taxonID	type	format	identifier	references	title	description	created	creator	contributor	publisher	audience	source	license	rightsHolder	datasetID
2AB350EBE7CE5BC599AB3D748AC95A56.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/1314872	https://doi.org/10.3897/mycokeys.116.148775.figure3	Figure 3. Basidiomata of Clitopilus and Rhodocybe a – d Clitopilus baronii (a, b KUN-HKAS 145333; c, d KUN-HKAS 145334) e – h Clitopilus parasiticus (e KUN-HKAS 145336, holotype; f, g KUN-HKAS 145335; h KUN-HKAS 145337) i – k Rhodocybe zijinshanensis (KUN-HKAS 145338, holotype). Scale bar: 5 mm.	Figure 3. Basidiomata of Clitopilus and Rhodocybe a – d Clitopilus baronii (a, b KUN-HKAS 145333; c, d KUN-HKAS 145334) e – h Clitopilus parasiticus (e KUN-HKAS 145336, holotype; f, g KUN-HKAS 145335; h KUN-HKAS 145337) i – k Rhodocybe zijinshanensis (KUN-HKAS 145338, holotype). Scale bar: 5 mm.	2025-04-24	Jian, Sipeng;Chen, Xia;Yang, Tianwei;Xu, Xinjing;Gao, Feng;Fang, Yiwei;Liu, Jing;Zhang, Chunxia		Zenodo	biologists	Jian, Sipeng;Chen, Xia;Yang, Tianwei;Xu, Xinjing;Gao, Feng;Fang, Yiwei;Liu, Jing;Zhang, Chunxia			
2AB350EBE7CE5BC599AB3D748AC95A56.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/1314873	https://doi.org/10.3897/mycokeys.116.148775.figure4	Figure 4. Basidiospores and crystals of Clitopilus and Rhodocybe reveal by SEM a – c Clitopilus baronii (KUN-HKAS 145334) d – f Clitopilus parasiticus (KUN-HKAS 145336, holotype) g, h Rhodocybe zijinshanensis (KUN-HKAS 145338, holotype) i the crystals around the hyphae in pileipellis of Clitopilus parasiticus (KUN-HKAS 145336, holotype). Scale bar: 2 μm.	Figure 4. Basidiospores and crystals of Clitopilus and Rhodocybe reveal by SEM a – c Clitopilus baronii (KUN-HKAS 145334) d – f Clitopilus parasiticus (KUN-HKAS 145336, holotype) g, h Rhodocybe zijinshanensis (KUN-HKAS 145338, holotype) i the crystals around the hyphae in pileipellis of Clitopilus parasiticus (KUN-HKAS 145336, holotype). Scale bar: 2 μm.	2025-04-24	Jian, Sipeng;Chen, Xia;Yang, Tianwei;Xu, Xinjing;Gao, Feng;Fang, Yiwei;Liu, Jing;Zhang, Chunxia		Zenodo	biologists	Jian, Sipeng;Chen, Xia;Yang, Tianwei;Xu, Xinjing;Gao, Feng;Fang, Yiwei;Liu, Jing;Zhang, Chunxia			
2AB350EBE7CE5BC599AB3D748AC95A56.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/1314875	https://doi.org/10.3897/mycokeys.116.148775.figure6	Figure 6. Microscopic features of Clitopilus baronii (KUN-HKAS 145334) a hymenium and subhymenium b basidiospores c pileipellis. Scale bars: 5 μm (a); 10 μm (b); 20 μm (c).	Figure 6. Microscopic features of Clitopilus baronii (KUN-HKAS 145334) a hymenium and subhymenium b basidiospores c pileipellis. Scale bars: 5 μm (a); 10 μm (b); 20 μm (c).	2025-04-24	Jian, Sipeng;Chen, Xia;Yang, Tianwei;Xu, Xinjing;Gao, Feng;Fang, Yiwei;Liu, Jing;Zhang, Chunxia		Zenodo	biologists	Jian, Sipeng;Chen, Xia;Yang, Tianwei;Xu, Xinjing;Gao, Feng;Fang, Yiwei;Liu, Jing;Zhang, Chunxia			
