References

vavilov

Вавиловский журнал генетики и селекции

Vavilov Journal of Genetics and Breeding

2500-3259

Institute of Cytology and Genetics of Siberian Branch of the RAS

10.18699/VJ20.609

vavilov-2543

Research Article

СЕЛЕКЦИЯ РАСТЕНИЙ НА ИММУНИТЕТ

PLANT BREEDING FOR IMMUNITY

Эпифитотический процесс септориоза на сортах яровой пшеницы

Septoriablotch epidemic process on spring wheat varieties

Торопова

Е. Ю.

Toropova

E. Yu.

Новосибирск;

р.п. Большие Вяземы, Одинцовский район, Московская область

Novosibirsk;

r. p. Bolshie Vyazemy, Odintsovo district, Moscow region

89139148962@yandex.ru

Казакова

О. А.

Kazakova

O. A.

Новосибирск;

р.п. Большие Вяземы, Одинцовский район, Московская область

r. p. Bolshie Vyazemy, Odintsovo district, Moscow region

https://orcid.org/0000-0001-9225-5227

Пискарев

В. В.

Piskarev

V. V.

р. п. Краснообск, Новосибирская область

Новосибирский государственный аграрный университет; Всероссийский научно-исследовательский институт фитопатологииРоссияNovosibirsk State Agrarian University; All-Russian Research Institute of PhytopathologyRussian Federation

Сибирский научно-исследовательский институт растениеводства и селекции – филиал Федерального исследовательского центра Институт цитологии и генетики Сибирского отделения Российской академии наукРоссияSiberian Research Institute of Plant Production and Breeding – Branch of the Institute of Cytology and Genetics of Siberian Branch of the Russian Academy of SciencesRussian Federation

2020

23042020

242139148

2020

Торопова Е.Ю., Казакова О.А., Пискарев В.В.

Toropova E.Y., Kazakova O.A., Piskarev V.V.

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

https://vavilov.elpub.ru/jour/article/view/2543

Септориоз листьев и колоса яровой пшеницы – одна из наиболее экономически значимых инфекций в Сибирском регионе. В системах контроля септориоза основным экологически безопасным элементом являются устойчивые сорта, которые тормозят или останавливают развитие эпифитотическо-го процесса путем замедления размножения возбудителей септориоза. Цель работы состояла в уточнении видового состава возбудителей септориоза по регионам Западной Сибири и сортам яровой пшеницы, исследовании эпифитотического процесса септориоза дифференцированно на листьях и колосьях сортов, а также в оценке активности семенной передачи Рarastagonospora nodorum. Исследования проводили в 2016– 2018 гг. по общепринятым методикам. В Западной Сибири септориоз листьев и колоса яровой пшеницы ши-роко распространен: 35 % по показателю развития болезни и 90 % по распространенности. Видовой состав возбудителей септориоза представлен Р. nodorum, Septoria triticiи P. avenaef. sp. triticae, причем соотношение видов изменялось по регионам. В Новосибирской области отмечено полное доминирование Р. nodorum, S. tritici встречался в 13.8 раза реже, а P. avenaef. sp. triticaeединично. В Тюменской области доминирование Р. nodorumне было таким безусловным и нарушалось в некоторых географических пунктах S. triticiи P. avenae f. sp. triticae. В Алтайском крае во всех точках учета преобладал Р. nodorum; S. triticiи P. avenaef. sp. triticae встречались повсеместно, но в 5.6 и 8.6 раза реже соответственно. Изучение сортов яровой пшеницы разного происхождения не позволило выявить иммунных к септориозу листьев и колоса форм. Установлено дифференцированное проявление признаков устойчивости к септориозу листьев и колоса, выделены сорта, сочетающие пониженную восприимчивость к септориозу и листьев, и колоса. Инфицированность семян фитопатогеном в регионах Сибири достигала 7 экономических порогов вредоносности и в значительной степени (52.5 %) определялась погодными условиями августа. Изучение коллекций сортов из трех регио-нов Сибири позволило вы явить следующую тенденцию: наиболее активно передача P. nodorumс семенами сортов шла в Новосибирской области (7.6 %), в меньшей степени – в Омской (5.7 %); самая благополучная фитосанитарная ситуация была в Курганской области: сорта передавали P. nodo rumв слабой степени (2.1 %), ниже экологического порога вредоносности.

