant Dis. 66: 365.
Article Google Scholar
Iwaki, M., Thongmeearkom, P., Honda, Y., Prommin, M., Deema, N., Hibi, T., Iizuka, N., Ong, C. A., and Saleh, N., 1986a, Cowpea mild mottle virus occurring on soybean and peanut in Southeast Asian countries, Tech. Bull. Trop. Agric. Res. Center 21: 106.
Google Scholar
Iwaki, M., Thongmeearkom, P., Sarindu, N., Deema, N., Honda, Y. Goto, T., and Surin, P., 1986b, Peanut mottle virus isolated from soybean in Thailand, Tech. Bull. Trop. Agric. Res. Center 21: 101.
Google Scholar
Kiso, H., Tezuka, N., Seki, M., and Onizuka, I., 1974, ‘An unknown disease of French bean occurred in Saga prefecture,’ Ann. Phytopathol. Soc. Jpn 40: 211.
Google Scholar
Kusaba, T., Toyama, A., Yumoto, T., and Tatebe, Y., 1971, ‘Studies on the ecology of soil-borne barley yellow mosaic and its control in two-rowed barley,’ Tottori Agric. Exp. Sta. Spec. Bull. 2:1 (English summary)
Google Scholar
Lee, S. H., 1981, Studies on virus diseases occurring in various crops in Korea, Res. Rep. Office Rural Dev. (SPMU) 23: 62.
Google Scholar
Machida, I., Saito, A., Fukushima, C., and Tanaka, Y., 1984, ‘Surveys on apple latent viruses by Malus acheideckeri Zabel,’ Ann. Rep. Plant Protect. North Jpn. 35:187 (English summary).
Google Scholar
Murayama, D., Shikata, E., Kojima, M., Senboku, T., Kajiwra, K., and Uyeda, I., 1975, ‘Studies on legume virus diseases in Hokkaido. I. Viruses isolated from diseased French bean plants,’ Mem. Fac. Agric. Hokkaido Univ. 9:155 (English summary)
Google Scholar
Ohtsu, Y., Sako, N., and Somowiyarjo, S., 1985, ‘Zucchini yellow mosaic virus isolated from pumpkin in Miyako and Yaeyama Islands, Okinawa, Japan,’ Ann. Phytopathol. Soc. Jpn. 51:234 (English summary).
Article Google Scholar
Ong, C. A., and Ting, W. P., 1977, A review of plant virus disease in Peninsula Malaysia, Trop. Agric. Res. Ser 10: 155.
Google Scholar
Roechan, M., Iwaki, M., Nasir, S., Tantera, D. M., and Hibino, H., 1978a, Virus diseases of legume plants in Indonesia. 3. Bean yellow mosaic virus, Contrib. Central Res. Inst. Agric., Bogor, Indonesia, 45: 1.
Google Scholar
Roechan, M., Iwaki, M., Nasir, S., Tantera, D. M., and Hibino, H., 1978b, Virus diseases of legume plants in Indonesia. 4. Peanut mottle virus, Contrib. Central Res. Inst. Agric., Bogor, Indonesia, 46: 1.
Google Scholar
Sako, N., 1979, ‘Bean yellow mosaic virus occurred in forced broad bean,’ Ann. Phytopathol. Soc. Jpn 45: 89.
Google Scholar
Sasaki, A., 1974, ‘Studies on hassaku dwarf,’ Spec. Bull. Fruit Tree Exp. Sta. Hiroshima Prefect. 2:1 (English summary)
Google Scholar
Soelaeman, T., 1977, A possible relationship between stem pitting and citrus vein phloem degeneration (CVPD), Trop. Agric. Res. Ser 10: 81.
Google Scholar
Taiwo, M. A., and Gonsalves, D., 1982, Serological grouping of isolates of blackeye cowpea mosaic and cowpea aphid-borne mosaic viruses, Phytopathology 72: 583.
Article Google Scholar
Taiwo, M. A., Gonsalves, D., Provvidenti, R., and Thurston, H. D., 1982, Partial characterization and grouping of isolates of blackeye cowpea mosaic and cowpea aphid-borne mosaic viruses, Phytopathology 72: 590.
