Cercospora diseases of Soybean and their diagnostics

Cover Page

Cite item

Full Text

Abstract

In many soybean-growing regions of Russia cercosporosis remains among the most widespread diseases, typically caused by two phytopathogenic fungi: Cercospora sojina Hara and Cercospora kikuchii (Matsumoto & Tomoyasu) Gardner (a quarantine pest in the EAEU). The aim of this study was to assess the regional occurrence of cercosporosis in Russia and to refine the species composition of Cercosporaon soybean seeds and vegetative tissues. Our objectives were to synthesize two years of observations and to propose a practical, first-line diagnostic workflow based on cultural and morphological characters of the pathogens. The work was conducted in 2024–2025 at the All-Russian Plant Quarantine Center (FGBI “VNIIKR”). Over two years, 98 soybean samples were collected from seven regions of Russia (81 vegetative samples and 17 seed samples). In total 11 Cercospora isolates were obtained in pure culture (C. sojina – 5, C. kikuchii – 6). Within our dataset, C. kikuchii was detected only in territories already designated as quarantine phytosanitary zones, whereas C. sojina was more widespread. Molecular diagnostics employed PCR with universal primers ITS4/ITS5 followed by Sanger sequencing of the amplicons. Many samples presenting cercosporosis-like symptoms proved to be associated with other soybean pathogens (genera Diaporthe, Colletotrichum, Alternaria, Epicoccum, Fusarium, Botrytis, Sclerotinia, etc.), whose generic and species identities were confirmed by sequencing. In total, 446 fungal isolates obtained from soybean fields and seed lots were purified and deposited in the FGBI VNIIKR culture collection. The proposed morphological criteria (colony form and color, mycelial growth pattern, reverse pigmentation, and conidial shape and size) help streamline identification of cercosporosis agents on soybean and reduce the risk of false conclusions during monitoring.

About the authors

N. K Kostin

Russian State Agrarian University – Moscow Timiryazev Agricultural Academy; All-Russian Plant Quarantine Center

O. O Beloshapkina

Russian State Agrarian University – Moscow Timiryazev Agricultural Academy

T. P Kolesnikova

Far Eastern State Agrarian University

References

  1. Щегорец О.В., Адаменко С.В. Амурской области 165 лет: три эпохи земледелия, перспективы инновационного развития отрасли растениеводства // АПК России. 2024. Т. 31. №4. С. 515–526. doi: 10.55934/2587-8824-2024-31-4-515-526. EDN PLXMSW.
  2. Соя в мире и России: производство, внутреннее потребление, внешняя торговля: [Электронный ресурс]. ФАНУ «Востокгосплан», 2022. URL : https://vostokgosplan.ru/wp-content/uploads/soja-v-mire-i-rossii-proizvodstvo-vnutrennee-potreblenie-vneshnjaja-torgovlja.pdf Дата обращения: 8.10.2025.
  3. Spanner R., Neubauer J., Grusak M.A. [et al.]. Seedborne Cercospora beticola Can Initiate Cercospora Leaf Spot from Sugar Beet (Beta vulgaris) Fruit Tissue. Phytopathology. 2022. Vol. 112. No5. Pp. 1016–1028. doi: 10.1094/PHYTO-03-21-0113-R. EDN HXUFMW.
  4. Survey of Cercospora leaf spot of spinach caused by Cercospora beticola in South Gujarat. Mm. Senta, Jr. Pandya, Rp. Pandya, Sh. Joshi. International Journal of Farm Sciences. 2023. Vol. 13. No2. Pp. 30–33. – doi: 10.5958/2250-0499.2023.00027.7. – EDN JWUGJT.
  5. Национальный доклад o карантинном фитосанитарном состоянии территории Российской Федерации в 2024 году. Фитосанитария. Карантин растений. 2025. №2(23). С. 2–16. – EDN OXZRWV.
  6. Barro J.P. et al. Frogeye leaf spot caused by Cercospora sojina: A review. Tropical plant pathology. 2023. Vol. 48. No4. Pp. 363–374.
  7. Turner R. E. et al. Effects of purple seed stain on seed quality and composition in soybean. Plants. 2020. Vol. 9. No8. P. 993.
  8. Поликсенова В. Д., Храмцов А. К., Пискун С. Г. Методические указания к занятиям спецпрактикума по разделу «Микология» // Методы экспериментального изучения микроскопических грибов. Мн.: БГУ, 2004. 36 с.
  9. White T. J. et al. Amplification and direct sequencing of fungal ribosomal RNA genes for phylogenetics // PCR protocols: a guide to methods and applications. 1990. Vol. 18. No1. Pp. 315–322.
  10. Кузнецова А.А., Сурина Т.А., Костин Н.К. Определение биологической эффективности фунгицидов против карантинных возбудителей болезней зерновых, бобовых и масличных культур в лабораторных условиях // Фитосанитария. Карантин растений. 2025. №1(22). С. 15-25. doi: 10.69536/FKR.2025.42.94.002. EDN ZALFOG.

Supplementary files

Supplementary Files
Action
1. JATS XML
Download

Согласие на обработку персональных данных

 

Используя сайт https://journals.rcsi.science, я (далее – «Пользователь» или «Субъект персональных данных») даю согласие на обработку персональных данных на этом сайте (текст Согласия) и на обработку персональных данных с помощью сервиса «Яндекс.Метрика» (текст Согласия).