Ancestral state reconstruction in Peronospora provides further evidence for host jumping as a key element in the diversification of obligate parasites.

Biotrophic plant parasites cause economically important diseases, e.g. downy mildew of grape, powdery mildew of legumes, wheat stripe rust, and wheat bunt. But also in natural ecosystems, these organisms are abundant and diverse, and for many hosts more than one specialised biotrophic pathogen is known. However, only a fraction of their diversity is thought to have been described. There is accumulating evidence for the importance of host jumping for the diversification of obligate biotrophic pathogens but tracing this process along the phylogeny of pathogens is often complicated by a lack of resolution of phylogenetic trees, low taxon and specimen sampling, or either too few or too many host jumps in the pathogen group in question. Here, a clade of Peronospora species mostly infecting members of the Ranunculales was investigated using multigene analyses and ancestral state reconstructions. These analyses show that this clade started out in Papaveraceae, with subsequent host jumps to Berberidaceae, Euphorbiaceae, and Ranunculaceae. In Ranunculaceae, radiation to a variety of hosts took place, and a new host jump occurred to Caryophyllaceae. This highlights that host jumping and subsequent radiation is a key evolutionary process driving the diversification of Peronospora. It seems likely that the observed pattern can be generalised to other obligate parasite lineages, as diverse hosts in unrelated families have also been reported for other pathogen groups, including powdery mildew, rust fungi, and smut fungi.

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