АЖУРИРАЊЕ СТАТУСА ТРШЊЕ У БУГАРСКОЈ ВИРУС ХЛОРОТИЧНЕ ЛИСТНЕ ПЕГА ЈАБУКЕ (ACLSV)

  • Aneliya Borisova Institute of Agriculture - Kyustendil

Sažetak


Sweet cherry (Prunus avium L.) is one of the most important stone fruit species in Bulgaria. Cherry is susceptible to many viruses to gather better insight into the phyto-virologic status of sweet cherry, outside the Ilarviruses, a survey was carried out for the presence of apple chlorotic leaf spot virus (ACLSV), cherry leafroll virus (CLRVR), and raspberry ringspot virus (RpRSV) in 32 commercial and 6 collection orchards in ten regions in Bulgaria, between 2017–2022. In total 1503 sweet cherry samples were collected from symptomatic trees as well as from symptomless ones. These samples were tested by Cocktail ELISA for ACLSV and DAS-ELISA for CLRVR, RpRSV аnd additionally for prune dwarf virus (PDV) and prunus necrotic ringspot virus (PNRSV) in order to establish mixed infections. From all three assessed viruses (ACLSV, CLRSV, and RpRSV) only ACLSV was detected in commercial and collection sweet cherry orchards in all regions with intensive cherry cultivation in Bulgaria. The level of ACLSV virus infection was 8.8%. The most frequent was single ACLSV infection representing 79.6% of infected sweet cherry trees, followed by ACLSV and PDV (14.4%) and the lowest one was ACLSV and PNRSV (6.0%). The presence of ACLSV in orchards of different ages, including ‘young’ ones, indicated the need to use virus-free propagating material when establishing new fruit orchards to prevent the spread of pathogens with planting material.

Reference

Borisova, A. (2005). Preliminary results of the study on the spread of apple chlorotic leaf spot virus (ACLSV) in different fruit tree species in Kyustendil region of Bulgaria. Notulae Botanicae Horti Agrobotanici Cluj-Napoca  XXXIII, 81– 85.


Borisova, A., & Christov, N. (2014). Detection of viruses infecting sweet cherry cultivars and elites at the Institute of Agriculture-Kyustendil, Bulgaria. Turkish Journal of Agricultural and Natural Sciences,  Special Issue  1,701-705.


Borisova, A., Kamenova, I., & Borovinova, M. (2013). Viral and fungal  diseases of stone fruit species in Kyustendil region. Journal of Mountain Agriculture on the Balkans, vol. 16, 1, 164-182.


Borisova, А., Kamenova I., & Krumov S. (2021). Incidence of ilarviruses in cherry nurseries and newly established orchards. Journal of Central European Agriculture, 22(4), 771-776.


Çevik, B., Yardimci, N., & Çulal-Kiliç, H. (2011). Detection of viruses infecting stone fruits in western Mediterranean region of Turkey. Plant Pathology Journal, 27, 44-52.


Clark, M. F., & Adams, A. N. (1977). Characteristics of the microplatemethod of enzyme-linked immunosorbent as-say for the detection of plant viruses. Journal of General Virology, 34, 475-483.


Deltedesco, E., Niedrist, M., & Oettl, S.(2022). Occurrence of cherry viruses in South Tyrol (Italy) by comparing growth periods in two consecutive years. Phytopathologia Mediterranea, 61(2), 395-404.


Desvignes, J.C. & Boye, R. (1989). Different diseases caused by the chlorotic leafspot virus on the fruit trees. Acta Horticulturae, 235, 31-38.


Eastwell, K.C. & Howell, W.E. (2010). Characterization of Cherry leafroll virus in sweet cherry in Washington state. Plant Disease, 94, 1067.


