Biological characteristics of viruses that infect sugar beet
DOI:
https://doi.org/10.30835/2413-7510.2013.42008Keywords:
Beta vulgaris, virus, gene, RNAAbstract
One of the causes of reduction in sugar beet production inUkraineis viral disease extension.
Aim. Classification of available data on biological features of viruses affecting sugar beet.
Methods. Analysis of recent literature on 12 agents of viral diseases belonging to 11 genera and 9 families.
Results and Discussion. Literature sources on viruses have been analyzed.
Conclusions. A thorough diagnostics of viruses in beet plants, weeds and soil is necessary to determine rates of viral disease extension in sugar beet and to develop protective measures.
References
Roik MV, Nurmukhammedov A, Kornienko A. 2004. Diseases of sugar beetroots. Kiev : Poligrafkonsalting, p. 224.
King Andrew M, Michael Adams J, Elliot Lefkowitz J, Eric B. 2012. Carstens Virus Taxonomy: Ninth Report of the International Committee on Taxonomy of Viruses. Elselver Academic Press, р. 1327
Rogov VV, Karasev AV, Agranovsky AA. 1993. Purification and some properties of an isolate of beet yellows virus from Ukraine. Journal of Phytopathology 137:79–88.
Watson MA. 1946. The transmission of Beet mosaic and beet yellows virus by aphids; a comparative study of a non-persistent and a persistent virus having host plants and vectors in common. Proc R Soc Med 133:200–219.
Sylvester ES. 1956. Beet yellows virus transmission by the green peach aphid. Jour. Econ Ent 49:789–800.
Vlasov YuI, Larina EI. 1982. Agricultural virology. Moskva : Kolos, p. 237.
Bennett CW. 1960. Sugar beet yellows disease in the United States. Washington : U.S. Dept. of Agriculture : p. 63.
Milne RG. 1988. The Filamentous plant viruses. New York : Plenum Press 4:325.
Rogov VV. 1991. Studies of properties of sugar beet viruses and methods for their immunodiagnostics [abstract dissertation]. Kiev: Urozhay, p. 12.
Shpaar D. 2006. Sugar beet. Growing, harvesting and storage. Moskva : DLV Agrodelo, p. 207.
Vlasov DYu. 1986. Studies of the development cycle Polymyxa betae. Mikologia i phitopatologia 20(5):350–353.
Hibbs А, Harrison B. Fundamentals of plant. Moskva: Mir, p. 429.
Proeseler G. 1966. Relationships between Piesma quadratum and beet leaf curl virus. I. Experiments of virus transmissibility and rearing of the vector. Phytopathologische Zeitschrift 56:191–211.
Hoffmann GH, Schmutterer H. 1983. Parasitäre Krankheiten und Schädlinge an landwirtschaftlichen Kulturpflanzen. Stuttgart : Verlag Eugen Ulmer: p. 488.
Duffus JE. 1972. Beet western yellows virus. Database of plant viruses Association of Applied Biologist. Available from: http:/www.dpvweb.net. — DPV 89.
Martelli GP, Agranovsky AA, Bar-Joseph M, Boscia D. 2002. The family Closteroviridae revised. Arch Virol 147(10):2039–2044.
Farzadfar S, Pourrahim R, Golnaraghi AR, Ahoonmanesh A. 2007. Surveys of Beet necrotic yellow vein virus, Beet soil-borne virus, Beet virus Q and Polymyxa betae in sugar beet fields in Iran. Plant Pathol 89:277–281.
Asher MJC. 1993. Rhizomania. In: Cooke DA, Scott RK. The sugar beet crop, Science into practice. Chapman and Hall, London, p. 311–346.
Kaufmann A, Koenig R, Rohloff H. 1993. Influence of beet soil-borne virus on mechanically inoculated sugar beet. Plant Pathol 42:413–417.
Lesemann DE, Koenig R, Lindsten K, Henry C. 1989. Serotypes of beet soil-borne furovirus from FRG and Sweden. Buttetin OEPP/EPPO Bulletin : p. 539–540.
Henry CM,. Jones RAC, Coutts RHA. 1986. Occurrence of a soil-borne virus of sugar beet in England. Plant pathology 35:585–591.
Meunier A, Schmit JF, Stas A, Kutluk N, Bragard C. 2003. Multiplex reverse transcription-PCR for simultaneous detection of beet necrotic yellow vein virus, Beet soilborne virus, and Beet virus Q and their vector Polymyxa betae on sugar beet. Appl Environ Microbiol 69:2356–2360.
Yuan X, Cao Y, Xi D, Guo L, Han C, Li D, Zhai Y, Yu J. 2006. Analysis of the subgenomic RNAs and the small open reading frames of Beet black scorch virus. Jour Gen Virol 87:3077–3086.
Weiland JJ, Van Winkle D, Edwards MC,. Larson RL, Shelver WL, Freeman TP, Liu HY. 2007. Characterization of a U.S. Isolate of Beet black scorch virus. Phytopathology 97:1245–1254.
Szego A. 2009. Distribution, persistence and molecular characterization of cryptic and endornaviruses. In: Supervisor Noémi Lukács (PhD): University of Budapest Department of Plant Physiology and Plant Biochemistry; Budapest.
Russell GE. 1958. Sugar beet yellows: a preliminary study of the distribution and interellationships of viruses, and virus strains found in East Anglia. Ann appl Biol 46:393.
Creamer R, Luque-Williams M, Howo M. 1996. Epidemiology and incidence of Beet curly top geminivirus in naturally infected weed hosts. Plant Disease 80:533–535.
Downloads
Published
Issue
Section
License
Copyright (c) 2015 І. М. Андрусик, І. О. Антіпов
This work is licensed under a Creative Commons Attribution 4.0 International License.
When placing the text in electronic resources, the copyright is reserved by the author of a publication.
Authors may not agree with referee’s(s’) comments and remarks of the Editorial Board, rationalizing their point of view.
Authors may require clarification from or the Editorial Board or changes in the event of significant errors in their article.
Authors can use materials published in the journal Selection and Seed Industry in their work, mandatorily referring to our journal.