First Report of Brown Leaf Spot of Rice (Oryza sativa) Caused by Bipolaris sorokiniana in Pakistan.

Abstract

Brown leaf spot of rice is one of the major seed-borne diseases and can diminish grain production up to 52% (Barnwal et al. 2013). In 2018, infected leaf samples showing the typical symptoms of brown spots were collected from the vicinity of the University of Agriculture, Faisalabad (31°26'10.3"N 73°03'35.1"E). The symptoms were brown-dark spots, with gray-light gray or brown centers surrounded by dark margins and with chlorotic halos and of oval or cylindrical shapes (5 to 9 mm in diameter). Disease incidence averaged 61% across the seven fields observed. Leaves were collected from the seven infected fields and symptomatic leaf tissues of 5 mm2 were excised from representative necrotic spots in each. These tissues were surface disinfected with 70% ethanol, rinsed with sterile distilled water (SDW), dried by blotting on paper, and placed on potato dextrose agar medium. For pathogen growth, the plates were placed at 25oC (±2oC) with a 12-hour photoperiod for 5 days. Five samples from each of the infected fields were taken for pathogen isolation and among them ten isolates were sub-cultured and purified by using the single spore method. The resulting fungal colonies were fluffy and ranged in color from grayish black/black to light brown. Fifteen conidia were measured that are olivaceous-brown to dark brown in color, elliptical to oblong with narrow (tapered) ends, with 3-10 septa and 35.6-65.4 µm in length x 13.1-25.7 µm in width. Conidiophores were yellowish-brown, geniculate, and solitary (Pratt 2003). For molecular studies, rDNA of the internal transcribed spacer (ITS) region, translation elongation factor (tef), RNA polymerase II second largest subunit (rpb2) and glyceraldehyde-3-phosphate dehydrogenase (gpd) gene were amplified by using the primers ITS1F/ITS4R (White et al. 1990), EF1-983F/EF1-2218R (Rehner and Buckley 2005), 5F2/7CR (O'Donnell et al. 2007), and GPD1/GPD2 (Berbee et al. 1999) respectively. The sequence of all the amplified gene regions of one SUL-1 isolate was deposited into GenBank with accession numbers MN314844 (ITS), MN326866 (tef), MN990457 (rpb2) and MN990456 (gpd). BLASTn queries of the obtained sequences (ITS, tef, rpb2 and gpd) showed 99-100% homology with the corresponding nucleotide sequences of B. sorokiniana (GenBank accession nos. GU480767, MF490855, LT715652 and MK558818 respectively). To fulfill the Koch's postulates, twenty rice plants (cv. Basmati-385) were sprayed at 2 to 3 leaf stages by using the two representative isolates with a spore suspension of 105 spores/ml. SDW was sprayed on ten control plants. The plants were covered with polyethylene bags to keep the moisture contents and incubated at 25oC (±2oC) for 7 days. After a week, same symptoms as those described above were observed. In the repeated experiment, B. sorokiniana was re-isolated from the infected rice leaves and confirmed morphologically; fulfill the Koch's postulates. With grave worry, the other species of the genus Bipolaris (B. oryzae, and B. victoriae) have also been found to the cause brown leaf spot of rice (Motlagh and Kaviani 2008). To our knowledge, this is the first report of Bipolaris sorokiniana causing brown leaf spot of rice in Pakistan. Because rice is highly consumable grain in Pakistan, so the rapid spread of this disease in the rice farming areas is of a serious concern.