taxonID	type	format	identifier	references	title	description	created	creator	contributor	publisher	audience	source	license	rightsHolder	datasetID
D368AD16C1355D81B96B469ACED27959.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/1441406	https://doi.org/10.3897/mycokeys.123.165848.figure17	Figure 17. Achaetomium globosum (CFCC 72648). A. Diseased scale leaves habit of Platycladus orientalis; B, C. Colony surface and reverse on PDA for 7 days; D. The reverse side of the colony cultured on PDA for 14 days; E, F. Ascomata on CMA medium; G, H. Ascomata; I, J. Ascospores. Scale bars: 200 µm (E, F); 10 µm (G – J).	Figure 17. Achaetomium globosum (CFCC 72648). A. Diseased scale leaves habit of Platycladus orientalis; B, C. Colony surface and reverse on PDA for 7 days; D. The reverse side of the colony cultured on PDA for 14 days; E, F. Ascomata on CMA medium; G, H. Ascomata; I, J. Ascospores. Scale bars: 200 µm (E, F); 10 µm (G – J).	2025-10-16	Bi, Zixian;Wu, Yingying;Li, Shuji;Tian, Chengming		Zenodo	biologists	Bi, Zixian;Wu, Yingying;Li, Shuji;Tian, Chengming			
0C82162FBEEE5372AAC6A9ACCA01DDE4.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/1441399	https://doi.org/10.3897/mycokeys.123.165848.figure10	Figure 10. Aplosporella hesperidica (CFCC 72635). A. Conidiomata on a dead twig of Platycladus orientalis; B. Cransverse section of conidioma; C. Longitudinal section of conidioma; D, E. Colony morphology on PDA front and reverse views; F. Conidia; G. Pycnidia; H – K. Conidiogenous cells and paraphyses. Scale bars: 200 µm (B, C); 100 µm (G); 20 µm (I – K); 10 µm (H).	Figure 10. Aplosporella hesperidica (CFCC 72635). A. Conidiomata on a dead twig of Platycladus orientalis; B. Cransverse section of conidioma; C. Longitudinal section of conidioma; D, E. Colony morphology on PDA front and reverse views; F. Conidia; G. Pycnidia; H – K. Conidiogenous cells and paraphyses. Scale bars: 200 µm (B, C); 100 µm (G); 20 µm (I – K); 10 µm (H).	2025-10-16	Bi, Zixian;Wu, Yingying;Li, Shuji;Tian, Chengming		Zenodo	biologists	Bi, Zixian;Wu, Yingying;Li, Shuji;Tian, Chengming			
08D44C849AEA5F3D992189E088215CEB.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/1441400	https://doi.org/10.3897/mycokeys.123.165848.figure11	Figure 11. Aplosporella javeedii (CFCC 72643). A. Healthy strobili of Platycladus orientalis; B, C. Colony morphology on PDA front and reverse views; D. The conidiomata on PDA; E, F. Conidiogenous cells and paraphyses; G, H. Conidiogenous cells and conidia. Scale bars: 200 µm (D); 10 µm (E – H).	Figure 11. Aplosporella javeedii (CFCC 72643). A. Healthy strobili of Platycladus orientalis; B, C. Colony morphology on PDA front and reverse views; D. The conidiomata on PDA; E, F. Conidiogenous cells and paraphyses; G, H. Conidiogenous cells and conidia. Scale bars: 200 µm (D); 10 µm (E – H).	2025-10-16	Bi, Zixian;Wu, Yingying;Li, Shuji;Tian, Chengming		Zenodo	biologists	Bi, Zixian;Wu, Yingying;Li, Shuji;Tian, Chengming			
5C06E227F08557E587E9EDF71B77F768.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/1441401	https://doi.org/10.3897/mycokeys.123.165848.figure12	Figure 12. Aplosporella prunicola (CFCC 72634). A. Conidiomata on a dead twig of Platycladus orientalis; B. Transverse section of conidioma; C. Longitudinal section of conidioma; D, E. Colony morphology on PDA front and reverse views; G. Pycnidia; H. Conidia; I, J. Conidiogenous cells and paraphyses. Scale bars: 200 µm (B, C); 100 µm (G); 10 µm (H – J).	Figure 12. Aplosporella prunicola (CFCC 72634). A. Conidiomata on a dead twig of Platycladus orientalis; B. Transverse section of conidioma; C. Longitudinal section of conidioma; D, E. Colony morphology on PDA front and reverse views; G. Pycnidia; H. Conidia; I, J. Conidiogenous cells and paraphyses. Scale bars: 200 µm (B, C); 100 µm (G); 10 µm (H – J).	2025-10-16	Bi, Zixian;Wu, Yingying;Li, Shuji;Tian, Chengming		Zenodo	biologists	Bi, Zixian;Wu, Yingying;Li, Shuji;Tian, Chengming			
