Preview

Plant Health and Quarantine

Advanced search

Biological efficiency of experimental biopreparations against a complex of fungal diseases of cherries in Moscow Oblast

https://doi.org/10.69536/FKR.2026.56.69.002

Abstract

Cherry (Prunus cerasus) is one of the most important stone fruit crops, but its productivity is significantly limited by a range of fungal diseases, the most economically significant of which are moniliosis (Monilinia spp.), leaf blight of cherry (Blumeriella jaapii), and shoot blight of cherry (Thyrostroma carpophilum, synonym Wilsonomyces). This paper presents the results of field studies conducted in 2024–2025 at the All-Russian Plant Quarantine Center in Moscow Oblast, using small-plot trials on the Belye Zhuravli cherry variety. The biological effectiveness of protective measures using experimental biopreparations based on the Bacillus pumilus BZR483 and B. amyloliquefaciens BZR924 strains was assessed. The use of the preparations significantly reduced the development of leaf blight and shoot blight of cherry compared to the control under conditions of a high infection load (2024). Biological effectiveness against leaf blight of cherry was 28.3% (BZR483) and 51.1% (BZR924). The effectiveness reached 21.1% (BZR483) and 61.9% (BZR924) Against leaf blight of cherry in 2024.

Moreover, in 2025, under conditions of a low infectious background, the development of leaf blight of cherry was reliably reduced only with the use of BZR924, the biological effectiveness was 56.5%, the development of shoot blight of cherry was sporadic.

A product based on the B. amyloliquefaciens strain BZR924 demonstrated higher and more stable activity against both diseases. These results demonstrate the potential for further research into the impact of an experimental bioproduct based on the BZR924 strain on the development of fungal pathogens in biologized and integrated cherry protection systems.

About the Authors

A. A. Brigadirov
All-Russian Plant Quarantine Center (FGBU “VNIIKR”)
Russian Federation

Andrey Brigadirov, Junior Researcher, Research and Methodology Department of Experimental Evaluation of Biological Effectiveness of Biopreparations and Disinfection

Bykovo, Ramenskoye, Moscow Oblast, 140150



N. A. Gorlova
All-Russian Plant Quarantine Center (FGBU “VNIIKR”)
Russian Federation

Natalya Gorlova, Junior Researcher, Laboratory of the State Collection of Quarantine Pests

Bykovo, Ramenskoye, Moscow Oblast, 140150



A. S. Karasheva
All-Russian Plant Quarantine Center (FGBU “VNIIKR”)
Russian Federation

Areza Karashaeva, PhD in Agriculture, Senior Researcher – Head of Research and Methodology Department of Experimental Evaluation of Biological Effectiveness of Biopreparations and Disinfection

Bykovo, Ramenskoye, Moscow Oblast, 140150



A. I. Khomyak
Federal Scientific Center for Biological Plant Protection (FSBSI FRCBPP)
Russian Federation

Anna Khomyak, Researcher, Microbiological Plant Protection Laboratory

Krasnodar, Krasnodar Krai, 350039



References

1. Brigadirov A.A. et al. Use of biological control agents against moniliosis on cherries in Tambov Oblast [Primeneniye agentov biologicheskogo kontrolya protiv monilioza na vishne v Tambovskoy oblasti] / Bulletin of Russian agricultural science. 2025; 6: 47-52. (In Russ.)

2. Kulikov I.M., Upadyshev M.T., Golovin S.E. Phytosanitary problems of horticulture / Plant Health and Quarantine. 2014; 6: 3–5. (In Russ.)

3. Guidelines for registration tests of fungicides in agriculture [Metodicheskiye ukazaniya po registratsionnym ispytaniyam fungitsidov v sel’skom khozyaystve] / edited by V.I. Dolzhenko. St. Petersburg, 2009. pp. 266–286. (In Russ.)

4. Mishchenko I.G. Development of plum leaf blight in Krasnodar Krai [Osobennosti razvitiya klyasterosporioza slivy v Krasnodarskom kraye] / Magarach. Viticulture and winemaking. 2020; 22 (4): 350-354. (In Russ.)

5. Prokopenko V.R. The negative impact of pesticides on human health and the environment [Otritsatel’noye vliyaniye pestitsidov na zdorov’ye cheloveka i okruzhayushchuyu sredu] / Science and Youth. 2022: 212–215. (In Russ.)

