Termitomyces is a genus of basidiomycete fungi cultivated by termites of the subfamily Macrotermitinae. This symbiosis originated in central Africa, and subsequently, the fungus-growing termites have colonized almost the entire African continent including Madagascar as well as significant parts of Asia. Around 40 species of Termitomyces have been described based on morphology of the sexual fruit bodies, which are associated with some 330 species of fungus-growing termites distributed over 11 genera. However, the total number of fungal species may be higher as not all species regularly produce mushrooms, and morphological variation does not seem to be a reliable criterion for species delimitation in this group. In this study we estimated the total number of species based on ITS-barcode criteria and assessed host specificity and geographic differentiation to infer patterns of speciation. We estimated the total number of phylogenetic species using two methods of DNA sequence-based species delimitation; Automatic Barcode Gap Discovery (ABGD) and the Generalized Mixed Yule Coalescent (GMYC) model on a large dataset of over 1,500 ITS sequences from laboratory cultures, fungarium specimens and the public database NCBI Genbank. This resulted in an estimated 87 species hypotheses using ABGD and 94 species hypotheses using the GMYC model. A phylogenetic reconstruction was performed on representative sequences of the 87 species hypotheses identified by ABGD (the most conservative estimate) constrained by a well-supported phylogeny based on whole-genome data to address host specificity and geographical differentiation. Five main clades were recovered which generally were associated with species of one or two host genera, except for samples collected from the genera Microtermes and Ancistrotermes, which formed two separate non-sister clades. We did not find any evidence for long-term host fidelity as would be expected for species with strict uniparental vertical symbiont transmission. We found strict geographic separation between African and Asian species of Termitomyces and infer a minimum of seven inter-continental migrations. We show that epigeous fruiting of the T. microcarpus group has a single evolutionary origin in Africa and that fruiting in species of this group likely is induced by the fungus rather than by the host-termite species. In contrast, fruiting in the symbionts of some species of Microtermes and Macrotermes may be suppressed by the host-termite species, since mushrooms of certain fungal species are found when those species are associated with some termite-host genera, but never when associated with other host genera. We discuss some examples of incongruence between morphological and phylogenetic species concepts and give suggestions to improve the taxonomy of the genus Termitomyces.
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