2AB350EBE7CE5BC599AB3D748AC95A56.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/1314870	https://doi.org/10.3897/mycokeys.116.148775.figure1	Figure 1. Phylogenetic relationships amongst representative species of Clitopilus were inferred from a multigene dataset (ITS - LSU - RPB 2 - TEF 1) using both ML and BI methods (only shown the ML tree). Supported branches indicate bootstrap supports (BS > 50 %) and posterior probabilities (PP> 0.90). Sequences from type specimens (holotype, epitype or isotype) are marked, while new and new record taxa are highlighted in red. The abbreviations ILRT stand for: I = ITS, L = LSU, R = RPB 2 and T = TEF 1.	Figure 1. Phylogenetic relationships amongst representative species of Clitopilus were inferred from a multigene dataset (ITS - LSU - RPB 2 - TEF 1) using both ML and BI methods (only shown the ML tree). Supported branches indicate bootstrap supports (BS > 50 %) and posterior probabilities (PP> 0.90). Sequences from type specimens (holotype, epitype or isotype) are marked, while new and new record taxa are highlighted in red. The abbreviations ILRT stand for: I = ITS, L = LSU, R = RPB 2 and T = TEF 1.	2025-04-24	Jian, Sipeng;Chen, Xia;Yang, Tianwei;Xu, Xinjing;Gao, Feng;Fang, Yiwei;Liu, Jing;Zhang, Chunxia		Zenodo	biologists	Jian, Sipeng;Chen, Xia;Yang, Tianwei;Xu, Xinjing;Gao, Feng;Fang, Yiwei;Liu, Jing;Zhang, Chunxia			
AB00306667D05C2AB052B024B0DE1F9C.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/1314870	https://doi.org/10.3897/mycokeys.116.148775.figure1	Figure 1. Phylogenetic relationships amongst representative species of Clitopilus were inferred from a multigene dataset (ITS - LSU - RPB 2 - TEF 1) using both ML and BI methods (only shown the ML tree). Supported branches indicate bootstrap supports (BS > 50 %) and posterior probabilities (PP> 0.90). Sequences from type specimens (holotype, epitype or isotype) are marked, while new and new record taxa are highlighted in red. The abbreviations ILRT stand for: I = ITS, L = LSU, R = RPB 2 and T = TEF 1.	Figure 1. Phylogenetic relationships amongst representative species of Clitopilus were inferred from a multigene dataset (ITS - LSU - RPB 2 - TEF 1) using both ML and BI methods (only shown the ML tree). Supported branches indicate bootstrap supports (BS > 50 %) and posterior probabilities (PP> 0.90). Sequences from type specimens (holotype, epitype or isotype) are marked, while new and new record taxa are highlighted in red. The abbreviations ILRT stand for: I = ITS, L = LSU, R = RPB 2 and T = TEF 1.	2025-04-24	Jian, Sipeng;Chen, Xia;Yang, Tianwei;Xu, Xinjing;Gao, Feng;Fang, Yiwei;Liu, Jing;Zhang, Chunxia		Zenodo	biologists	Jian, Sipeng;Chen, Xia;Yang, Tianwei;Xu, Xinjing;Gao, Feng;Fang, Yiwei;Liu, Jing;Zhang, Chunxia			
AB00306667D05C2AB052B024B0DE1F9C.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/1314872	https://doi.org/10.3897/mycokeys.116.148775.figure3	Figure 3. Basidiomata of Clitopilus and Rhodocybe a – d Clitopilus baronii (a, b KUN-HKAS 145333; c, d KUN-HKAS 145334) e – h Clitopilus parasiticus (e KUN-HKAS 145336, holotype; f, g KUN-HKAS 145335; h KUN-HKAS 145337) i – k Rhodocybe zijinshanensis (KUN-HKAS 145338, holotype). Scale bar: 5 mm.	Figure 3. Basidiomata of Clitopilus and Rhodocybe a – d Clitopilus baronii (a, b KUN-HKAS 145333; c, d KUN-HKAS 145334) e – h Clitopilus parasiticus (e KUN-HKAS 145336, holotype; f, g KUN-HKAS 145335; h KUN-HKAS 145337) i – k Rhodocybe zijinshanensis (KUN-HKAS 145338, holotype). Scale bar: 5 mm.	2025-04-24	Jian, Sipeng;Chen, Xia;Yang, Tianwei;Xu, Xinjing;Gao, Feng;Fang, Yiwei;Liu, Jing;Zhang, Chunxia		Zenodo	biologists	Jian, Sipeng;Chen, Xia;Yang, Tianwei;Xu, Xinjing;Gao, Feng;Fang, Yiwei;Liu, Jing;Zhang, Chunxia			
