taxonID	type	format	identifier	references	title	description	created	creator	contributor	publisher	audience	source	license	rightsHolder	datasetID
99794A31D28F589EBC9AE7EA035988C5.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/944597	https://doi.org/10.3897/mycokeys.100.109423.figure1	Figure 1. RAxML phylogram of Didymosphaeriaceae, based on a combined dataset of partial ITS, LSU, SSU and tef 1 DNA sequences. The tree is rooted by Bimuria novae-zelandiae (CBS 107.79) and Bimuria omanensis (SQUCC 15280). Bootstrap supports ML (MLB ≥ 75 %) and Bayesian posterior probabilities (BYPP ≥ 0.95) are given as MLB / BYPP above the branches. Sequences from newly-generated isolates are in red, bold letters, while those of ex-type isolates are shown in black, bold letters.	Figure 1. RAxML phylogram of Didymosphaeriaceae, based on a combined dataset of partial ITS, LSU, SSU and tef 1 DNA sequences. The tree is rooted by Bimuria novae-zelandiae (CBS 107.79) and Bimuria omanensis (SQUCC 15280). Bootstrap supports ML (MLB ≥ 75 %) and Bayesian posterior probabilities (BYPP ≥ 0.95) are given as MLB / BYPP above the branches. Sequences from newly-generated isolates are in red, bold letters, while those of ex-type isolates are shown in black, bold letters.	2023-11-29	Hu, Hongmin;He, Minghui;Wu, Youpeng;Long, Sihan;Zhang, Xu;Liu, Lili;Shen, Xiangchun;Wijayawardene, Nalin N.;Meng, Zebin;Long, Qingde;Kang, Jichuan;Li, Qirui		Zenodo	biologists	Hu, Hongmin;He, Minghui;Wu, Youpeng;Long, Sihan;Zhang, Xu;Liu, Lili;Shen, Xiangchun;Wijayawardene, Nalin N.;Meng, Zebin;Long, Qingde;Kang, Jichuan;Li, Qirui			
08F65237C47955E69281AA50B473E330.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/944600	https://doi.org/10.3897/mycokeys.100.109423.figure4	Figure 4. Neokalmusia karka (GMB 0494, holotype) A type specimen B, C appearance of ascomata on substrate D, E longitudinal section of an ascoma F peridium G pseudoparaphyses H-K asci L-N ascospores O, J ascus subapical ring in Melzer's Reagent. Scale bars: 0.5 mm (B-D); 10 μm (E-O).	Figure 4. Neokalmusia karka (GMB 0494, holotype) A type specimen B, C appearance of ascomata on substrate D, E longitudinal section of an ascoma F peridium G pseudoparaphyses H-K asci L-N ascospores O, J ascus subapical ring in Melzer's Reagent. Scale bars: 0.5 mm (B-D); 10 μm (E-O).	2023-11-29	Hu, Hongmin;He, Minghui;Wu, Youpeng;Long, Sihan;Zhang, Xu;Liu, Lili;Shen, Xiangchun;Wijayawardene, Nalin N.;Meng, Zebin;Long, Qingde;Kang, Jichuan;Li, Qirui		Zenodo	biologists	Hu, Hongmin;He, Minghui;Wu, Youpeng;Long, Sihan;Zhang, Xu;Liu, Lili;Shen, Xiangchun;Wijayawardene, Nalin N.;Meng, Zebin;Long, Qingde;Kang, Jichuan;Li, Qirui			
