First Report of Rice Brown Spot Caused by Exserohilum rostratum in Mali

International audienceRice brown spot is an emerging disease of concern in many rice-growing countries. Different fungal species of the genera Bipolaris and Exserohilum were reported as the causal agents of this disease. These fungal pathogens cause similar necrotic lesions on leaves and infect grains with a significant effect on seed germination. In 2018, samples of rice seed and leaves with typical brown spot symptoms were collected from irrigated (Manikoura and Niono) and lowlands (M’pegnesso and Loulouni) rice fields in Mali and incubated for 5 to 7 days on wet filter paper at 25°C with 12 h photoperiod. Conidia observed under microscope were straight or slightly curved and light-brown or dark. They were also rostrate or obclavate and measured 31.4 to 275.6 x 7.3 to 18 µm (n=40). These morphological characteristics are identical to those of Exserohilum rostratum (Hernández-Restrepo et al. 2018). DNA from eight single-spored isolates was extracted by a CTAB-based protocol (Doyle and Doyle, 1987). Internal transcribed spacer (ITS) rDNA region, glyceraldehyde-3-phosphate dehydrogenase (GAPDH) and translation elongation factor 1 alpha (TEF1-α) genes were amplified by PCR with the primers ITS5/ITS4 (White et al. 1990), GPD1/GPD2 (Berbee et al. 1999) and EF1 983/EF1 2218 (Rehner et al. 2005), respectively. The amplicons were sequenced and deposited in NCBI GenBank. Sequence similarity between Malian strain was 100% for ITS and GAPDH, and 99.8-100% for TEF1. Sequence similarity between Malian strains and reference E. rostratum sequences BRIP 11417 (GenBank acc. no. LT837836, LT882553 and LT896656) and CBS 128061 (GenBank acc. no. KT265240, LT715900 and LT896658) were 99.6-100%. The maximum-likelihood phylogenetic tree generated with ITS, GAPDH and TEF1-α concatenated sequences, using MEGA-X 10.1.7 grouped all eight strains from Mali in the E. rostratum clade with a bootstrap value of 100%. For pathogenicity test, four strains from leaves and seed were grown on rabbit food agar (50 g/liter steeped filtrate of rabbit food pellets, Kaytee Products, Inc. Chilton, WI, USA, and 15 g agar) for 14 days at 25°C with a 12 h photoperiod (Hau and Rush 1980). Spores were collected and the concentration of spore suspension adjusted to 1.5 x 105 conidia/ml with 0.5% gelatin. The rice varieties ADNY 11, ARICA 9 and Shwetasoké were grown in pots with peat soil and NPK 13-5-18 at 3.5 g/liter of soil for 21 days. Four pots of each variety (5 seedlings/pot) were placed in a tray (60 plants per tray) and the leaves were sprayed with 30 ml of the conidial suspension or water at 0.5% gelatin (negative control). Plants were kept at maximum humidity (100%) at 21°C for one night and then transferred to a phytotron at 27°C. Seven days after inoculation, circular or oval foliar lesions of less than 5 mm long, either brown or dark, sometimes whitish in their centers were observed . These lesions were identical to those observed in the field. E. rostratum was reisolated from these lesions. E. rostratum affects a wide range of plant species, particularly grasses and has been observed on rice in many countries (Cardona and Gonzàlez 2007; Majeed et al. 2016; Silva et al. 2016; Toher et al. 2016). However, to our knowledge, this is the first report of E. rostratum causing brown spot in rice in Mali

Whole-genome sequences of Bipolaris bicolor , Curvularia hawaiiensis , Curvularia spicifera , and Exserohilum rostratum isolated from rice in Burkina Faso, France, Mali, and Pakistan

International audienceABSTRACT Different fungal species of the Pleosporaceae family infect rice, causing similar symptoms. Reference genomic sequences are useful tools to study the evolution of these species and to develop accurate molecular diagnostic tools. Here, we report the complete genome sequences of Bipolaris bicolor , Curvularia hawaiiensis , Curvularia spicifera, and Exserohilum rostratum

Spatiotemporal Survey of Multiple Rice Diseases in Irrigated Areas Compared to Rainfed Lowlands in the Western Burkina Faso

International audienceMultiple constraints affect rice yields in West Africa. Among these constraints are viral, bacterial, and fungal pathogens. We aimed to describe the spatiotemporal patterns of occurrence and incidence of multiple rice diseases in farmers’ fields in contrasting rice growing systems in the western Burkina Faso. For this purpose, we selected a set of three pairs of sites, each comprising an irrigated area and a neighboring rainfed lowland, and studied them over four consecutive years. We first performed interviews with the rice farmers to better characterize the management practices at the different sites. This study revealed that the transplanting of rice and the possibility of growing rice twice a year are restricted to irrigated areas, while other practices, such as the use of registered rice cultivars, fertilization, and pesticides, are not specific but differ between the two rice growing systems. Then, we performed symptom observations at these study sites to monitor the following four diseases: yellow mottle disease, Bacterial Leaf Streak (BLS), rice leaf blast, and brown spot. The infection rates were found to be higher in irrigated areas than in rainfed lowlands, both when analyzing all observed symptoms together (any of the four diseases) and when specifically considering each of the two diseases: BLS and rice leaf blast. Brown spot was particularly prevalent in all six study sites, while yellow mottle disease was particularly structured geographically. Various diseases were frequently found together in the same field (co-occurrence) or even on the same plant (coinfection), especially in irrigated areas