Strawberry vein bordering virus (SVBV) is a dangerous strawberry pathogen

Strawberry vein bordering virus (SVBV) is a harmful strawberry pathogen and is spread in a number of European countries that supply the planting material of this crop to the Russian Federation. The virus spreads effectively with infected planting material and several aphid vectors. The climatic and agroecological conditions of many regions of the Russian Federation are favorable for the acclimatization and wide spread of this pathogen. SVBV is a quarantine object of European and Mediterranean Plant Protection Organization (EPPO) and several countries of the world. However, this dangerous pathogen is not regulated by the quarantine lists of the Eurasian Economic Union (EAEU) and the Russian Federation. The most effective measure to prevent the spread of SVBV is the use of virus-free planting material obtained in accordance with an internationally recognized certification scheme. The most important measures to prevent the spread of SVBV are the control of aphid vectors and the reduction of the duration of the operation of the strawberry plantations. In existing plantations, due to the lack of registered antiviral drugs, the fight against viruses is difficult and consists in the removal and destruction of infected plants.

Strawberry vein banding virus, prevalence, host plants, aphid vectors, harmfulness, diagnostic methods

1. Frazier N. W. Strawberry vein banding virus, Phytopathology. 1955;45:307-312.

2. Frazier N. W., Converse R. H. Strawberry vein banding virus, Description of Plant Viruses. Commonwealth Mycological Institute and the Association of Applied Biologists. 1980;219:8.

3. Converse R. H. (Editor) Virus diseases of small fruits, Agriculture Handbook, USDA. 1987;631:277.

4. Mullin R. H., Morris T. J., Schlegel D. E. Current research on strawberry virus diseases. IV. Experimental transmission of five strawberry viruses to Sanguisorba minor, the garden burnet, California Strawberry Advisory Board, Strawberry News Bulletin. 1980;26(14):4.

5. Pomazkov Yu.I. Viral diseases of fruit and berry crops in the Non-Chernozem zone: author’s abstract of doctoral dissertation in agriculture. Moscow, 1975, 34 p. (In Russ.)

6. Kitajima J., Betti A., Costa A. S. Strawberry vein banding virus, a member of the cauliflower mosaic virus group, Journal of General Virology. 1973;20:117-119.

7. Stenger D. C., Mullin R. H., Morris T. J. Isolation, molecular cloning, and detection of Strawberry vein banding virus DNA, Phytopathology. 1988;78(2):154-159.

8. Petrzik K., Benes V., Mraz I., Honetslegrova-Franova J., Ansorge W., Spak J. Strawberry vein banding virus - definitive member of the genus Caulimovirus, Virus Genes. 1998;16(3):303-305.

9. Mahmoudpour A. Molecular biology of strawberry vein banding caulimovirus: Molecular characterization, diagnosis and host range of SVBV, LAP Lambert Academic Publishing. 2009, 108 p.

10. Feng M., Zhang H., Pan Y., Hu Y., Chen J., Zuo D., Jiang T. Complete nucleotide sequence of Strawberry vein banding virus Chinese isolate and infectivity of its full-length DNA clone, Virology J. 2016;13(1):164.

11. Kuluev B.R. Caulimoviruses and their whole genome promoters. Biomika, 2012;4(1):1-19. (In Russ.)

12. Frazier N. W. Diff erential transmission of four strains of Strawberry vein banding virus by four aphid vectors, Plant Disease Reporter. 1960;44:436-437. 13. CABI, 2020. URL: https://www.cabi.org.

13. Frazier N. W., Morris T. J. Strawberry vein banding// In: Converse RH, ed. Virus diseases of small fruits. USDA Agriculture Handbook . 1987;632:16-20.

14. Morris T. J., Mullin R. H., Schlegel D. E., Cole A., Alosi M. C. Isolation of a caulimovirus from strawberry tissue infected with Strawberry veinbanding virus, Phytopathology. 1980;70(2):156-160.

