High diversity and clonality are hallmarks of Fusarium circinatum in South Africa

Pitch canker on plantation-grown Pinus species, caused by the fungal pathogen Fusarium circinatum, first appeared in the western and southern Cape regions of South Africa. However, outbreaks have subsequently been reported from the major plantation growing regions of KwaZulu-Natal and Limpopo in the eastern, summer rainfall regions of the country. It is more than 10 years since the last detailed population genetics studies on F. circinatum in the region were conducted. To shed light on the population biology of F. circinatum in this region of South Africa, we used microsatellite markers and mating-type assays to study a collection of 296 isolates from different nurseries and plantation sites. Our results showed that populations in the region are highly diverse, but strongly interconnected, with various genotypes shared across nursery and plantation collection sites. In contrast to nursery populations, those associated with pitch canker outbreaks were characterized by the presence of relatively small numbers of dominant genotypes that were generally widespread across the region. Opposite mating-type individuals occurred in most of the isolate collections, but multilocus linkage disequilibrium analyses pointed towards clonality being the main reproductive mode of F. circinatum in the region. Most of the pathogen's genetic variation could probably have resulted from multiple different introductions into the country and more specifically, into the summer rainfall region. Because the spread and establishment of invasive pathogens are typically driven by aggressive clones, the results of this study provide important considerations for current and future Pinus disease management strategies.

Automated summary

Pitch canker, a fungal disease caused by Fusarium circinatum, has been a threat to plantation-grown Pinus trees in South Africa. In this study, the population biology of F. circinatum in the region was investigated using microsatellite markers and mating-type assays. The results indicated high diversity and connectivity among populations, with shared genotypes across nursery and plantation sites. Outbreak populations showed dominance of certain genotypes and clonality as the main reproductive mode. The genetic variation of the pathogen could be attributed to multiple introductions into the country. These findings have important implications for Pinus disease management.