Akademik Veri Yönetim Sistemi
Plants, cilt.15, sa.8, 2026 (SCI-Expanded, Scopus)
To determine Fusarium species and their pathogenicity in maize-production areas of the Tepebaşı, Odunpazarı, Alpu, and Seyitgazi districts of Eskişehir province, Türkiye, 180 samples were collected from 45 fields during survey studies conducted in 2023–2024. A total of 110 Fusarium isolates were obtained from the collected plant samples. The isolates were identified as F. verticillioides, F. culmorum, F. proliferatum, F. graminearum, F. sambucinum, F. acuminatum, F. chlamydosporum, and F. equiseti. The most common species was F. verticillioides, while the most virulent species was F. graminearum, with a disease severity of 96.67%. The effects of different doses of soil-applied herbicides containing the active ingredients Isoxaflutole + Thiencarbazone-methyl + Cyprosulfamide, Dimethenamid-P + Saflufenacil, and S-Metolachlor + Terbuthylazine on F. graminearum were evaluated under both in vitro and in vivo conditions. Under in vitro conditions, the highest inhibition rate (57.23%) was observed in the double-dose application of the herbicide containing S-Metolachlor + Terbuthylazine. This was followed by the upper and recommended doses of the same herbicide with inhibition rates of 47.16% and 39.46%, respectively. For the other herbicides, inhibition rates increased with increasing herbicide dose. In field trials, the highest suppression of the pathogen was also observed with the herbicide containing S-Metolachlor + Terbuthylazine. While the recommended dose showed a 38.6% effect against the pathogen, the upper dose resulted in a 45.31% effect. This study suggests that herbicide applications may be associated with improved plant growth, likely due to reduced pathogen pressure and decreased weed competition. The findings highlight the complex interactions between soil-applied herbicides, soil-borne pathogens, and host plants, and provide insights into the development of integrated disease management strategies in maize-production systems.