Article CAS Google Scholar
Takahashi, R., Hayashi, J., Inouye, T., Moriya, I., and Hirao, C., 1973, Studies on resistance to yellow mosaic disease in barley, Ber. Ohara Inst. Landw. Biol. Okayama Univ 16: 1.
Google Scholar
Takahashi, K., Tanaka, T., Iida, W., and Tsuda, Y., 1980, ‘Studies on virus diseases and causal viruses of soybean in Japan,’ Bull. Tohoku Natl. Agric. Exp. Sta. 62:1 (English summary).
Google Scholar
Talens, L. T., 1979, Potato viruses in the Philippines: Detection and identification of potato viruses X, S, and Y, Philippine Agric. 62: 144.
Google Scholar
Terami, F., Yamamoto, T., and Inouye, T., 1985, ‘Serological relationships among two types of watermelon mosaic virus (WMV-M and -S or WMV-80 and -8E), WMV-1, WMV-2 and zucchini yellow mosaic virus,’ Ann. Phytopathol. Soc. Jpn 51: 83.
Google Scholar
Tezuka, N., Ishii, M., and Watanabe, Y., 1983, ‘Studies on strains of turnip mosaic virus (TuMV). II. Strains isolated from radish and hakuran,’ Bull. Vegetable Ornamental Crops Res. Sta. Jpn. Ser. A 11:83 (English summary).
Google Scholar
Ting, W. P., Geh, S. L., and Lim, Y. C., 1972, Studies on groundnut mosaic virus of Arachis hypogaea L. in West Malaysia, Exp. Agric. 8: 355.
Article Google Scholar
Tomaru, K., Suzuki, I., Sawa, Y., and Araki, M., 1982, ‘Occurrence of a necrotic strain of potato virus Y on tobacco and potato in Aomori prefecture,’ Ann. Phytopathol. Soc. Jpn 48: 392.
Article Google Scholar
Tsuchizaki, T., Yora, K., and Asuyama, H, 1970, ‘The viruses causing mosaic of cowpea and azukibeans, and their transmissibility through seeds,’ Ann. Phytopathol. Soc. Jpn. 36:112 (English summary)
Article Google Scholar
Tsuchizaki, T., Thongmeearkom, P., and Iwaki, M., 1982, Soybean mosaic virus isolated from soybeans in Thailand, Jpn. Agric. Res. Q. 51: 461.
Google Scholar
Tsuchizaki, T., Senboku, T., Iwaki, M., Pholauporn, S., Srithongchi, W., Deema, N., and Ong, C. A., 1984, Blackeye cowpea mosaic virus from asparagus bean (Vigna sesquipedalis) in Thailand and Malaysia and their relationships to Japanese isolates, Ann. Phytopathol. Soc. Jpn 50: 461.
Article Google Scholar
Uyeda, I., Sugano, T., Nakasone, K., Senboku, T., and Shikata, E., 1981, ‘Studies on “top necrosis disease” of French bean cv. Ofuku in Hokkaido,’ Bull. Fac. Agric. Hokkaido Univ. 13: 69 (English summary).
Google Scholar
Yamamoto, T., Ishii, M., Katsube, T., and Ohata, K., 1984, ‘Epidemiological studies of watermelon mosaic virus,’ Bull. Shikoku Natl. Agric. Exp. Sta. 44:1 (English summary)
Google Scholar
Yanase, H., 1974, ‘Studies on apple latent viruses in Japan,’ Bull. Fruit Tree Res. Sta. Jpn. Ser. C 1:47 (English summary).
Google Scholar
Yoshii, H., 1963, On the strain distribution of turnip mosaic virus, Ann. Phytopathol. Soc. Jpn 28: 221.
Article Google Scholar
Abu-Samah, N., and Randles, J. W., 1981, A comparison of the nucleotide sequence homologies of three isolates of bean yellow mosaic virus and their relationships to other potyviruses, Virology 110: 436.
Article PubMed CAS Google Scholar
