Novel genome characteristics contribute to the invasiveness of Phragmites australis (common reed)

The rapid invasion of the non-native Phragmites australis (Poaceae, subfamily Arundinoideae) is a major threat to native wetland ecosystems in North America and elsewhere. We describe the first reference genome for P. australis and compare invasive (ssp. australis) and native (ssp. americanus) genotypes collected from replicated populations across the Laurentian Great Lakes to deduce genomic bases driving its invasive success. Here, we report novel genomic features including a Phragmites lineage-specific whole genome duplication, followed by gene loss and preferential retention of genes associated with transcription factors and regulatory functions in the remaining duplicates. Comparative transcriptomic analyses revealed that genes associated with biotic stress and defence responses were expressed at a higher basal level in invasive genotypes, but native genotypes showed a stronger induction of defence responses when challenged by a fungal endophyte. The reference genome and transcriptomes, combined with previous ecological and environmental data, add to our understanding of mechanisms leading to invasiveness and support the development of novel, genomics-assisted management approaches for invasive Phragmites.

Automated summary

The study describes the first reference genome for Phragmites australis and compares invasive and native genotypes to understand the genomic basis of its invasive success. Novel genomic features, including a lineage-specific whole genome duplication, were identified. Transcriptomic analyses showed that genes associated with biotic stress and defence responses were expressed at higher levels in invasive genotypes, while native genotypes displayed stronger defence responses when challenged by a fungal endophyte.