08F65237C47955E69281AA50B473E330.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/944597	https://doi.org/10.3897/mycokeys.100.109423.figure1	Figure 1. RAxML phylogram of Didymosphaeriaceae, based on a combined dataset of partial ITS, LSU, SSU and tef 1 DNA sequences. The tree is rooted by Bimuria novae-zelandiae (CBS 107.79) and Bimuria omanensis (SQUCC 15280). Bootstrap supports ML (MLB ≥ 75 %) and Bayesian posterior probabilities (BYPP ≥ 0.95) are given as MLB / BYPP above the branches. Sequences from newly-generated isolates are in red, bold letters, while those of ex-type isolates are shown in black, bold letters.	Figure 1. RAxML phylogram of Didymosphaeriaceae, based on a combined dataset of partial ITS, LSU, SSU and tef 1 DNA sequences. The tree is rooted by Bimuria novae-zelandiae (CBS 107.79) and Bimuria omanensis (SQUCC 15280). Bootstrap supports ML (MLB ≥ 75 %) and Bayesian posterior probabilities (BYPP ≥ 0.95) are given as MLB / BYPP above the branches. Sequences from newly-generated isolates are in red, bold letters, while those of ex-type isolates are shown in black, bold letters.	2023-11-29	Hu, Hongmin;He, Minghui;Wu, Youpeng;Long, Sihan;Zhang, Xu;Liu, Lili;Shen, Xiangchun;Wijayawardene, Nalin N.;Meng, Zebin;Long, Qingde;Kang, Jichuan;Li, Qirui		Zenodo	biologists	Hu, Hongmin;He, Minghui;Wu, Youpeng;Long, Sihan;Zhang, Xu;Liu, Lili;Shen, Xiangchun;Wijayawardene, Nalin N.;Meng, Zebin;Long, Qingde;Kang, Jichuan;Li, Qirui			
316C2F9FA6F1556DB6C1975C8CF8D254.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/944604	https://doi.org/10.3897/mycokeys.100.109423.figure8	Figure 8. Nigrograna schinifolium (GMB 0498) A specimen B appearance of ascomata on substrate C cross-section of ascomata D longitudinal section of an ascoma E peridium F pseudoparaphyses G - I asci J-L ascospores M, N culture on PDA. Scale bars: 0.5 mm (B-C); 10 μm (D-L).	Figure 8. Nigrograna schinifolium (GMB 0498) A specimen B appearance of ascomata on substrate C cross-section of ascomata D longitudinal section of an ascoma E peridium F pseudoparaphyses G - I asci J-L ascospores M, N culture on PDA. Scale bars: 0.5 mm (B-C); 10 μm (D-L).	2023-11-29	Hu, Hongmin;He, Minghui;Wu, Youpeng;Long, Sihan;Zhang, Xu;Liu, Lili;Shen, Xiangchun;Wijayawardene, Nalin N.;Meng, Zebin;Long, Qingde;Kang, Jichuan;Li, Qirui		Zenodo	biologists	Hu, Hongmin;He, Minghui;Wu, Youpeng;Long, Sihan;Zhang, Xu;Liu, Lili;Shen, Xiangchun;Wijayawardene, Nalin N.;Meng, Zebin;Long, Qingde;Kang, Jichuan;Li, Qirui			
316C2F9FA6F1556DB6C1975C8CF8D254.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/944599	https://doi.org/10.3897/mycokeys.100.109423.figure3	Figure 3. RAxML phylogram of Nigrogranaceae, based on a combined dataset of ITS and tef 1 DNA sequences. The tree is rooted by Occultibambusa pustula (MFLUCC 11 - 0502) and O. bambusae (MFLUCC 13 - 0855). Bootstrap supports ML (MLB ≥ 75 %) and Bayesian posterior probabilities (BYPP ≥ 0.95) are given as MLB / BYPP above the branches. Sequences from newly-generated isolates are in red, bold letters, while those of ex-type isolates are shown in black, bold letters.	