The Septoriablotch of spring wheat leaves and ears is one of the most economically significant infections in the Siberian region. In the control systems of Septoriablotch the main ecologically safe element is resistant varieties, which are designed to slow down the pathogens reproduction rate and slow down or stop the development of the epiphytotic process. The purpose of the work was to clarify the species composition of Septoriablotch pathogens for West Siberian regions and spring wheat varieties, to study the epiphytotic process of Septoriadifferentially on the leaves and ears of varieties, and to evaluate the activity of seed transmission of Parastagonospora nodorum. Studies were carried out in 2016–2018 according to generally accepted methods. Septorialeaf and ear blotch of spring wheat is widespread in West Siberia and the Trans-Urals, causing a decrease in yield by up to 50 % or more with the deterioration in grain quality. The causative agents of the disease are P. nodorum, Septoria tritici, and P. avenaef. sp. triticae, and the species ratio varied across the regions and varieties, and within plant organs. In Novosibirsk Region, P. nodorumcompletely dominated; S. triticiwas 13.8 times less common; and P. avenae f. sp. triticaewas a singleton. In Tyumen Region, the dominance of P. nodorumwas disrupted in some geographic locations by S. triticiand P. avenaef. sp. triticae. In Altai Krai, P. nodorumpredominated at all points studied; S. tritici and P. avenaef. sp. triticaewere found everywhere, but 5.6 and 8.6 times less often, respectively. The study of spring wheat varieties of different origins has not revealed any samples immune to Septoriablotch. A differen tiated manifestation of resistance to Septorialeaf and ear disease has been established. Some varieties show complex resistance, combining reduced susceptibility to Septorialeaf and ear disease. Seed infection with P. nodorumin the regions of Siberia reached 7 thresholds and was largely (52.5 %) determined by the August weather conditions. The study of the collection of spring wheat varieties from three Siberian regions has revealed the following trend. Transmission of P. nodorumwith the seeds of varieties was the most active (7.6 %) in Novosibirsk Region and somewhat weaker in Omsk Region (5.7 %). The most favorable phytosanitary situation was in Kurgan Region, where varieties transmitted P. nodorumto a low degree (2.1 %), below the threshold.

септориоз листьев и колосаяровая пшеницамониторингРarastagonospora nodorumSeptoria triticiP. avenaef. sp. triticaeсортустойчивостьсеменная передача

Septorialeaf and ear blotchspring wheatmonitoringРarastagonospora nodorumSeptoria triticiP. avenaef. sp. triticaevarietyresistanceseed transmission

This work was supported by state budget projects Nos. 0598-2015-0001 (All-Russian Research Institute of Phytopathology) and 0324-2019-0039 (Federal Research Center Institute of Cytology and Genetics SB RAS). Conflict of interest. The authors declare no conflict of interest

References1

Adolf В., Schofl U., Verreet J.A. Effect of infection with Septoria tritici of different growth stages of wheat (GS 25 to GS 59) an dry matter production, nitrogen uptake and yield. Meded. Jc. Landbauw wetensch. 1993;53(3):1167-1174.

Broennimann A. Contributions to genetics of tolerance towards Septoria nodorumBerk. in wheat (Triticum aestivum L.). J. Plant Breed. 1975;75:138-160.

Chulkina V.A. Biological Fundamentals of Plant Epidemiology. Moscow, 1991. (in Russian)

Chulkina V.A., Toropova E.Yu., Stetsov G.Ya., Kirichenko A.A., Marmuleva E.Yu., Grishin V.M., Kazakova O.A., Selyuk M.P. Phytosanitary Diagnosis of Agroecosystems. Toropova E.Yu. (Ed.). Bar naul, 2017. (in Russian)

Cooke B.M., Jones D.G. The epidemiology of S. triticiand S. nodorum. II. Comparative studies of head infection by S. triticiand S. nodorum on spring wheat. Trans. Br. Mycol. Soc. 1970;56:121-125.

