An outbreak of blackleg and soft rot of potato, caused primarily by the bacterial pathogen Dickeya dianthicola, has resulted in significant economic losses in the northeastern United States since 2015. The spread of this seedborne disease is highly associated with seed distribution; therefore, the pathogen likely spread with seed tubers. To describe the blackleg epidemic and track inoculum origins, a total of 1,183 potato samples were collected from 11 states associated with blackleg outbreak from 2015 to 2019. Of these samples, 39.8% tested positive for D. dianthicola. Seventeen isolates of D. dianthicola were recovered from these samples and the genetic diversity of these isolates was examined. Fingerprinting with BOX-A1R-based repetitive extragenic palindromic PCR and phylogenetic analysis based on sequences of the 16S rRNA and gapA genes indicated that D. dianthicola isolates were divided into three genotypes, denoted types I, II, and III. Ninety-five percent of samples from Maine were type I. Type II was found in Maine only in 2015 and 2018. Type II was present throughout the 5 years in some states at a lower percentage than type I. Type III was found in Pennsylvania, New Jersey, and Massachusetts, but not in Maine. Therefore, type I appears to be associated with Maine, but type II appeared to be distributed throughout the northeastern United States. The type II and rarer type III strains were closer to the D. dianthicola type strain isolated from the United Kingdom. This work provides evidence that the outbreak of blackleg of potato in the northeastern United States was caused by multiple strains of D. dianthicola. The geographic origins of these strains remain unknown.
Keywords: comparative genomics; fingerprinting; geographic distribution; phylogeny; seedborne pathogen.