Figure 3. RAxML phylogram of Nigrogranaceae, based on a combined dataset of ITS and tef 1 DNA sequences. The tree is rooted by Occultibambusa pustula (MFLUCC 11 - 0502) and O. bambusae (MFLUCC 13 - 0855). Bootstrap supports ML (MLB ≥ 75 %) and Bayesian posterior probabilities (BYPP ≥ 0.95) are given as MLB / BYPP above the branches. Sequences from newly-generated isolates are in red, bold letters, while those of ex-type isolates are shown in black, bold letters.	2023-11-29	Hu, Hongmin;He, Minghui;Wu, Youpeng;Long, Sihan;Zhang, Xu;Liu, Lili;Shen, Xiangchun;Wijayawardene, Nalin N.;Meng, Zebin;Long, Qingde;Kang, Jichuan;Li, Qirui		Zenodo	biologists	Hu, Hongmin;He, Minghui;Wu, Youpeng;Long, Sihan;Zhang, Xu;Liu, Lili;Shen, Xiangchun;Wijayawardene, Nalin N.;Meng, Zebin;Long, Qingde;Kang, Jichuan;Li, Qirui			
FF41D3CB74B35ECB88EB30AD78E42B1E.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/944605	https://doi.org/10.3897/mycokeys.100.109423.figure9	Figure 9. Nigrograna trachycarpus (GMB 0499) A specimen B, C appearance of ascomata on substrate D, E longitudinal section of an ascoma F peridium G-I asci J pseudoparaphyses K J-ascus subapical ring in Melzer's L-O ascospores. Scale bars: 0.5 mm (B-D); 10 μm (E-O).	Figure 9. Nigrograna trachycarpus (GMB 0499) A specimen B, C appearance of ascomata on substrate D, E longitudinal section of an ascoma F peridium G-I asci J pseudoparaphyses K J-ascus subapical ring in Melzer's L-O ascospores. Scale bars: 0.5 mm (B-D); 10 μm (E-O).	2023-11-29	Hu, Hongmin;He, Minghui;Wu, Youpeng;Long, Sihan;Zhang, Xu;Liu, Lili;Shen, Xiangchun;Wijayawardene, Nalin N.;Meng, Zebin;Long, Qingde;Kang, Jichuan;Li, Qirui		Zenodo	biologists	Hu, Hongmin;He, Minghui;Wu, Youpeng;Long, Sihan;Zhang, Xu;Liu, Lili;Shen, Xiangchun;Wijayawardene, Nalin N.;Meng, Zebin;Long, Qingde;Kang, Jichuan;Li, Qirui			
FF41D3CB74B35ECB88EB30AD78E42B1E.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/944599	https://doi.org/10.3897/mycokeys.100.109423.figure3	Figure 3. RAxML phylogram of Nigrogranaceae, based on a combined dataset of ITS and tef 1 DNA sequences. The tree is rooted by Occultibambusa pustula (MFLUCC 11 - 0502) and O. bambusae (MFLUCC 13 - 0855). Bootstrap supports ML (MLB ≥ 75 %) and Bayesian posterior probabilities (BYPP ≥ 0.95) are given as MLB / BYPP above the branches. Sequences from newly-generated isolates are in red, bold letters, while those of ex-type isolates are shown in black, bold letters.	Figure 3. RAxML phylogram of Nigrogranaceae, based on a combined dataset of ITS and tef 1 DNA sequences. The tree is rooted by Occultibambusa pustula (MFLUCC 11 - 0502) and O. bambusae (MFLUCC 13 - 0855). Bootstrap supports ML (MLB ≥ 75 %) and Bayesian posterior probabilities (BYPP ≥ 0.95) are given as MLB / BYPP above the branches. Sequences from newly-generated isolates are in red, bold letters, while those of ex-type isolates are shown in black, bold letters.	2023-11-29	Hu, Hongmin;He, Minghui;Wu, Youpeng;Long, Sihan;Zhang, Xu;Liu, Lili;Shen, Xiangchun;Wijayawardene, Nalin N.;Meng, Zebin;Long, Qingde;Kang, Jichuan;Li, Qirui		Zenodo	biologists	Hu, Hongmin;He, Minghui;Wu, Youpeng;Long, Sihan;Zhang, Xu;Liu, Lili;Shen, Xiangchun;Wijayawardene, Nalin N.;Meng, Zebin;Long, Qingde;Kang, Jichuan;Li, Qirui			
