Rhizoctonia solani AG groups in northeast India P. Baiswar A,C , D. D. Rosa B , S. Chandra A and S. V. Ngachan A A ICAR Research Complex for NEH Region, Umiam 793103, Meghalaya, India. B São Paulo State University, College of Agronomic Science, Department of Plant Production Plant Health Protection Sector, PO Box 237, Botucatu, SP 18610-307, Brazil. C Corresponding author. Email: pbaiswar@yahoo.com Abstract. Rhizoctonia solani isolates collected from different crops in northeast India belonged to anastomosis group AG 22 IIIB (Canavalia ensiformis, Sechium edule, Glycine max and Dolichos lablab). AG 11A was detected on Zea mays, Rhizoctonia solani on Sechium edule and AG 4HG-II on a weed, Galinsoga parviora, which are new records from India. Many plant species are infected by Rhizoctonia solani (teleomorph: Thanatephorus cucumeris) in northeast India. It has also been observed that due to rising temperatures (climate change), the number of crops infected by this fungus, and severity is increasing over the years (P. Baiswar, pers. obs., 200308). R. solani has been classied into different anastamosis groups (AGs) on the basis of hyphal anastomosis reactions. These groups are considered to be genetically isolated (Carling 1996). At present, R. solani contains 13 AG groups (Carling et al. 2002). In addition to AG grouping, other methods like pectic zymograms (Cruickshank 1990), polymerase chain reaction restriction fragment length polymorphism (Guillemaut et al. 2003) and fatty acid proles (Priyatmojo et al. 2002) have also been used for classifying this fungus group. Considering the importance of the diseases caused by this fungus, a survey was conducted for collection of different Rhizoctonia isolates from different host plants. These isolates were characterised based on anastamosis reactions. Isolation and nuclear staining Water agar was used for initial isolation. Plant tissues from the margins of infected and healthy portions were cut and surface sterilised using 4% NaOCl for 30 s, rinsed with sterilised water and plated on water agar for 24 h at 25 C. After incubation Rhizoctonia-like colonies were multiplied on potato dextrose agar (PDA). Actively growing hyphal cells were stained with DAPI (1,4,6-diamino-2-phenyl indole) as described by Kulik and Dery (1995). Numbers of nuclei per cell were counted in 20 randomly selected cells per isolate. Isolations from infected tissue on PDA yielded a fungal growth with silky and uffy, fast-growing mycelium and brown sclerotia. After ~10 days, colonies became brown because of melanisation. Hyphae were 68 mm wide, septate, branched at right angles, with lateral branches constricted at the junction. Young hyphae were branched near the distal septum. Sclerotia were not differentiated into cortex and medulla. Hyphal cells were multinucleate. These characters were consistent with Rhizoctonia sp. (Sneh et al. 1991) (Table 1). The number of nuclei per cell was variable (6 to 14, av. 11, n = 20), providing evidence that the isolates belonged to R. solani (Table 1). Anastamosis reaction Anastomosis reaction was determined by staining the hyphae with Safranin-O 0.03% and KOH 3% solution (Yamamoto and Uchida 1982). Criteria used for compatibility was observation of C2 and C3 type reactions from at least ve points on each of four slides per isolate (Carling and Leiner 1990). A positive anastomosis reaction between the test isolates and AG tester was dened as fusion of end walls of hyphae, with subsequent plasmolysis of adjacent cells (MacNish et al. 1993). Pairing was done between test isolates and AG tester isolates of R. solani (AG 1, AG 2, AG 3, AG 4, AG 5, AG 6, AG 7, AG 8, AG 9, AG 10, AG 11, AG 12, AG 13 and AG BI), obtained from different researchers. Table 1. Characteristics of Rhizoctonia solani isolates on different hosts Host Nuclei per cell (n = 20) Anastomosis group Sclerotia (mm) Hyphal diameter (mm) Min. Max. Av. Min. Max. Av. Min. Max. Av. Sechium edule 7 16 11 AG 22 IIIB 1.5 5.6 3.6 6.8 7.6 7.2 Galinsoga parviora 9 22 14 AG 4HG-II 2.5 7.8 4.3 7.0 7.9 7.5 Zea mays 10 17 14 AG 11A 3.4 7.5 6.2 7.0 7.8 7.8 Dolichos lablab 8 17 12 AG 22 IIIB 1.2 6.7 3.5 6.7 7.3 6.9 Glycine max 9 21 12 AG 22 IIIB 1.9 6.4 4.3 7.0 7.8 7.5 Canavalia ensiformis 7 15 12 AG 22 IIIB 2.1 6.3 3.7 7.1 7.8 7.5 CSIRO PUBLISHING www.publish.csiro.au/journals/apdn Australasian Plant Disease Notes, 2010, 5, 8586 Ó Australasian Plant Pathology Society 2010 10.1071/DN10030 1833-928X/10/010085