Flegg, C.L., & Clark M.F. 1979. The detection of apple chlorotic leafspot virus by a modified procedure of enzyme–linked immunosorbent assay. Ann. Appl. Biol. 91: 61-65


Kamenova, I., Borisova, A., & Popov, A. (2020). Occurrence of Ilarviruses in sweet and sour cherry in Bulgaria. Bulgarian Journal of Agricultural Science, 26 (3), 590–597


Liu,P., Li, Z., Song, S., &  Wu, Y.(2014). Molecular variability of Apple chlorotic leaf spot virus in Shaanxi, China. Phytoparasitica, 42, 445–454.


Lutes, L.A., &  Pscheidt, J.W. (2018). First Report of Cherry leaf roll virus on Sweet Cherry in Oregon. Plant Disease, 102, 691.


MA (2022) Department "Agrostatistics". Bulietin 403 "Fruit Production in Bulgaria – harvest '2021", [Online] from https://www.mzh.government.bg/media/filer_public/2022/04/26/ra403_publicationfruits_2021.pdf


Mandic, B., Matic, S., Rwahnih, M.A., Jelkmann, W., & Myrta, A. (2007). Viruses of sweet and sour cherry in Serbia. Journal of Plant Pathology, 89, 103–108.


Martelli, G., & Uyemoto, J. (2011). Nematode-borne viruses of stone fruits. In: Hadidi A, Barba M, Candresse T and Jelkmann W (eds). Virus and Virus-like Diseases of Pome and Stone Fruits. American Phytopathological Society Press, St. Paul, MN, USA. pp. 161–170


Milusheva, S., & Zhivondov, A. (2009). Spread of some sap transmissible viruses in cherry. Plant Science, 46 (1), 63-66.


Milusheva, S., Malchev, S., & Zhivondov, A. (2014). Virus status of new bred cherry cultivars and elites. Bulgarian Journal of Agricultural Science, 20, 1137-1141.


Myrta, A., & Savino, V. (2008). Virus and virus-like diseases of cherry in the Mediterranean region. Acta Horticulturae, 795, 891- 896.


Nemeth, M. (1986). Virus, Mycoplasma and Rickettsia Diseases of Fruit Trees. Martinus Nijhoff Publishers, The Netherlands and Akademini Kiado, Hungary.


Pavliuk, L. , Udovychenko, K., Riaba, I., & Bublyk, M. (2021). Detection of sour and sweet cherry viruses in Ukraine. Agronomy Research, 19(1), 199209.


Rana, T., Chandel V., Hallan ,V., & Zaidi A.A. (2011). Expression of recombinant Apple chlorotic leaf spot virus coat protein in heterologous system: production and use in immunodiagnosis. Journal of Plant Biochemistry and Biotechnology, 20, 138–141.


Sánchez, R. P., Corts, R. M., Benavides, P. G., Sánchez, M., & Ángeles G. (2015). Main viruses in sweet cherry plantations of Central-Western Spain. Scientia Agricola, 72(1), 83-86.


Sutic, D.D., Ford, R.E., & Tosic, M.T. (1999). Handbook of Plant Virus Diseases. CRC Press. London, New York, Washington.


Tryapitsina, N.V., &Vasiuta, S.O. (2010). Regional features of the spread of nepovirus of sweet cherry leaf twisting in sour and sweet cherry orchards. Agricultural microbiology, 12,130139. (in Ukrainian).


Ulubaş, C. (2008). Viral diseases diagnosed by DAS-ELISA and RT-PCR of sour and sweet cherry trees from different provinces of Turkey.  Acta Horticulturae, 795, 909-912.


Wetzel, T., & Krczal, G. (2007). Molecular biology of Raspberry ringspot nepovirus. Plant Viruses, 1, 45–51.


Zagrai, L. A., Zagrai, I., Guzu, G. M., Roșu-Mareș, S. D., & Moldovan, C. (2022). Assessment of the virus infections occurrence in new established plum and sweet cherry orchards in Transylvania, Romania.  Notulae Botanicae Horti Agrobotanici Cluj-Napoca 50(2), 12734.

Objavljeno
2024/03/30
Rubrika
Prethodno saopštenje