Abu-Samah, N., and Randles, J. W., 1983, A comparison of Australian bean yellow mosaic virus isolates using molecular hybridization analysis, Ann. Appl. Biol 103: 97.
Article Google Scholar
Aitken, Y., and Grieve, B. J., 1943, A mosaic disease of subterranean clover, Aust. Inst. Agric. Sci 9: 81.
Google Scholar
Bercks, R., 1970, Potato virus X, CMI/AAB Descriptions of Plant Viruses No. 4.
Google Scholar
Bos, L., 1970, Bean yellow mosaic virus, CMI/AAB Descriptions of Plant Viruses No. 40.
Google Scholar
Bowman, F. T., 1955, A history of citrus growing in Australia 1788–1900, Citrus News Melbourne pp. 128–129, 149–151.
Google Scholar
Carver, M., 1978, The black citrus aphids, Toxoptera citricidus (Kirkaldy) and T. aurantii (Boyer de Fonscolomber) (Homoptera: Aphididae), J. Aust. Entomol. Soc 17: 263.
Article Google Scholar
Chamberlain, E. E., 1935, “Sore shin” of blue lupins—its identity with pea mosaic, N.Z. J. Agric. 51:86.
Google Scholar
Chamberlain, E. E., 1954, Plant virus diseases in New Zealand, Bull. N.Z. Dept. Sci. Indust. Res 108: 1.
Google Scholar
Cox, J. E., Fraser, L. R., and Broadbent, P., 1976, Stem pitting of grapefruit. Field protection by the use of mild strains, an evaluation of trials in two climatic districts, in: Proc. 7th Con f. Int. Org. Citrus Virol. ( E. C. Calavan, ed.), pp. 68–70, University of California, Riverside.
Google Scholar
Forster, R. L. S., and Musgrave, D. R., 1986, Clover yellow vein virus in white clover (Trifolium repens L.) and sweet pea (Lathyrus odoratus L.) in the North Island of New Zealand, N.Z. J. Agric. Res. 28: 575.
Article Google Scholar
Francki, R. I. B., 1970, Cymbidium mosaic virus, CMI/AAB Descriptions of Plant Viruses No. 27.
Google Scholar
Fry, P. R., 1959, A clover mosaic virus in New Zealand pastures, N.Z. J. Agric. Res. 2: 971.
Article Google Scholar
Fry, P. R., and Young, B. R., 1980, Pea seed–borne mosaic virus in New Zealand, Australasian Plant Pathol. 9: 10.
Article Google Scholar
Gamsey, S. M., Timmer, L. W., and Dodds, J. A., 1984, Tristeza and related diseases, in: Proc. 9th Con f. Int. Org. Citrus Virol., Argentina 1983 ( S. M. Gamsey, L W Timmer, and L. A. Dodds, eds.), pp. 1–99, University of California, Riverside.
Google Scholar
Garrett, R. G., 1983, Confirmation of the presence of clover yellow vein virus in Victoria, Proc. 4th Int. Cong. Plant Pathol., abstract 456.
Google Scholar
Goodchild, D. J., 1956a, Relationships of legume viruses in Australia. I. Strains of bean yellow mosaic and pea mosaic virus, Aust. J. Biol. Sci 9: 213.
Google Scholar
Goodchild, D. J., 1956b, Relationships of legume viruses in Australia. II. Serological relationships of bean yellow mosaic virus and pea mosaic virus, Aust. J. Biol. Sci 9: 231.
Google Scholar
Greber, R. S., 1966, Passion-fruit woodiness as the cause of passion vine tip disease, Queensland J. Agric. Anim. Sci 23: 533.
Google Scholar
Hampton, R. O., and Mink, G. I., 1975, Pea seed–borne mosaic virus, CMI/AAB Descriptions of Plant Viruses No. 146.
Google Scholar
Hollings, M., and Stone, O. M., 1974, Clover yellow vein virus, CMI/AAB Descriptions of Plant Viruses No. 131.
