The influence of irrigation on the phytopathogenic complex on sunflower under the conditions of the Forest-Steppe of Ukraine

In recent years, Septoria leaf spot has taken a strong place in the list of economically important diseases of sunflower. It may be a favorable factor for the development of other diseases on sunflower plants too. The aim of the research was to evaluate the frequency and degree of infection of sunflower plants with Septoria helianthi as well as possibility of simultaneous infection with this pathogen and other fungi which cause foliar spots, such as downy mildew, Alternaria leaf spot and Phoma black stem under conditions of stationary infectious nursery. The year 2021 turned out to be extremely favorable for the development of fungal leaf spots on sunflower. Assessment of fungal diseases of sunflower plants was performed in F2 families obtained after crossing ZL22A, ZL58A, ZL70A, ZL78A, and ZL169A lines of Zaporozhye breeding (Ukraine) with HAR7 line (originating from the USA). Each F2 family (sample) was obtained from self-pollination of one F1 plant with varying severity of Septoria disease. It was found that in the conditions of 2021, sunflower was quite affected by Septoria disease. The percentage of injured plants in F2 samples ranged from 41.0 to 100.0%. The severity of disease was different. Less resistant genotypes included plants with lesions on sunflower leaves of lower, middle, and upper tiers in approximately equal numbers, while more resistant genotypes had almost no plants with injured leaves of upper tiers. It was established that the development of Phoma disease occurred both on plants with Septoria leaf spot and on healthy plants. On average, among the plants infected with Phoma macdonaldii, the proportion of plants jointly affected by Phoma and Septoria diseases was 2/3. However, the frequency of simultaneous infection of plants with S. helianthi and P. macdonaldii in genotypes with different resistance to Septoria leaf spot differed significantly and ranged from 80% in less resistant to 40% in more resistant accessions. Most plants (about 90%) infected with Plasmopara halstedii were simultaneously infected with S. helianthi. That is, both of these pathogens can simultaneously develop on the same plant and lead to a decline in its basic physiological functions. The rate of simultaneous damage of sunflower by Alternaria and Septoria was quite low compared to plant damage by Alternaria alone and was less than 30%. This may mean that the pathogen of Alternaria leaf spot avoids plants with existing S. helianthi fungus.

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Evaluation of Septoria leaf spot (Septoria helianthi) alone and in combination with other foliar fungal spots on sunflower

Levitskaya

Soroka

Lyakh

2022

Helia

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Monitoring of the phytopathogenic state of sunflower crops in the Central Forest-steppe of Ukraine

Kostyna,

Sabadyn,

Dubovyk

et al. 2024

Agrobìologìâ

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The species composition of the causative agents of sunflower diseases was studied and the dominant species in the Central Forest-steppe were determined. Phytopathogenic monitoring of sunflower genotypes was carried out and the degree of prevalence and development of pathogens during the growing season was analyzed. The phytosanitary state analysis of sunflower agrocenosis was carried out during the growing season of 2021-2023. The phytopathological state of twelve sunflower hybrids was evaluated: SY Bakardi KLP, NK Kondi, SUZUKA, (Syngenta Crop Protection AG), LH5555 KLP, LH5580, LH59580 (Limagrain Europe), ES HENEZIS, ES Bellamis SL, ES AROMATIK SU (Euralis Semences), P64LP130, PR64F66, P64LE25 (Pioneer Overseas Corporation). The causative agents were identified: Phomosis (Phoma macdonaldii Boerema), Phomopsis (Phomopsis helianthi Munt.), white rot (Sclerotinia sclerotiorum (Lib.) de Bary.), gray rot (Botrytis cinerea Pers.), rust (Puccinia helianthi Schw.) and septoriosis (Septoria helianthi Ellis & Kellerm). In 2021, epiphytotia of gray rot was observed on sunflower. All hybrids were affected from 88.3% to 93.3 %. Rust damage reached 71.1 %. Resistant hybrids ES HENEZIS (13.3 %) and LH59580 (15.0 %) against rust were identified. Between 40.0 % and 50.0 % of sunflower hybrids were affected by septoriosis. Phomopsis infestation ranged from 27.2 % to 34.7 %. Not significant development of phomosis was noted from 5.0 % to 13.3 %. There was no white rot pathogen infection. In 2022 the intensity of sunflower hybrids damage by pathogens ranged from a low of 6.7 % to an average of 45.0 %. Gray rot infestation ranged from 41.7 % to 45.0 %. The development of white rot was not significant, up to 10%. Infection of the hybrids by the causative agent of septoriosis was at the level of 20.0– 25.0 %. High resistance against white rot was noted in the P64LP130 hybrid. ES HENEZIS and LH59580 hybrids were resistant to rust. Phomopsis damage (up to 15 %) was noted in hybrids NK Kondi, LH5580 and ES AROMATIK SU. All studied hybrids showed resistance and moderate resistance to phomosis. In 2023 weather conditions were not conducive to the pathogens development. Phomosis acquired the highest development (up to 30.0 %) on sunflower hybrids. The development of gray rot and septoriosis was not detected. The development of rust pathogen was absent on sunflower hybrids, except for two ones. High resistance against Phomopsis was shown by NK Kondi, ES AROMATIC SU and LH5580 (1.7 %). High resistance against white rot was noted in the P64LP130 hybrid. Key words: sunflower, hybrids, disease monitoring, phomosis, phomopsis, white and gray rot, rust, septoriosis.

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The influence of irrigation on the phytopathogenic complex on sunflower under the conditions of the Forest-Steppe of Ukraine

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Evaluation of Septoria leaf spot (Septoria helianthi) alone and in combination with other foliar fungal spots on sunflower

Evaluation of Septoria leaf spot (Septoria helianthi) alone and in combination with other foliar fungal spots on sunflower

Monitoring of the phytopathogenic state of sunflower crops in the Central Forest-steppe of Ukraine

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