taxonID	type	format	identifier	references	title	description	created	creator	contributor	publisher	audience	source	license	rightsHolder	datasetID
79F7AB3FB491577FBAD53F25F5A70EB6.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/1080706	https://doi.org/10.3897/mycokeys.106.122890.figure2	Figure 2. Phylogram generated from RAxML analysis based on ITS with tef 1 - α sequence data of Aplosporella isolates. The tree was rooted in Alanomyces indica (CBS 134264). The MP, ML (≥ 50 %), and BI (≥ 0.9) bootstrap supports are given near the nodes, respectively. Isolates from this study are marked in blue, and ex-type strains are marked in bold.	Figure 2. Phylogram generated from RAxML analysis based on ITS with tef 1 - α sequence data of Aplosporella isolates. The tree was rooted in Alanomyces indica (CBS 134264). The MP, ML (≥ 50 %), and BI (≥ 0.9) bootstrap supports are given near the nodes, respectively. Isolates from this study are marked in blue, and ex-type strains are marked in bold.	2024-06-27	Wu, Yingying;Peng, Cheng;Yuan, Rong;Zhang, Mingwei;Hu, Yang;Tian, Chengming		Zenodo	biologists	Wu, Yingying;Peng, Cheng;Yuan, Rong;Zhang, Mingwei;Hu, Yang;Tian, Chengming			
DF3687A960285DF4A50312E5F9D56A35.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/1080706	https://doi.org/10.3897/mycokeys.106.122890.figure2	Figure 2. Phylogram generated from RAxML analysis based on ITS with tef 1 - α sequence data of Aplosporella isolates. The tree was rooted in Alanomyces indica (CBS 134264). The MP, ML (≥ 50 %), and BI (≥ 0.9) bootstrap supports are given near the nodes, respectively. Isolates from this study are marked in blue, and ex-type strains are marked in bold.	Figure 2. Phylogram generated from RAxML analysis based on ITS with tef 1 - α sequence data of Aplosporella isolates. The tree was rooted in Alanomyces indica (CBS 134264). The MP, ML (≥ 50 %), and BI (≥ 0.9) bootstrap supports are given near the nodes, respectively. Isolates from this study are marked in blue, and ex-type strains are marked in bold.	2024-06-27	Wu, Yingying;Peng, Cheng;Yuan, Rong;Zhang, Mingwei;Hu, Yang;Tian, Chengming		Zenodo	biologists	Wu, Yingying;Peng, Cheng;Yuan, Rong;Zhang, Mingwei;Hu, Yang;Tian, Chengming			
633FCCBDBE3E5432BAB9EB0FD2E5D053.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/1080707	https://doi.org/10.3897/mycokeys.106.122890.figure3	Figure 3. Phylogram generated from RAxML analysis based on ITS, tef 1 - α, and tub 2 sequence data of Dothiorella isolates. The tree was rooted in Neofusicoccum luteum (CBS 562.92) and Neofusicoccum parvum (CMW 9081). The MP, ML (≥ 50 %), and BI (≥ 0.9) bootstrap supports are given near the nodes, respectively. Isolates from this study are marked in blue, and ex-type strains are marked in bold.	Figure 3. Phylogram generated from RAxML analysis based on ITS, tef 1 - α, and tub 2 sequence data of Dothiorella isolates. The tree was rooted in Neofusicoccum luteum (CBS 562.92) and Neofusicoccum parvum (CMW 9081). The MP, ML (≥ 50 %), and BI (≥ 0.9) bootstrap supports are given near the nodes, respectively. Isolates from this study are marked in blue, and ex-type strains are marked in bold.	2024-06-27	Wu, Yingying;Peng, Cheng;Yuan, Rong;Zhang, Mingwei;Hu, Yang;Tian, Chengming		Zenodo	biologists	Wu, Yingying;Peng, Cheng;Yuan, Rong;Zhang, Mingwei;Hu, Yang;Tian, Chengming			
