The resurged interest in cultivation of Cannabis sativa has presented an array of new challenges. Among them are the difficult-to-control pests and pathogens that infect cannabis plants. The limited methods for disease control available to cannabis growers necessitates early detection of plant pathogens, something that molecular techniques such as DNA sequencing has greatly improved. This study reports for the first time the fungal plant pathogen Berkeleyomyces rouxiae causing black root rot in high THC-containing cannabis. Aeroponically grown cannabis plants at a licenced production facility in Cranbrook BC, Canada, rapidly displayed root discoloration and rot symptoms despite testing negative for all commercially available pathogen tests. Developing sequencing-based disease diagnostics requires genomic information, so this study presents the first whole genome sequence of the multihost, widespread black root rot pathogen B. rouxiae. Hybrid genome assembly using Oxford Nanopore long-reads and Illumina short-reads yielded a genome size of 28.2 Mb represented over 404 contigs with an N50 of 267 kb. Genome annotation predicted 6,960 protein-coding genes with 59,477 functional annotations. The availability of this genome will assist in sequence-based diagnostic development, comparative genomics, and taxonomic resolution of this globally important plant pathogen.
Keywords: Berkeleyomyces; black root rot; cannabis; fungi; genome; thielaviopsis.