Du C.G., Nelson L.R., McDaniel M.E. Diallel analysis of gene effects conditioning resistance to Stagonospora nodorum(Berk.) in wheat. Crop Sci. 1999;39(3):686-690.

Eyal Z. The Septoria triticiand Stagonospora nodorumblotch diseases of wheat. Eur. J. Plant Pathol. 1999;105(7):629-641.

Gultyaeva E.I., Shaidayuk E.L., Levitin M.M., Maslova I.V., Koles nikova O.A., Vusatyuk M.P. Phytosanitary state of grain crops in the North-West of Russia in 2018. Zashchita i Karantin Rasteniy = Plant Protection and Quarantine. 2019;5:30-31. (in Russian)

Jenkins P.D., Jones D.G. The effect of dual inoculation of wheat culti vars with S. triticiand S. nodorum. Phytopathologische Zeitschrift. 1981;101(3):210-221.

Kolomiets T.M., Pankratova L.F., Pakholkova E.V. Wheat (Triticum L.) cultivars from GRIN collection (USA) selected for durable resis tance to Septoria triticiand Stagonospora nodorumBlotch. Selskokhozyaystvennaya Biologiya = Agricultural Biology. 2017;52(3): 561-569. DOI 10.15389/agrobiology.2017.3.561eng.

Kolomiets T.M., Shamanin V.P., Pakholkova E.V., Pankratova L.F., Salnikova N.N., Shepelev S.S., Pototskaya I.V., Abugalieva A., Morgunov A.I. Screening of hexaploid synthetic wheat lines and spring bread wheat variety for resistance to Septoriablotch. Vestnik Omsko go GAU = Bulletin of the Omsk State Agrarian University. 2018;3(31):13-26. (in Russian)

Levitin M.M. Microorganisms and global climate change. Selskokhozyaystvennaya Biologiya = Agricultural Biology. 2015;50(5): 641-647. DOI 10.15389/agrobiology.2015.5.641eng.

Mullaney E.J., Martin J.M., Scharen A.L. Generation mean analysis to identify and partition the components of genetic resistance to Septoria nodorumin wheat. Euphytica. 1981;31:539-545.

Nazarova L.N., Korneva L.G., Zhokhova T.P., Polyakova T.M., Sanin S.S. Epidemiological situation with Septoriadisease on wheat in 2001–2009. Zashchita i Karantin Rasteniy = Plant Protection and Quarantine. 2010;10:18-20. (in Russian)

Nolan S., Cooke B.M., Monahan F.J. Studies on the interaction between Septoria triticiand Stagonospora nodorumin wheat. Eur. J. Plant Pathol. 1999;105(9):917-925.

Pakholkova E.V. The rate of leafstem infections development on cereal crops. Zashchita i Karantin Rasteniy = Plant Protection and Quaran tine. 2015;3:39-40. (in Russian)

Parker S.R., Welham S., Paveley N.D., Foulkes J., Scott R.K. Tolerance of Septorialeaf blotch in winter wheat. Plant Pathol. 2004;53(1): 1-10.

Pyzhikova G.V., Sanina A.A., Kurakhtanova T.I. Septoria Blotch on Cereal Crops. Moscow, 1988. (in Russian)

Robert C., Bancal M.-O., Nicolas P., Lannou Ch., Ney B. Analysis and modelling of effects of leaf rust and Septoria triticiblotch on wheat growth. J. Exp. Bot. 2004;55(399):1079-1094.