AB00306667D05C2AB052B024B0DE1F9C.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/1314873	https://doi.org/10.3897/mycokeys.116.148775.figure4	Figure 4. Basidiospores and crystals of Clitopilus and Rhodocybe reveal by SEM a – c Clitopilus baronii (KUN-HKAS 145334) d – f Clitopilus parasiticus (KUN-HKAS 145336, holotype) g, h Rhodocybe zijinshanensis (KUN-HKAS 145338, holotype) i the crystals around the hyphae in pileipellis of Clitopilus parasiticus (KUN-HKAS 145336, holotype). Scale bar: 2 μm.	Figure 4. Basidiospores and crystals of Clitopilus and Rhodocybe reveal by SEM a – c Clitopilus baronii (KUN-HKAS 145334) d – f Clitopilus parasiticus (KUN-HKAS 145336, holotype) g, h Rhodocybe zijinshanensis (KUN-HKAS 145338, holotype) i the crystals around the hyphae in pileipellis of Clitopilus parasiticus (KUN-HKAS 145336, holotype). Scale bar: 2 μm.	2025-04-24	Jian, Sipeng;Chen, Xia;Yang, Tianwei;Xu, Xinjing;Gao, Feng;Fang, Yiwei;Liu, Jing;Zhang, Chunxia		Zenodo	biologists	Jian, Sipeng;Chen, Xia;Yang, Tianwei;Xu, Xinjing;Gao, Feng;Fang, Yiwei;Liu, Jing;Zhang, Chunxia			
AB00306667D05C2AB052B024B0DE1F9C.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/1314874	https://doi.org/10.3897/mycokeys.116.148775.figure5	Figure 5. Microscopic features of Clitopilus parasiticus (KUN-HKAS 145336, holotype) a basidiospores b hymenium and subhymenium c pileipellis. Scale bars: 5 μm (a); 10 μm (b); 20 μm (c).	Figure 5. Microscopic features of Clitopilus parasiticus (KUN-HKAS 145336, holotype) a basidiospores b hymenium and subhymenium c pileipellis. Scale bars: 5 μm (a); 10 μm (b); 20 μm (c).	2025-04-24	Jian, Sipeng;Chen, Xia;Yang, Tianwei;Xu, Xinjing;Gao, Feng;Fang, Yiwei;Liu, Jing;Zhang, Chunxia		Zenodo	biologists	Jian, Sipeng;Chen, Xia;Yang, Tianwei;Xu, Xinjing;Gao, Feng;Fang, Yiwei;Liu, Jing;Zhang, Chunxia			
329B8FFAE8595A05B6CEE7AF5E715E5B.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/1314871	https://doi.org/10.3897/mycokeys.116.148775.figure2	Figure 2. Phylogenetic relationships amongst representative species of Rhodocybe were inferred from a multigene dataset (ITS - LSU - RPB 2 - TEF 1) using both ML and BI methods (only shown the ML tree). Supported branches indicate bootstrap supports (BS > 50 %) and posterior probabilities (PP> 0.90). Sequences from type specimens (holotype, paratype or isotype) are marked, while new and new record taxa are highlighted in red. The abbreviations ILRT stand for: I = ITS, L = LSU, R = RPB 2 and T = TEF 1.	Figure 2. Phylogenetic relationships amongst representative species of Rhodocybe were inferred from a multigene dataset (ITS - LSU - RPB 2 - TEF 1) using both ML and BI methods (only shown the ML tree). Supported branches indicate bootstrap supports (BS > 50 %) and posterior probabilities (PP> 0.90). Sequences from type specimens (holotype, paratype or isotype) are marked, while new and new record taxa are highlighted in red. The abbreviations ILRT stand for: I = ITS, L = LSU, R = RPB 2 and T = TEF 1.	2025-04-24	Jian, Sipeng;Chen, Xia;Yang, Tianwei;Xu, Xinjing;Gao, Feng;Fang, Yiwei;Liu, Jing;Zhang, Chunxia		Zenodo	biologists	Jian, Sipeng;Chen, Xia;Yang, Tianwei;Xu, Xinjing;Gao, Feng;Fang, Yiwei;Liu, Jing;Zhang, Chunxia			