Google Scholar
Holmes, I. R., and Teakle, D. S., 1980, Incidence of potato viruses S, X and Y in potatoes in Queensland, Australasian Plant Pathol. 9 (3): 3.
Article Google Scholar
Hutton, E. M., and Peak, J. W., 1954, Varietal reactions of Trifolium subterraneum to phaseolus virus 2 Pierce, Aust. J. Agric. Res 5: 598.
Article Google Scholar
Jayasena, K. W., and Randles, J. W., 1984, Patterns of spread of the non-persistently transmitted bean yellow mosaic and the persistently transmitted subterranean clover red leaf virus, Ann. Appl. Biol 104: 249.
Article Google Scholar
Knight, T., 1953, The woodiness of the passion vine (Passiflora edulis Sims), J. Agric. Sci 10: 4.
Google Scholar
Lisa, V., and Lecoq, H., 1984, Zucchini yellow mosaic virus, CMI/AAB Descriptions of Plant Viruses No. 282.
Google Scholar
McLean, G. D., Burt, J. R., Thomas, D. W., and Sproul, A. N., 1982, The use of reflective mulch to reduce the incidence of watermelon mosaic virus, Crop Protect. 1: 491.
Article Google Scholar
Mossop, D. W., 1977, Isolation, purification, and properties of tamarillo mosaic virus, a member of the potato virus Y group, N.Z. J. Agric. Res 20: 535.
Article Google Scholar
Munro, D., 1981, Clover yellow vein virus in broad bean, Aust. Plant Pathol. 10:61. Norris, D. O., 1943, Pea mosaic on Lupinus varius L. and other species in Western Australia, Council for Scientific and Industrial Research Bull. No. 170.
Google Scholar
Ovenden, G. E., and Ashby, J. W., 1981, The effect of pea seed borne mosaic virus on yield of peas, Proc. Agron. Soc. N.Z 11: 61.
Google Scholar
Pares, R. D., and Martin, A. B., 1984, Passionfruit viruses in New South Wales, in: Plant Disease Survey 1982–83, p. 22, New South Wales Department of Agriculture, Biology Branch.
Google Scholar
Price, W. C., 1970, Citrus tristeza virus, CMI/AAB Descriptions of Plant Viruses No. 33.
Google Scholar
Randles, J. W., Davies, C., Gibbs, A. J., and Hatta, T., 1980, Amino acid composition of capsid protein as a taxonomic criterion for classifying the atypical S strain of bean yellow mosaic, Aust. J. Biol. Sci. 33: 245.
CAS Google Scholar
Swenson, K. G., and Venables, D. G., 1961, Detection of two legume viruses in Australia, Aust. J. Exp. Agric. Anim. Husbandry 1: 116.
Article Google Scholar
Taylor, R. H., and Greber, R. S., 1973, Passionfruit woodiness virus, CMI/AAB Descriptions of Plant Viruses No. 122.
Google Scholar
Taylor, R. H., and Smith, P. R., 1968, The relationship between bean yellow mosaic and pea mosaic virus, Aust. J. Biol. Sci 21: 429.
Google Scholar
Thornton, I. R., and Stubbs, L. L., 1976, Control of tristeza decline of grapefruit on sour orange rootstock by preinduced immunity, in: Proc. 7th Con f. Int. Org. Citrus Virol. ( E. C. Calavan, ed.), p. 55, University of California, Riverside.
Google Scholar
Watson, M. A., 1949, Some notes on plant virus diseases in South Australia, Aust. Inst. Agric. Sci 15: 76.
Google Scholar
White, N. H., 1945, Plant Disease Survey of Tasmania for the Three Year Period 1943, 1944, 1945, Tasmanian Dept. of Agriculture Monograph.
Google Scholar

