Spatial analysis of factors influencing bacterial leaf blight in rice production.

Xanthomonas oryzae pv. oryzae (Xoo) causes bacterial leaf blight that is a major threat to rice production. Crop losses in extreme situations can reach up to75%, and millions of hectares of rice are affected each year. Management of the disease required information about the spatial distribution of BLB incidence, severity, and prevalence. In this study, major rice-growing areas of Pakistan were surveyed during 2018-2019 for disease occurrence, and thematic maps were developed using geographic information system (GIS). Results showed that Narowal district had highest percentage of disease incidence (54-69%), severity (42-44%), and prevalence (72-90%) meanwhile Jhung district had the lowest incidence (21-23%), severity (18-22%), and prevalence (45-54%). To understand the environmental factors contributing to this major rice disease, the research analyze, the spatial relationships between BLB prevalence and environmental variables. Those variables include relative humidity (RH), atmospheric pressure (A.P), minimum temperature, soil organic carbon, soil pH, and elevation, which were evaluated by using GIS-based Ordinary Least Square (OLS) spatial model. The fitted model had a coefficient of determination (R2) of 65 percent explanatory power of disease development. All environmental variables showed a general trend of positive correlation between BLB prevalence and environmental variables. The results show the potential for disease management and prediction using environmental variable and assessment.

Size and complexity of the nuclear genome of Colletotrichum graminicola.

DNA reassociation was used to estimate GC content, size, and complexity of the nuclear genomes of Colletotrichum from maize and sorghum. Melting-temperature analysis indicated that the GC content of the maize pathotype DNA was 51% and that the GC content of the sorghum pathotype was 52%. DNA reassociation kinetics employing S1 nuclease digestion and an appropriately modified second-order equation indicated that the genome sizes of the maize and sorghum pathotypes were 4.8 x 10(7) bp, and 5.0 x 10(7) bp, respectively. Genomic reconstruction experiments based on Southern blot hybridization between a cloned single-copy gene, PYR1 (orotate phosphoribosyl transferase), and maize-pathotype DNA confirmed the size of the nuclear genome. The single-copy component of the genomes of both pathotypes was estimated at about 90%. For both pathotypes, ca. 7% of the genome represented repetitive DNA, and 2 to 3% was foldback DNA.