CDFD4E875B5E58E4AD7F10CABE1E0668.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/1441407	https://doi.org/10.3897/mycokeys.123.165848.figure18	Figure 18. Arcopilus aureus (CFCC 72639). A. Diseased scale leaves habit of Platycladus orientalis; B, C. Colony surface and reverse on PDA; D – F. Ascomata on PDA medium; G, H. Ascomata; I. Ascospores; J. The basal cell of the ascus; K, L. Ascus and ascospores. Scale bars: 200 µm (D – F); 10 µm (G – L).	Figure 18. Arcopilus aureus (CFCC 72639). A. Diseased scale leaves habit of Platycladus orientalis; B, C. Colony surface and reverse on PDA; D – F. Ascomata on PDA medium; G, H. Ascomata; I. Ascospores; J. The basal cell of the ascus; K, L. Ascus and ascospores. Scale bars: 200 µm (D – F); 10 µm (G – L).	2025-10-16	Bi, Zixian;Wu, Yingying;Li, Shuji;Tian, Chengming		Zenodo	biologists	Bi, Zixian;Wu, Yingying;Li, Shuji;Tian, Chengming			
B7A09D1DA1335A8D9EA336C2FF473923.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/1441408	https://doi.org/10.3897/mycokeys.123.165848.figure19	Figure 19. Chaetomium globosum (CFCC 72642). A. Diseased scale leaves habit of Platycladus orientalis; B, C. Colony surface and reverse on PDA; D – F. Ascomata on PDA medium; G – I. Ascomata; J, K. Asci; L. Ascospores. Scale bars: 200 µm (D – F); 10 µm (G – L).	Figure 19. Chaetomium globosum (CFCC 72642). A. Diseased scale leaves habit of Platycladus orientalis; B, C. Colony surface and reverse on PDA; D – F. Ascomata on PDA medium; G – I. Ascomata; J, K. Asci; L. Ascospores. Scale bars: 200 µm (D – F); 10 µm (G – L).	2025-10-16	Bi, Zixian;Wu, Yingying;Li, Shuji;Tian, Chengming		Zenodo	biologists	Bi, Zixian;Wu, Yingying;Li, Shuji;Tian, Chengming			
2D8E0FE417E5519F893B516B362AC02B.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/1441402	https://doi.org/10.3897/mycokeys.123.165848.figure13	Figure 13. Neofusicoccum occulatum (CFCC 72629). A. Conidiomata on withered twigs of Platycladus orientalis; B. Colony morphology on PDA front views; C. The conidiomata on PDA; D, E. Pycnidia; F – H. Conidiogenous cells; I. Conidia. Scale bars: 100 µm (C); 10 µm (D – I).	Figure 13. Neofusicoccum occulatum (CFCC 72629). A. Conidiomata on withered twigs of Platycladus orientalis; B. Colony morphology on PDA front views; C. The conidiomata on PDA; D, E. Pycnidia; F – H. Conidiogenous cells; I. Conidia. Scale bars: 100 µm (C); 10 µm (D – I).	2025-10-16	Bi, Zixian;Wu, Yingying;Li, Shuji;Tian, Chengming		Zenodo	biologists	Bi, Zixian;Wu, Yingying;Li, Shuji;Tian, Chengming			
A73F79DDC46D5C0E841638001906FF50.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/1441403	https://doi.org/10.3897/mycokeys.123.165848.figure14	Figure 14. Nigrospora oryzae (CFCC 72638, CFCC 72644). A, B. Diseased scale leaves of Platycladus orientalis; C. Withered leaf tips of Juniperus procumbens; D, E. Colony surface and reverse on PDA; F, G. Conidia; H, I. Conidiogenous cells. Scale bars: 10 µm (F – I).	Figure 14. Nigrospora oryzae (CFCC 72638, CFCC 72644). A, B. Diseased scale leaves of Platycladus orientalis; C. Withered leaf tips of Juniperus procumbens; D, E. Colony surface and reverse on PDA; F, G. Conidia; H, I. Conidiogenous cells. Scale bars: 10 µm (F – I).	2025-10-16	Bi, Zixian;Wu, Yingying;Li, Shuji;Tian, Chengming		Zenodo	biologists	Bi, Zixian;Wu, Yingying;Li, Shuji;Tian, Chengming			
