New hosts of Tomato Spotted Wilt Virus among the medical plants in Bulgaria

Authors

  • Bistra Dikova Institute of Soil Science, Agro-Technology and Plant Protection “Nikola Pushkarov”, Agricultural Academy, Sofia, Bulgaria Author

Keywords:

medical plants; TSWV

Abstract

Tomato spotted wilt virus – TSWV is one of the tenth most wide spread viruses on the world and it is a pathogen for vegetable, flower, some field and medicinal cultures. We have established new for Bulgaria hosts with diseases caused by TSWV in 2012 – 2014 period. They were: Filipendula ulmaria (L.) Maxim – meadowsweet or Queen of the Meadow, Rosaceae family; Nepeta racemosa Lam. – dwarf catmint, Lamiaceae family and Serratula coronata L. – sickle moon, Asteraceae family. Typical symptoms of the three medicinal species caused by TSWV were from light yellow to bright yellow circular or irregular spots on the middle and lower stages of leaves, that they subsequently turned to necrotic spots. The disease caused dwarfing of some plants and decreasing the quantity and the quality of leaves (herba) and flowers. Means of the virus control are preventions of TSWV invasion of the crops by insect pest control of thripses – TSWV transmitters after investigations of this medicinal plants.

References

Янкулов, Й., И. Джамбазов. 2001. Култивиране на лечебни растения. Книга 1. Левзея, Жен-шен. София, стр. 52.

Алиева, М. И., Бездудная, О. А., Володина, С. О., Филиппова, В. Н., Потапов, Г. П. И. Володин, В. В. 2002. Сравнительный аминокислотный соcтав растений - продуцентов экдистероидов. Химия растительного сырья, № 1, 63-68.

Саксонов, С. В., Васюков, В. М., Савенко, О. В., Иванова, А. В. и Раков Н. С. 2007. Уникальный долинный флористический комплекс реки Tашелка в окрестностях села Tашелка Ставропольского района Самарской области. Фиторазнообразие Восточной Европы, № 4, 203-215.

Báthori, M. and Pongrácz, Z. 2005. Phytoecdys teroids – From isolation to Their Effects on Humans. Current Medicinal Chemistry, 12 (2), p. 153-172.

Chatzivassiliou, E. K., Mpoumpourakas, I. Drossos, E. Eleftherohorinos, I. Jenser, G. Peters, D. Katis. N. I. 1998. A different prevalence of weeds susceptible to tomato spotted wilt virus in tobacco and greenhouse cultivated crops in Greece. In: Peters, D. and R. Golbach. Recent progress on tospovirus research, Wageningen Agricultural University, Section Virology, p. 98.

Clark, M. and A. Adams. 1977. Characteristics of the microplate method of enzyme linked Immunosor bent assay for the detection of plant viruses. J. Gen. Virol., 34, p. 475-483.

Dikova, B. 2011. Tomato spotted wilt virus on some medicinal and essential oil-bearing plants in Bulgaria. Bulgarian Journal of Agricultural Science, 17(3), p. 306-313.

Dikova, B., Djourmanski, A., Lambev, H. 2012. Essential Oil-bearing and Medicinal Plants New Hosts of Tomato Spotted Wilt Virus in Bulgaria. Proceedings of International Conference “Ecology – Interdisciplin ary Science and Practice”, Sofia, 25-26 October 2012, Part Two, p. 382-384.

Dikova, B. 2013. essential oil-bearing and medici nal plants – new hosts of Tomato spotted wilt virus in Bulgaria. Science & Technologies, 3 (6), p. 10-16.

Dikova, B., Petrov, N., Djourmanski, A., Lam bev, H. 2013. First Report of Tomato Spotted Wilt Virus on New Host Leuzea carthamoides in Bulgar ia. Plant Disease (pressеd September 2013, PDIS 11-12-1005-PDN); http://mc.manuscriptcentral.com/ plantdisease

Dikova, B., Lambev, H. 2014a. Seasonal dynamics of important for Coriandrum sativum virus pathogens. Agricultural Science and Technology (in press).

Dikova, B., Lambev, H. 2014b. Seasonal dynamics of important for Foeniculum vulgare virus pathogens. Agricultural Science and Technology (in press).

Koschier, E. H., Hoffmann, D., Riefler, J. 2007. Influence of salicylaldehyde and methyl salicylate on post-landing behaviour of Frankliniella occidentalis Pergande. Journal of Applied Entomology, 131 (5), p. 362-367.

Noordam, D. 1973. Identification of Plant Viruses. PUDOC Wageningen.

Sether, D. M. and J. D. DeAngelis. 2002. Tomato Spotted Wilt Virus Host List and Bibliography. Special Report 888 February 1992 of Agricultural Experiment Station Oregon State University.

Shamshev, I. V., Selytskaya, O. G., Chermen kaya, T. D., Burov, V. N, Roditakis, N. 2003. Behav ioural responses of western flower thrips Frankliniella occidentalis Pergande to extract from meadow sweet Filipendula ulmaria Maxim.: laboratory and field bio assays. Archives of Phytopathology and Plant Protec tion, 36 (2), p. 111-118.

Downloads

Published

29.06.2015

Issue

Vol. 52 No. 3 (2015): Bulgarian Journal of Crop Science

Section

Plant Protection

Categories

License

Copyright (c) 2017 Bulgarian Journal of Crop Science

Creative Commons License

This work is licensed under a Creative Commons Attribution-NonCommercial-ShareAlike 4.0 International License.

How to Cite

New hosts of Tomato Spotted Wilt Virus among the medical plants in Bulgaria. (2015). Bulgarian Journal of Crop Science, 52(3), 20-25. https://agriacad.eu/ojs/index.php/bjcs/article/view/3377