6. Efficiency of biological control agents Bacilluspumilus BZR 483 and Bacillus amyloliquefaciens BZR 924 against Monilinia fructigena on cherries in Tambov Oblast / A.A. Brigadirov, N.A. Gorlova, A.I. Khomyak, N.Ya. Kashirskaya / Plant Health and Quarantine. 2024; S4-3 (20):13. – EDN OBKUFY.

7. Ahmadpour A. Review of shot-hole disease of stone-fruit trees / University of Yasouj Plant Pathology Science. 2018; 7(2): 1–13.

8. Andersen K.L. et al. Assessment of the inheritance of resistance and tolerance in cherry (Prunus sp.) to Blumeriella jaapii, the causal agent of cherry leaf spot / Plant pathology. 2018; 67 (3): 682–691.

9. Farooq M., Nabi A., Khursheed S., Padder B.A., Sofi T.A., Masoodi K.Z., Hamid S., Shah M.D. Whole genome sequencing of Wilsonomyces carpophilus, an incitant of shot hole disease in stone fruits: insights into secreted proteins of a necrotrophic fungal repository. Mol. Biol. Rep. 2023 May; 50 (5): 4061–4071. DOI: 10.1007/s11033-023-08243-5. Epub 2023 Mar 6. PMID: 36877348.

10. Fira D. et al. Biological control of plant pathogens by Bacillus species / Journal of biotechnology. 2018; 285: 44–55.

11. Gleason J. et al. Resistance to boscalid, fluopyram and fluxapyroxad in Blumeriella jaapii from Michigan (USA): molecular characterization and assessment of practical resistance in commercial cherry orchards / Microorganisms. 2021; 9(11): 2198.

12. Holb I.J. Some biological features of cherry leaf spot (Blumeriella jaapii) with special reference to cultivar susceptibility / International Journal of Horticultural Science. 2009; 15(1–2): 91–93.

13. Hrustić J. et al. Monilinia spp. causing brown rot of stone fruit in Serbia / Plant disease. 2015; 99 (5): 709–717.

14. Larena I. et al. Epidemiological studies of brown rot in Spanish cherry orchards in the Jerte Valley / Journal of Fungi. 2021; 7(3): 203.

15. Luo C.X., Schnabel G. Adaptation to fungicides in Monilinia fructicola isolates with different fungicide resistance phenotypes / Phytopathology. 2008; 98 (2):230–238.

16. Obi V.I., Barriuso J.J., Gogorcena Y. Peach brown rot: still in search of an ideal management option / Agriculture. 2018; 8 (8): 125.

17. Outwater C.A. et al. Boscalid resistance in Blumeriella jaapii: distribution, effect on field efficacy, and molecular characterization / Plant disease. 2019; 103 (6):1112–1118.

18. Wilson E.E. The shot-hole disease of stonefruit trees. – 1937.

19. Yousefi A., Hajian Shahri M. Shot hole disease, survival and pathogenicity of the causal agent on stone fruit trees in Northeast Iran / Journal Crop Protection. 2014; 3: 563–571.

20. Zhang N. et al. Biocontrol mechanisms of Bacillus: Improving the efficiency of green agriculture / Microbial Biotechnology. 2023; 16(12): 2250–2263.

21. Zhou Y. et al. Fusarium species associated with cherry leaf spot in China / Plants. – 2022; 11 (20); 2760.

22. Zubrod J.P. et al. Fungicides: an overlooked pesticide class? / Environmental science & technology. – 2019. – Т. 53. – № 7. – С. 3347–3365.

23. FSBSI FRCBPP. URL: https://fncbzr.ru/brk-i-unu/unique-installation-2/ (last accessed: 05.02.2026).


Review

For citations:


Brigadirov A.A., Gorlova N.A., Karasheva A.S., Khomyak A.I. Biological efficiency of experimental biopreparations against a complex of fungal diseases of cherries in Moscow Oblast. Plant Health and Quarantine. 2026;(2):25-34. (In Russ.) https://doi.org/10.69536/FKR.2026.56.69.002

Views: 70

JATS XML


Creative Commons License
This work is licensed under a Creative Commons Attribution 4.0 License.


ISSN 2782-327X (Print)