96CCCA92339957FD80F8D8B4D725B0CF.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/944603	https://doi.org/10.3897/mycokeys.100.109423.figure7	Figure 7. Roussoella doimaesalongensis (GMB 0497) A specimen B appearance of ascomata on substrate C cross-section of ascostromata D longitudinal section of an ascoma E peridium F pseudoparaphyses G-I asci J-M ascospores. Scale bars: 0.5 mm (B-C); 10 μm (D-M).	Figure 7. Roussoella doimaesalongensis (GMB 0497) A specimen B appearance of ascomata on substrate C cross-section of ascostromata D longitudinal section of an ascoma E peridium F pseudoparaphyses G-I asci J-M ascospores. Scale bars: 0.5 mm (B-C); 10 μm (D-M).	2023-11-29	Hu, Hongmin;He, Minghui;Wu, Youpeng;Long, Sihan;Zhang, Xu;Liu, Lili;Shen, Xiangchun;Wijayawardene, Nalin N.;Meng, Zebin;Long, Qingde;Kang, Jichuan;Li, Qirui		Zenodo	biologists	Hu, Hongmin;He, Minghui;Wu, Youpeng;Long, Sihan;Zhang, Xu;Liu, Lili;Shen, Xiangchun;Wijayawardene, Nalin N.;Meng, Zebin;Long, Qingde;Kang, Jichuan;Li, Qirui			
96CCCA92339957FD80F8D8B4D725B0CF.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/944598	https://doi.org/10.3897/mycokeys.100.109423.figure2	Figure 2. RAxML phylogram of Roussoellaceae, based on a combined dataset of partial ITS, LSU, tef 1 and rpb 2 DNA sequences. The tree is rooted by Torula hollandica (CBS 220.69) and T. herbarum (CBS 111855). Bootstrap supports ML (MLB ≥ 75 %) and Bayesian posterior probabilities (BYPP ≥ 0.95) are given as MLB / BYPP above the branches. Sequences from newly-generated isolates are in red, bold letters, while those of ex-type isolates are shown in black, bold letters.	Figure 2. RAxML phylogram of Roussoellaceae, based on a combined dataset of partial ITS, LSU, tef 1 and rpb 2 DNA sequences. The tree is rooted by Torula hollandica (CBS 220.69) and T. herbarum (CBS 111855). Bootstrap supports ML (MLB ≥ 75 %) and Bayesian posterior probabilities (BYPP ≥ 0.95) are given as MLB / BYPP above the branches. Sequences from newly-generated isolates are in red, bold letters, while those of ex-type isolates are shown in black, bold letters.	2023-11-29	Hu, Hongmin;He, Minghui;Wu, Youpeng;Long, Sihan;Zhang, Xu;Liu, Lili;Shen, Xiangchun;Wijayawardene, Nalin N.;Meng, Zebin;Long, Qingde;Kang, Jichuan;Li, Qirui		Zenodo	biologists	Hu, Hongmin;He, Minghui;Wu, Youpeng;Long, Sihan;Zhang, Xu;Liu, Lili;Shen, Xiangchun;Wijayawardene, Nalin N.;Meng, Zebin;Long, Qingde;Kang, Jichuan;Li, Qirui			