15. Anon, 2006. Strawberry vein banding virus. A Guide for Diagnosis & Detection Of Quarantine Pests, Bureau of Plant Pest Surveillance and Pest Risk Analysis, Islamic Republic of Iran, Ministry of Jihad-e-Agriculture Plant Protection Organization. 2006, 8 p.

16. Spiegel S., Martin R. R. Virus and virus-like diseases. In: Maas JL, ed. Compendium of strawberry diseases. St. Paul, USA: APS Press, The American Phytopathological Society. 1998:62-63.

17. Martin R. R., Heflebower R. F., Hokanson S. C., Maas J. L., Rouse R. Survey of strawberry viruses occurring in commercial plantings in the State of Maryland, USA. Acta Horticulturae. 2001;551:71-74.

18. Fránová-Honetslegrová J., Mráz I., Nebesá¢ová J., Sfp M. Preferential banding of secondary veins in strawberry is caused by mixed virus infection, Acta Virologica. 1999;43:349-355.

19. Honetslegrová J., Mráz I., Spak J. Detection and isolation of Strawberry vein banding virus in the Czech Republic// Acta Horticulturae. 1995;385:29-32.

20. Sofy A. R. First molecular characterization of Strawberry vein banding virus naturally spread in mixed infection with fruit phyllody phytoplasma in Egypt, Int J Virol Mol Biol. 2015;4:23-36.

21. Bolton A. T. Effects of three virus diseases and their combinations on fruit yield of strawberries, Canadian Journal of Plant Science. 1974;54(2):271-275.

22. Frazier N. W. Six new strawberry indicator clones evaluated for the detection and diagnosis of twelve graft-transmissible diseases, Plant Disease Reporter. 1974;58:28-31.

23. OEPP/EPPO, 2008. PM 4/11(2) Certification scheme for strawberry, Bulletin OEPP/EPPO Bulletin. 2008;38:430-434.

24. EPPO, 2020. EPPO Global Database, 2020. https://gd.eppo.int/

25. E. A. Egorov, Zh. А. Shadrina, G. А. Kochyan, I. M. Kulikov, A. A. Borisova The role of breeding and nursery centers in the innovative development of the horticulture industry, Sadovodstvo i vinogradarstvo. 2020;4:49-57. (In Russ.)

26. Mraz I., Petrzik K., Franova-Honetslegrova J., Sip M. Detection of Strawberry vein banding virus by polymerase chain reaction and dot blot hybridization, Acta Virologica. 1997;41:241-242.

27. Thompson J. R., Wetzel S., Klerks M. M., Vašková D., Schoen C. D., Špak J., Jelkmann W. Multiplex RT-PCR detection of four aphid-borne strawberry viruses in Fragaria spp. in combination with a plant mRNA specific internal control, Journal of Virological Methods. 2003;111(2):85-93.

28. Vaskova D., Spak J. Improved diagnostic tools for the certification of strawberry propagation material – the use of PCR and NASBA for detection of Strawberry vein banding virus (SVBV), Plant Protection Science. 2002;38:24-27.

29. Vaskova D., Spak J., Klerks M.M., Schoen C.D., Thompson J.R., Jelkmann W. Real-time NASBA for detection of Strawberry vein banding virus, European Journal of Plant Pathology. 2004;110(2):213-221.

30. Ratti C., Pisi A., Rubies C., Babini A., Vicchi V. First report of Strawberry vein banding virus on strawberry in Italy, Plant Disease. 2009;93(6):675.

31. Mumford R. The improvement of diagnostic capabilities for the soft-fruit industry: the development of rapid and sustainable alternatives for strawberry virus testing, Agriculture and Horticulture Development Board. 2009, 21 p.

32. Technological process for obtaining virus-free planting material for fruit and small fruit crops. Moscow: MSKH RF, Rossel’khozakademiya, VSTISP, 2001, 108 p.