Global population structure and migration patterns suggest significant population differentiation among isolates of Pyrenophora tritici-repentis

Abstract

The global population structure and migration patterns of foliar wheat pathogen Pyrenophora tritici-repentis (PTR) were determined using 12 microsatellite loci. Analysis of 439 single-spore isolates of PTR from five continents (18 wheat-producing countries) showed high level of genetic diversity, and moderate to high population differentiation between continents. A high level of gene diversity (HS=0.31 to 0.56) was observed within each population. Allelic richness indicated the European and the North American population have a high effective population size. Bayesian analyses showed five clusters where the inferred clusters did not represent geographical populations. Corrected standardized fixation index (GST″) estimates ranged from 0.042 to 0.265 between populations, indicating low to high genetic differentiation exists between populations. We found migration (gene flow) between old world (Europe) and new world (Americas) population; however, little migration was observed among other continents. The European population was the major source of immigrants for the North American, South American, Australian and the Asian populations. Significant (P<0.001) linkage disequilibrium (LD) was detected in the Australian and the South American populations. In contrast, non-significant (P<0.001) LD values were observed in the Asian, European and the North American populations. Overall, our findings demonstrate the population differentiation exits among the global populations and strict quarantine measures should be applied to prevent the accelerated global spread of this pathogen.