5A992DD1B7DD50ACAD020852427EDF6C.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/944602	https://doi.org/10.3897/mycokeys.100.109423.figure6	Figure 6. Roussoella neopustulans (GMB 0496) A specimen B, C appearance of ascomata on substrate D cross-section of ascostromata E longitudinal section of an ascoma F peridium G pseudoparaphyses H-K asci L-O ascospores. Scale bars: 0.5 mm (B-D); 10 μm (E-O).	Figure 6. Roussoella neopustulans (GMB 0496) A specimen B, C appearance of ascomata on substrate D cross-section of ascostromata E longitudinal section of an ascoma F peridium G pseudoparaphyses H-K asci L-O ascospores. Scale bars: 0.5 mm (B-D); 10 μm (E-O).	2023-11-29	Hu, Hongmin;He, Minghui;Wu, Youpeng;Long, Sihan;Zhang, Xu;Liu, Lili;Shen, Xiangchun;Wijayawardene, Nalin N.;Meng, Zebin;Long, Qingde;Kang, Jichuan;Li, Qirui		Zenodo	biologists	Hu, Hongmin;He, Minghui;Wu, Youpeng;Long, Sihan;Zhang, Xu;Liu, Lili;Shen, Xiangchun;Wijayawardene, Nalin N.;Meng, Zebin;Long, Qingde;Kang, Jichuan;Li, Qirui			
5A992DD1B7DD50ACAD020852427EDF6C.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/944598	https://doi.org/10.3897/mycokeys.100.109423.figure2	Figure 2. RAxML phylogram of Roussoellaceae, based on a combined dataset of partial ITS, LSU, tef 1 and rpb 2 DNA sequences. The tree is rooted by Torula hollandica (CBS 220.69) and T. herbarum (CBS 111855). Bootstrap supports ML (MLB ≥ 75 %) and Bayesian posterior probabilities (BYPP ≥ 0.95) are given as MLB / BYPP above the branches. Sequences from newly-generated isolates are in red, bold letters, while those of ex-type isolates are shown in black, bold letters.	Figure 2. RAxML phylogram of Roussoellaceae, based on a combined dataset of partial ITS, LSU, tef 1 and rpb 2 DNA sequences. The tree is rooted by Torula hollandica (CBS 220.69) and T. herbarum (CBS 111855). Bootstrap supports ML (MLB ≥ 75 %) and Bayesian posterior probabilities (BYPP ≥ 0.95) are given as MLB / BYPP above the branches. Sequences from newly-generated isolates are in red, bold letters, while those of ex-type isolates are shown in black, bold letters.	2023-11-29	Hu, Hongmin;He, Minghui;Wu, Youpeng;Long, Sihan;Zhang, Xu;Liu, Lili;Shen, Xiangchun;Wijayawardene, Nalin N.;Meng, Zebin;Long, Qingde;Kang, Jichuan;Li, Qirui		Zenodo	biologists	Hu, Hongmin;He, Minghui;Wu, Youpeng;Long, Sihan;Zhang, Xu;Liu, Lili;Shen, Xiangchun;Wijayawardene, Nalin N.;Meng, Zebin;Long, Qingde;Kang, Jichuan;Li, Qirui			
C1CF6CE5DC0E531C9BCC8E0B06A93B1C.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/944601	https://doi.org/10.3897/mycokeys.100.109423.figure5	Figure 5. Roussoella pseudohysterioides (GMB 0495) A specimen B, C appearance of ascomata on substrate D cross-section of ascostromata E longitudinal section of an ascoma F peridium G pseudoparaphyses H-I asci J-M ascospores. Scale bars: 0.5 mm (B-D); 10 μm (E-M).	Figure 5. Roussoella pseudohysterioides (GMB 0495) A specimen B, C appearance of ascomata on substrate D cross-section of ascostromata E longitudinal section of an ascoma F peridium G pseudoparaphyses H-I asci J-M ascospores. Scale bars: 0.5 mm (B-D); 10 μm (E-M).	2023-11-29	Hu, Hongmin;He, Minghui;Wu, Youpeng;Long, Sihan;Zhang, Xu;Liu, Lili;Shen, Xiangchun;Wijayawardene, Nalin N.;Meng, Zebin;Long, Qingde;Kang, Jichuan;Li, Qirui		Zenodo	biologists	Hu, Hongmin;He, Minghui;Wu, Youpeng;Long, Sihan;Zhang, Xu;Liu, Lili;Shen, Xiangchun;Wijayawardene, Nalin N.;Meng, Zebin;Long, Qingde;Kang, Jichuan;Li, Qirui			