AD67D4D67DDF56BF86D877475A3B0298.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/1441404	https://doi.org/10.3897/mycokeys.123.165848.figure15	Figure 15. Nigrospora osmanthi (CFCC 72646). A. Healthy strobili of Juniperus chinensis; B, C. Colony surface and reverse on PDA; D. Conidia; E – G. Conidiogenous cells. Scale bars: 10 µm (D – G).	Figure 15. Nigrospora osmanthi (CFCC 72646). A. Healthy strobili of Juniperus chinensis; B, C. Colony surface and reverse on PDA; D. Conidia; E – G. Conidiogenous cells. Scale bars: 10 µm (D – G).	2025-10-16	Bi, Zixian;Wu, Yingying;Li, Shuji;Tian, Chengming		Zenodo	biologists	Bi, Zixian;Wu, Yingying;Li, Shuji;Tian, Chengming			
F94F37B96A3555E89A2326740A485917.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/1441405	https://doi.org/10.3897/mycokeys.123.165848.figure16	Figure 16. Nigrospora philosophiae-doctoris (CFCC 72628, CFCC 72637). A. Diseased scale leaves habit of Platycladus orientalis; B. Healthy strobili habit of Juniperus chinensis; C. Colony surface on PDA; D, E. Conidia; F – I. Conidiogenous cells. Scale bars: 10 µm (D – I).	Figure 16. Nigrospora philosophiae-doctoris (CFCC 72628, CFCC 72637). A. Diseased scale leaves habit of Platycladus orientalis; B. Healthy strobili habit of Juniperus chinensis; C. Colony surface on PDA; D, E. Conidia; F – I. Conidiogenous cells. Scale bars: 10 µm (D – I).	2025-10-16	Bi, Zixian;Wu, Yingying;Li, Shuji;Tian, Chengming		Zenodo	biologists	Bi, Zixian;Wu, Yingying;Li, Shuji;Tian, Chengming			
F94F37B96A3555E89A2326740A485917.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/1441391	https://doi.org/10.3897/mycokeys.123.165848.figure2	Figure 2. ML phylogenetic tree of Nigrospora based on combined ITS, tef 1 - α, and tub 2 sequence data. The tree is rooted with Apiospora malaysiana (CBS 102053) and Apiospora pseudoparenchymatica (LC 7234). Bootstrap support values from ML analysis (ML ≥ 50 %) and Bayesian posterior probabilities (BI ≥ 0.90) are shown at the nodes. Strains obtained in this study are marked in blue; ex-type strains are indicated in bold black type.	Figure 2. ML phylogenetic tree of Nigrospora based on combined ITS, tef 1 - α, and tub 2 sequence data. The tree is rooted with Apiospora malaysiana (CBS 102053) and Apiospora pseudoparenchymatica (LC 7234). Bootstrap support values from ML analysis (ML ≥ 50 %) and Bayesian posterior probabilities (BI ≥ 0.90) are shown at the nodes. Strains obtained in this study are marked in blue; ex-type strains are indicated in bold black type.	2025-10-16	Bi, Zixian;Wu, Yingying;Li, Shuji;Tian, Chengming		Zenodo	biologists	Bi, Zixian;Wu, Yingying;Li, Shuji;Tian, Chengming			
444A481F254D502591A77D0AEC6B3FF2.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/1441398	https://doi.org/10.3897/mycokeys.123.165848.figure9	Figure 9. Nigrospora platycladiensis (CFCC 72632). A. Diseased scale leaves habit of Platycladus orientalis; B, C. Colony surface and reverse on PDA; D. Conidia; E – I. Conidiogenous cells; J, K. Hyphae growing at the bottom of PDA. Scale bars: 10 µm (D – K).	Figure 9. Nigrospora platycladiensis (CFCC 72632). A. Diseased scale leaves habit of Platycladus orientalis; B, C. Colony surface and reverse on PDA; D. Conidia; E – I. Conidiogenous cells; J, K. Hyphae growing at the bottom of PDA. Scale bars: 10 µm (D – K).	2025-10-16	Bi, Zixian;Wu, