University of Tehran Iranian Journal of Plant Protection Science 2008-4781 50 2 2020 02 20 Comparison of Bacillus subtilis isolates, the fengycin antibiotic producer and non- ‎producer isolates in Rhizoctonia solani AG2-2 control, causing crown and root rot of ‎sugar beet Comparison of Bacillus subtilis isolates, the fengycin antibiotic producer and non- ‎producer isolates in Rhizoctonia solani AG2-2 control, causing crown and root rot of ‎sugar beet 249 259 75107 10.22059/ijpps.2019.287801.1006903 FA Masood Ahmadzadeh Professor, Department of Plant Protection, College of Agriculture & Natural Resources, University of Tehran, Karaj, Iran Ahmadreza Shahrokhi Assistant Professor, Department of Plant Protection, Higher Educational Complex of Saravan, Iran Journal Article 2019 08 26 <em>Bacillus subtilis</em> has a good potential for plant pathogens control due to the formation of endospores, tolerance to variable pH conditions, wide thermal range and because of antibiotics production. In this study, the biocontrol potential of native <em>Bacillus</em> against <em>Rhizoctonia solani</em> AG2-2 was evaluated.Fengycin many antibiotic extracted and the relationship between antibiotic-producing isolates with sugar beet root and crown rot control, investigated in the greenhouse.In laboratory and greenhouse tests, 82 selected Bacillus subtilis isolates with 2 standard antagonist isolates were used.Of the 84 isolates, in double culture test in petri dish, isolate UTB1with 55.3% had the most inhibitory effect. In greenhouse tests, bacterial isolates UTB27, UTB65 and UTB71, reduced disease by 60.09% (the most inhibitory on disease). Of the 84 bacterial isolates, 52 isolates had a significant effect on wet and dry weight of plant.Of the 84 bacterial isolates in the HPTLC assay, for antibiotic extraction, 19 isolates produced fengycin and 65 isolates were unable to produce. In the greenhouse test, 75 bacterial isolates reduced disease, which was significant at 5% level, and 19 isolates of them were producing fengycin. The native bacterial isolate UTB1 is a good candidate for a successful biocontrol agent. <em>Bacillus subtilis</em> has a good potential for plant pathogens control due to the formation of endospores, tolerance to variable pH conditions, wide thermal range and because of antibiotics production. In this study, the biocontrol potential of native <em>Bacillus</em> against <em>Rhizoctonia solani</em> AG2-2 was evaluated.Fengycin many antibiotic extracted and the relationship between antibiotic-producing isolates with sugar beet root and crown rot control, investigated in the greenhouse.In laboratory and greenhouse tests, 82 selected Bacillus subtilis isolates with 2 standard antagonist isolates were used.Of the 84 isolates, in double culture test in petri dish, isolate UTB1with 55.3% had the most inhibitory effect. In greenhouse tests, bacterial isolates UTB27, UTB65 and UTB71, reduced disease by 60.09% (the most inhibitory on disease). Of the 84 bacterial isolates, 52 isolates had a significant effect on wet and dry weight of plant.Of the 84 bacterial isolates in the HPTLC assay, for antibiotic extraction, 19 isolates produced fengycin and 65 isolates were unable to produce. In the greenhouse test, 75 bacterial isolates reduced disease, which was significant at 5% level, and 19 isolates of them were producing fengycin. The native bacterial isolate UTB1 is a good candidate for a successful biocontrol agent. https://ijpps.ut.ac.ir/article_75107_1bfa0261bd27ebf75621e89605a6152e.pdf