taxonID	type	format	identifier	references	title	description	created	creator	contributor	publisher	audience	source	license	rightsHolder	datasetID
03A69C14FF89FF89FF13FE8F63DF4C8A.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/17127636/files/figure.png	https://doi.org/10.5281/zenodo.17127636	Fig. 5. Reproduction of Rothert’s (1892) illustrations of R. hydrophila (Botanische Zeitung 50, Taf. VII). Taf. VII is spread across two pages in the source publication and each page is reproduced here.	Fig. 5. Reproduction of Rothert’s (1892) illustrations of R. hydrophila (Botanische Zeitung 50, Taf. VII). Taf. VII is spread across two pages in the source publication and each page is reproduced here.	2024-03-05	O’Donnell, R. P.;Linde, C. C.;May, T. W.		Zenodo	biologists	O’Donnell, R. P.;Linde, C. C.;May, T. W.			
03A69C14FF89FF89FF13FE8F63DF4C8A.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/17127621/files/figure.png	https://doi.org/10.5281/zenodo.17127621	Fig. 1. Cladograms of named taxa within Ceratobasidiaceae inferred from ITS, LSU, ATP6, RPB2, and TEF1 sequence data using IQ-TREE 2. A phylogram of the same tree with unscaled branch lengths is provided as an inset. Previously used names (as applied to the sequences listed in Table 1) are shown on the left, while revised names formalised in this manuscript are shown on the right. Well-supported nodes (i.e. nodes with SH-aLRT ≥ 80 and UFBoot ≥ 95) are indicated with grey circles. Node support is only provided on the tree that uses previous names. Tip shapes indicate whether sequences are ex-type or regarded as representative sequences. Tip shapes are coloured by genus names.	Fig. 1. Cladograms of named taxa within Ceratobasidiaceae inferred from ITS, LSU, ATP6, RPB2, and TEF1 sequence data using IQ-TREE 2. A phylogram of the same tree with unscaled branch lengths is provided as an inset. Previously used names (as applied to the sequences listed in Table 1) are shown on the left, while revised names formalised in this manuscript are shown on the right. Well-supported nodes (i.e. nodes with SH-aLRT ≥ 80 and UFBoot ≥ 95) are indicated with grey circles. Node support is only provided on the tree that uses previous names. Tip shapes indicate whether sequences are ex-type or regarded as representative sequences. Tip shapes are coloured by genus names.	2024-03-05	O’Donnell, R. P.;Linde, C. C.;May, T. W.		Zenodo	biologists	O’Donnell, R. P.;Linde, C. C.;May, T. W.			
03A69C14FF86FF81FCA2F9CF668D4CEA.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/17127621/files/figure.png	https://doi.org/10.5281/zenodo.17127621	Fig. 1. Cladograms of named taxa within Ceratobasidiaceae inferred from ITS, LSU, ATP6, RPB2, and TEF1 sequence data using IQ-TREE 2. A phylogram of the same tree with unscaled branch lengths is provided as an inset. Previously used names (as applied to the sequences listed in Table 1) are shown on the left, while revised names formalised in this manuscript are shown on the right. Well-supported nodes (i.e. nodes with SH-aLRT ≥ 80 and UFBoot ≥ 95) are indicated with grey circles. Node support is only provided on the tree that uses previous names. Tip shapes indicate whether sequences are ex-type or regarded as representative sequences. Tip shapes are coloured by genus names.	Fig. 1. Cladograms of named taxa within Ceratobasidiaceae inferred from ITS, LSU, ATP6, RPB2, and TEF1 sequence data using IQ-TREE 2. A phylogram of the same tree with unscaled branch lengths is provided as an inset. Previously used names (as applied to the sequences listed in Table 1) are shown on the left, while revised names formalised in this manuscript are shown on the right. Well-supported nodes (i.e. nodes with SH-aLRT ≥ 80 and UFBoot ≥ 95) are indicated with grey circles. Node support is only provided on the tree that uses previous names. Tip shapes indicate whether sequences are ex-type or regarded as representative sequences. Tip shapes are coloured by genus names.	2024-03-05	O’Donnell, R. P.;Linde, C. C.;May, T. W.		Zenodo	biologists	O’Donnell, R. P.;Linde, C. C.;May, T. W.			
03A69C14FF81FF81FF13FB6F63DD4F0A.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/17127632/files/figure.png	https://doi.org/10.5281/zenodo.17127632	Fig. 3. Cladogram of 41 named taxa along with 149 representative orchid mycorrhizal OTUs and pathogenic AGs within Ceratobasidiaceae and four outgroup taxa inferred from ITS sequence data using IQ-TREE. Named taxa are indicated as their previously used names, in bold. Wellsupported nodes (i.e. nodes with SH-aLRT ≥ 80 and UFBoot ≥ 95) are indicated with grey circles. Tip shapes are coloured by lifestyle mode.	Fig. 3. Cladogram of 41 named taxa along with 149 representative orchid mycorrhizal OTUs and pathogenic AGs within Ceratobasidiaceae and four outgroup taxa inferred from ITS sequence data using IQ-TREE. Named taxa are indicated as their previously used names, in bold. Wellsupported nodes (i.e. nodes with SH-aLRT ≥ 80 and UFBoot ≥ 95) are indicated with grey circles. Tip shapes are coloured by lifestyle mode.	2024-03-05	O’Donnell, R. P.;Linde, C. C.;May, T. W.		Zenodo	biologists	O’Donnell, R. P.;Linde, C. C.;May, T. W.			