3066142A865251A7B99F99B1DAEB48E5.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/1080709	https://doi.org/10.3897/mycokeys.106.122890.figure5	Figure 5. Dothiorella hortiarborum (BJFC - S 1951) A, B habit of conidiomata on branch C transverse section of conidioma D longitudinal section through conidioma E, F conidiogenous cells and conidia G top (left) and bottom (right) sides of colonies on potato dextrose agar (PDA) H, I conidia. Scale bars: 1000 μm (A); 200 μm (B – D); 10 μm (E – F, H – I).	Figure 5. Dothiorella hortiarborum (BJFC - S 1951) A, B habit of conidiomata on branch C transverse section of conidioma D longitudinal section through conidioma E, F conidiogenous cells and conidia G top (left) and bottom (right) sides of colonies on potato dextrose agar (PDA) H, I conidia. Scale bars: 1000 μm (A); 200 μm (B – D); 10 μm (E – F, H – I).	2024-06-27	Wu, Yingying;Peng, Cheng;Yuan, Rong;Zhang, Mingwei;Hu, Yang;Tian, Chengming		Zenodo	biologists	Wu, Yingying;Peng, Cheng;Yuan, Rong;Zhang, Mingwei;Hu, Yang;Tian, Chengming			
3066142A865251A7B99F99B1DAEB48E5.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/1080707	https://doi.org/10.3897/mycokeys.106.122890.figure3	Figure 3. Phylogram generated from RAxML analysis based on ITS, tef 1 - α, and tub 2 sequence data of Dothiorella isolates. The tree was rooted in Neofusicoccum luteum (CBS 562.92) and Neofusicoccum parvum (CMW 9081). The MP, ML (≥ 50 %), and BI (≥ 0.9) bootstrap supports are given near the nodes, respectively. Isolates from this study are marked in blue, and ex-type strains are marked in bold.	Figure 3. Phylogram generated from RAxML analysis based on ITS, tef 1 - α, and tub 2 sequence data of Dothiorella isolates. The tree was rooted in Neofusicoccum luteum (CBS 562.92) and Neofusicoccum parvum (CMW 9081). The MP, ML (≥ 50 %), and BI (≥ 0.9) bootstrap supports are given near the nodes, respectively. Isolates from this study are marked in blue, and ex-type strains are marked in bold.	2024-06-27	Wu, Yingying;Peng, Cheng;Yuan, Rong;Zhang, Mingwei;Hu, Yang;Tian, Chengming		Zenodo	biologists	Wu, Yingying;Peng, Cheng;Yuan, Rong;Zhang, Mingwei;Hu, Yang;Tian, Chengming			
98414295A95A59D796BEC58B9C92917E.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/1080710	https://doi.org/10.3897/mycokeys.106.122890.figure6	Figure 6. Phaeobotryon fraxini (BJFC - S 1953) A habit of conidiomata on branch B transverse section of conidioma C longitudinal section through conidioma D, E conidiogenous cells and conidia F top (left) and bottom (right) sides of colonies on potato dextrose agar (PDA) G - L conidia. Scale bars: 500 μm (A); 200 μm (B, C); 10 μm (D, E, G – L).	Figure 6. Phaeobotryon fraxini (BJFC - S 1953) A habit of conidiomata on branch B transverse section of conidioma C longitudinal section through conidioma D, E conidiogenous cells and conidia F top (left) and bottom (right) sides of colonies on potato dextrose agar (PDA) G - L conidia. Scale bars: 500 μm (A); 200 μm (B, C); 10 μm (D, E, G – L).	2024-06-27	Wu, Yingying;Peng, Cheng;Yuan, Rong;Zhang, Mingwei;Hu, Yang;Tian, Chengming		Zenodo	biologists	Wu, Yingying;Peng, Cheng;Yuan, Rong;Zhang, Mingwei;Hu, Yang;Tian, Chengming			
98414295A95A59D796BEC58B9C92917E.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/1080708	https://doi.org/10.3897/mycokeys.106.122890.figure4	Figure 4. Phylogram generated from RAxML analysis based on ITS, LSU, and tef 1 - α sequence data of Phaeobotryon isolates. The tree was rooted in Alanphillipsia aloeicola (CBS 138896). The MP, ML (≥ 50 %), and BI (≥ 0.9) bootstrap supports are given near the nodes, respectively. Isolates from this study are marked in blue, and ex-type strains are marked in bold.	Figure 4. Phylogram generated from RAxML analysis based on ITS, LSU, and tef 1 - α sequence data of Phaeobotryon isolates. The tree was rooted in Alanphillipsia aloeicola (CBS 138896). The MP, ML (≥ 50 %), and BI (≥ 0.9) bootstrap supports are given near the nodes, respectively. Isolates from this study are marked in blue, and ex-type strains are marked in bold.	2024-06-27	Wu, Yingying;Peng, Cheng;Yuan, Rong;Zhang, Mingwei;Hu, Yang;Tian, Chengming		Zenodo	biologists	Wu, Yingying;Peng, Cheng;Yuan, Rong;Zhang, Mingwei;Hu, Yang;Tian, Chengming			
