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Abstract The zoosporic obligate endoparasites,Olpidium,hold a pivotal position to the reconstruction of the flagellum loss in fungi, one of the key morphological transitions associated with the colonization of land by the early fungi. We generated genome and transcriptome data from non-axenic zoospores ofOlpidium bornovanusand used a metagenome approach to extract phylogenetically informative fungal markers. Our phylogenetic reconstruction strongly supportedOlpidiumas the closest zoosporic relative of the non-flagellated terrestrial fungi. Super-alignment analyses resolvedOlpidiumas sister to the non-flagellated terrestrial fungi, whereas a super-tree approach recovered different placements ofOlpidium,but without strong support. Further investigations detected little conflicting signal among the sampled markers but revealed a potential polytomy in early fungal evolution associated with the branching order amongOlpidium, Zoopagomycota and Mucoromycota. The branches defining the evolutionary relationships of these lineages were characterized by short branch lengths and low phylogenetic content and received equivocal support for alternative phylogenetic hypotheses from individual markers. These nodes were marked by important morphological innovations, including the transition to hyphal growth and the loss of flagellum, which enabled early fungi to explore new niches and resulted in rapid and temporally concurrent Precambrian diversifications of the ancestors of several phyla of fungi.