Download references

Author information

Authors and Affiliations

Institute of Applied Phytovirology, National Research Council, 10135, Torino, Italy
Robert G. Milne
Washington State University Irrigated Agriculture Research and Extension Center, Prosser, Washington, 999350-0030, USA
Gaylord I. Mink
International Potato Center, Apartado 5969, Lima, Peru
Luis F. Salazar
Plant Pathology Station, National Institute for Agricultural Research, Domaine St. Maurice, 84140, Montfavet, France
Hervé Lecoq & Hervé Lot
Institute of Phytopathology, Aschersleben of the Academy of Agricultural Sciences of the GDR, 4320, Aschersleben, German Democratic Republic
Helmut Kleinhempel & Hartmut Kegler
Department of Plant Pathology, University of Bari, 70126, Bari, Italy
Giovanni P. Martelli
HITS Project, Consortium for International Development, Sana’a, Yemen Arab Republic
Allyn A. Cook
Division of Mycology and Plant Pathology, Indian Agricultural Research Institute, New Delhi, 110 012, India
Anupam Varma
Phytovirologie, ORSTOM, Abidjan, Ivory Coast, West Africa
Claude Fauquet
Microbiology Department, University of Cape Town, Rondebosch, 7700, South Africa
M. Barbara Von Wechmar
Laboratory of Plant Virology, Department of Plant Protection, Beijing Agricultural University, Beijing, China
Wei Fan Chiu
College of Agriculture, University of Osaka Prefecture, Sakai, Osaka 591, Japan
Tadao Inouye
Hokkaido National Agricultural Experiment Station, Sapporo, Hokkaido 004, Japan
Norio Iizuka
National Institute of Agro-Environmental Sciences, Tsukuba, Ibaraki 305, Japan
Mitsuro Kameya-Iwaki
Department of Agriculture, South Perth, Western Australia, 6151, Australia
George D. McLean
Department of Primary Industries and Energy, Canberra, ACT, 2600, Australia
George D. McLean
Plant Diseases Division, DSIR Mount Albert Research Center, Auckland, New Zealand
Don W. Mossop

Authors

Robert G. Milne
View author publications
You can also search for this author in PubMed Google Scholar
Gaylord I. Mink
View author publications
You can also search for this author in PubMed Google Scholar
Luis F. Salazar
View author publications
You can also search for this author in PubMed Google Scholar
Hervé Lecoq
View author publications
You can also search for this author in PubMed Google Scholar
Hervé Lot
View author publications
You can also search for this author in PubMed Google Scholar
Helmut Kleinhempel
View author publications
You can also search for this author in PubMed Google Scholar
Hartmut Kegler
View author publications
You can also search for this author in PubMed Google Scholar
Giovanni P. Martelli
View author publications
You can also search for this author in PubMed Google Scholar
Allyn A. Cook
View author publications
You can also search for this author in PubMed Google Scholar
Anupam Varma
View author publications
You can also search for this author in PubMed Google Scholar
Claude Fauquet
View author publications
You can also search for this author in PubMed Google Scholar
M. Barbara Von Wechmar
View author publications
You can also search for this author in PubMed Google Scholar
Wei Fan Chiu
View author publications
You can also search for this author in PubMed Google Scholar
Tadao Inouye
View author publications
You can also search for this author in PubMed Google Scholar
Norio Iizuka
View author publications
You can also search for this author in PubMed Google Scholar
Mitsuro Kameya-Iwaki
View author publications
You can also search for this author in PubMed Google Scholar
George D. McLean
View author publications
You can also search for this author in PubMed Google Scholar
Don W. Mossop
View author publications
You can also search for this author in PubMed Google Scholar

Editor information

Editors and Affiliations

Institute of Applied Phytovirology, National Research Council, 10135, Torino, Italy
Robert G. Milne

Rights and permissions

Reprints and permissions

Copyright information

About this chapter

Cite this chapter

Milne, R.G. et al. (1988). The Economic Impact of Filamentous Plant Viruses. In: Milne, R.G. (eds) The Plant Viruses. The Viruses. Springer, Boston, MA. https://doi.org/10.1007/978-1-4684-7038-3_11

Download citation

DOI: https://doi.org/10.1007/978-1-4684-7038-3_11
Publisher Name: Springer, Boston, MA
Print ISBN: 978-1-4684-7040-6
Online ISBN: 978-1-4684-7038-3
eBook Packages: Springer Book Archive

Publish with us

Policies and ethics