C1CF6CE5DC0E531C9BCC8E0B06A93B1C.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/944598	https://doi.org/10.3897/mycokeys.100.109423.figure2	Figure 2. RAxML phylogram of Roussoellaceae, based on a combined dataset of partial ITS, LSU, tef 1 and rpb 2 DNA sequences. The tree is rooted by Torula hollandica (CBS 220.69) and T. herbarum (CBS 111855). Bootstrap supports ML (MLB ≥ 75 %) and Bayesian posterior probabilities (BYPP ≥ 0.95) are given as MLB / BYPP above the branches. Sequences from newly-generated isolates are in red, bold letters, while those of ex-type isolates are shown in black, bold letters.	Figure 2. RAxML phylogram of Roussoellaceae, based on a combined dataset of partial ITS, LSU, tef 1 and rpb 2 DNA sequences. The tree is rooted by Torula hollandica (CBS 220.69) and T. herbarum (CBS 111855). Bootstrap supports ML (MLB ≥ 75 %) and Bayesian posterior probabilities (BYPP ≥ 0.95) are given as MLB / BYPP above the branches. Sequences from newly-generated isolates are in red, bold letters, while those of ex-type isolates are shown in black, bold letters.	2023-11-29	Hu, Hongmin;He, Minghui;Wu, Youpeng;Long, Sihan;Zhang, Xu;Liu, Lili;Shen, Xiangchun;Wijayawardene, Nalin N.;Meng, Zebin;Long, Qingde;Kang, Jichuan;Li, Qirui		Zenodo	biologists	Hu, Hongmin;He, Minghui;Wu, Youpeng;Long, Sihan;Zhang, Xu;Liu, Lili;Shen, Xiangchun;Wijayawardene, Nalin N.;Meng, Zebin;Long, Qingde;Kang, Jichuan;Li, Qirui			
87332ACB77A15002ABE6CEA873335CE1.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/944598	https://doi.org/10.3897/mycokeys.100.109423.figure2	Figure 2. RAxML phylogram of Roussoellaceae, based on a combined dataset of partial ITS, LSU, tef 1 and rpb 2 DNA sequences. The tree is rooted by Torula hollandica (CBS 220.69) and T. herbarum (CBS 111855). Bootstrap supports ML (MLB ≥ 75 %) and Bayesian posterior probabilities (BYPP ≥ 0.95) are given as MLB / BYPP above the branches. Sequences from newly-generated isolates are in red, bold letters, while those of ex-type isolates are shown in black, bold letters.	Figure 2. RAxML phylogram of Roussoellaceae, based on a combined dataset of partial ITS, LSU, tef 1 and rpb 2 DNA sequences. The tree is rooted by Torula hollandica (CBS 220.69) and T. herbarum (CBS 111855). Bootstrap supports ML (MLB ≥ 75 %) and Bayesian posterior probabilities (BYPP ≥ 0.95) are given as MLB / BYPP above the branches. Sequences from newly-generated isolates are in red, bold letters, while those of ex-type isolates are shown in black, bold letters.	2023-11-29	Hu, Hongmin;He, Minghui;Wu, Youpeng;Long, Sihan;Zhang, Xu;Liu, Lili;Shen, Xiangchun;Wijayawardene, Nalin N.;Meng, Zebin;Long, Qingde;Kang, Jichuan;Li, Qirui		Zenodo	biologists	Hu, Hongmin;He, Minghui;Wu, Youpeng;Long, Sihan;Zhang, Xu;Liu, Lili;Shen, Xiangchun;Wijayawardene, Nalin N.;Meng, Zebin;Long, Qingde;Kang, Jichuan;Li, Qirui			
