Using restriction fragment length polymorphisms to assess temporal variation and estimate the number of ascospores that initiate epidemics in field populations of Mycosphaerella graminicola

Restriction fragment length polymorphisms (RFLPs) and DNA fingerprints were used to assess temporal variation and estimate the effective population si ze of the wheat pathogen Mycosphaerella graminicola over a 6-year period. I n each year, the fungal population was founded by ascospores originating fr om outside the sampled fields. A total of 605 fungal isolates were included in this study. Our results indicate that the genetic structure of these M. graminicola populations were stable over the 6-year period. The common all eles at each RFLP locus were present at similar frequencies each year. More than 99% of gene diversity was distributed within populations sampled from the same year and less than 1% was attributed to differences among years. The lack of population differentiation among collections taken in different years indicated that the effective size of the source population was suffi ciently large that genetic drift was insignificant in this location. It als o suggests that the initial colonists from ascospore founder populations we re a fair reflection of the source population. We estimate that the effecti ve sizes of these field populations ranged from 3,400 to 700,000 individual s, depending on the size of the field sampled and assumptions about mutatio n rates. Estimates of the number of ascospores initiating epidemics of leaf blotch disease in each field plot and factors that contribute to the large effective population size of M. graminicola are discussed.