329B8FFAE8595A05B6CEE7AF5E715E5B.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/1314872	https://doi.org/10.3897/mycokeys.116.148775.figure3	Figure 3. Basidiomata of Clitopilus and Rhodocybe a – d Clitopilus baronii (a, b KUN-HKAS 145333; c, d KUN-HKAS 145334) e – h Clitopilus parasiticus (e KUN-HKAS 145336, holotype; f, g KUN-HKAS 145335; h KUN-HKAS 145337) i – k Rhodocybe zijinshanensis (KUN-HKAS 145338, holotype). Scale bar: 5 mm.	Figure 3. Basidiomata of Clitopilus and Rhodocybe a – d Clitopilus baronii (a, b KUN-HKAS 145333; c, d KUN-HKAS 145334) e – h Clitopilus parasiticus (e KUN-HKAS 145336, holotype; f, g KUN-HKAS 145335; h KUN-HKAS 145337) i – k Rhodocybe zijinshanensis (KUN-HKAS 145338, holotype). Scale bar: 5 mm.	2025-04-24	Jian, Sipeng;Chen, Xia;Yang, Tianwei;Xu, Xinjing;Gao, Feng;Fang, Yiwei;Liu, Jing;Zhang, Chunxia		Zenodo	biologists	Jian, Sipeng;Chen, Xia;Yang, Tianwei;Xu, Xinjing;Gao, Feng;Fang, Yiwei;Liu, Jing;Zhang, Chunxia			
329B8FFAE8595A05B6CEE7AF5E715E5B.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/1314873	https://doi.org/10.3897/mycokeys.116.148775.figure4	Figure 4. Basidiospores and crystals of Clitopilus and Rhodocybe reveal by SEM a – c Clitopilus baronii (KUN-HKAS 145334) d – f Clitopilus parasiticus (KUN-HKAS 145336, holotype) g, h Rhodocybe zijinshanensis (KUN-HKAS 145338, holotype) i the crystals around the hyphae in pileipellis of Clitopilus parasiticus (KUN-HKAS 145336, holotype). Scale bar: 2 μm.	Figure 4. Basidiospores and crystals of Clitopilus and Rhodocybe reveal by SEM a – c Clitopilus baronii (KUN-HKAS 145334) d – f Clitopilus parasiticus (KUN-HKAS 145336, holotype) g, h Rhodocybe zijinshanensis (KUN-HKAS 145338, holotype) i the crystals around the hyphae in pileipellis of Clitopilus parasiticus (KUN-HKAS 145336, holotype). Scale bar: 2 μm.	2025-04-24	Jian, Sipeng;Chen, Xia;Yang, Tianwei;Xu, Xinjing;Gao, Feng;Fang, Yiwei;Liu, Jing;Zhang, Chunxia		Zenodo	biologists	Jian, Sipeng;Chen, Xia;Yang, Tianwei;Xu, Xinjing;Gao, Feng;Fang, Yiwei;Liu, Jing;Zhang, Chunxia			
329B8FFAE8595A05B6CEE7AF5E715E5B.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/1314876	https://doi.org/10.3897/mycokeys.116.148775.figure7	Figure 7. Microscopic features of Rhodocybe zijinshanensis (KUN-HKAS 145338, holotype) a hymenium and subhymenium b basidiospores. Scale bars: 5 μm (a); 10 μm (b); 20 μm (c).	Figure 7. Microscopic features of Rhodocybe zijinshanensis (KUN-HKAS 145338, holotype) a hymenium and subhymenium b basidiospores. Scale bars: 5 μm (a); 10 μm (b); 20 μm (c).	2025-04-24	Jian, Sipeng;Chen, Xia;Yang, Tianwei;Xu, Xinjing;Gao, Feng;Fang, Yiwei;Liu, Jing;Zhang, Chunxia		Zenodo	biologists	Jian, Sipeng;Chen, Xia;Yang, Tianwei;Xu, Xinjing;Gao, Feng;Fang, Yiwei;Liu, Jing;Zhang, Chunxia			
