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  • E.C. Souza
  • E.E. Kuramae
  • A.K. Nakatani
  • M.A. Basseto
  • A.S. Prabhu
  • P.C. Ceresini
In Tocantins State, Northern Brazil, the incidence of Rhizoctonia sheath blight on rice is important, causing significant yield losses on rice crops under irrigation. The main objective of this research was to determine the anastomosis group (AG) of R. solani associated with rice in that area, testing the hypothesis that these isolates are from the AG-1 IA, which is also associated with the soybean leaf blight occurring in wet areas of Northern Brazil. All the four rice isolates were characterized, by hyphal fusion, as AG-1 IA. By cultural characterization, based on basal temperatures for mycelial growth (minimum, optimum and maximum), the rice isolates had growth profile similar to the tester isolates AG-1 IA, AG-1 IB and AG-1 IC. The rice isolates were characterized as autotrophic for thiamine, as well as the AG testers AG-1 IA, IB, IC, AG-4 HGI and the soybean leaf blight isolate SJ-047. The pathogenicity test on rice IRGA-409 and the cross pathogenicity on soybean IAC-18 (susceptible to the leaf blight disease) indicated that, besides causing sheath blight, these rice isolates also cause leaf blight on soybean. Similarly, the soybean isolates SJ-047 was pathogenic to rice. The sequences from the ITS-5.8S region of rDNA from the rice isolates were similar to sequences of AG-1 IA deposited at GenBank® - NCBI. The ITS-rDNA phylogeny indicated a common phylogenetic group formed by these rice isolates, the isolate SJ-047 and the tester AG-1 IA. Thus, based on cytomorphological, cultural, phylogenetics and pathogenic attributes, the hypothesis that the rice isolates of R. solani from Tocantins all belong to the AG-1 IA was confirmed, besides the indication that these isolates can also cause soybean foliar blight.
Original languageEnglish
Pages (from-to)129-136
JournalSumma Phytopathologica
Issue number2
Publication statusPublished - 2007

ID: 243880