Sanin S.S., Korneva L.G., Polyakov T.M. Forecasting the risk of epi phytotics developing of Septorialeaf and ear on wheat. Zashchita i Karantin Rasteniy = Plant Protection and Quarantine. 2015;3: 33-36. (in Russian)

Sanin S.S., Pakholkova E.V., Karlova L.V., Rulyova O.M., Franchuk L.I. Influence of weather factors on S. triticiand S. nodorum representation in a winter wheat Septoria blotch agent population. In: Epidemics of Plant Diseases: Monitoring, Prognosis, Control: Proc. of the Int. conf. Bolshie Vyazemy, 2017;1:81-84. (in Rus sian)

Sanin S.S., Pakholkova E.V., Sanina A.A., Karlova L.V., Kor neeva L.G. Epidemiology of wheat leaf blotch: formation of infectious potentials of pathogens. Zashchita i Karantin Rasteniy = Plant Protection and Quarantine. 2018;5:25-29. (in Russian)

Scharen A.L., Krupinsky J.M. Cutural and inoculation studies of Septoria nodorum, cause of glume blotch of wheat. Phytopathology. 1970;60(10):1480-1485.

Simón M.R., Cordo C.A., Perelló A.E., Struik P.C. Influence of nitrogen supply on the susceptibility of wheat to Septoria tritici. J. Phy topathol. 2003;151(5):283-289.

Toropova E.Yu. Ecological Fundamentals of Plant Protection Against Diseases in Siberia. Novosibirsk, 2005. (in Russian)

Toropova E.Yu., Kazakova O.A., Piskarev V.V., Porsev I.N., Khristov Yu.A. The role of varieties and fungicides in the control of spring wheat septoriosis. Agrokhimiya = Agrochemistry. 2019;5:66-75. DOI 10.1134/S0002188119050107. (in Russian)

Toropova E.Yu., Kazakova O.A., Selyuk M.P. Monitoring of Septoriablight on spring wheat in the foreststeppe of Western Siberia. Dostizheniya Nauki i Tekhniki APK = Achievements of Science and Technology of AIC. 2016;30(12):33-35. (in Russian)

Toropova E.Yu., Kazakova O.A., Selyuk M.P., Insebaeva M.K., Kirichenko A.A., Filipchuk O.D., Kvitko A.V. Contamination of wheat seeds with Parastagonospora nodorum Berk. Dostizheniya Nauki i Tekhniki APK = Achievements of Science and Technology of AIC. 2018;32(12):1519. DOI 10.24411/0235-2451-2018-11204. (in Rus sian)

Toropova E.Yu., Stetsov G.Ya., Chulkina V.A. Epiphytotiological Grounds of Plant Protection Systems. Chulkina V.A. (Ed.). Novosibirsk, 2002. (in Russian)

Tyryshkin L.G., Ershova M.A. Inheritance of resistance to Septoria blotch in common wheat sample MN81330. Russ. J. Genet. 2004; 40(4):454-457.

Van Ginkel M., Rajaram S. Breeding for resistance to the Septoria/ Stagonospora blights of wheat. In: Van Ginkel M., McNab A., Krupinsky J.M. (Eds.). Septoria and Stagonospora Diseases of Cereals: a Compilation of Global Research: Proc. of the Fifth Int. Septorial Workshop. Mexico, 1999:117-126.

Veselova S.V., Burkhanova G.F., Nuzhnaya T.V., Maksimov I.V. Effect of NADPH oxidases cascade on mechanisms regulating defense common wheat reactions under the disease Stagonospora nodorum blotch. Izvestiya Ufimskogo Nauchnogo Tsentra Rossiy skoy Akademii Nauk = Proceedings of the RAS Ufa Scientific Center. 2018; 3(1):66-74. (in Russian)

Veselova S.V., Burkhanova G.F., Nuzhnaya T.V., Rumyantsev S.D., Maksimov I.V. Effect of the host-specific toxin SnTOX3 from Stagonospora nodorumon ethylene signaling pathway regulation and redoxstate in common wheat. Vavilovskii Zhurnal Genetiki i Selektsii = Vavilov Journal of Genetics and Breeding. 2019;23(7): 856-864

The authors declare that there are no conflicts of interest present.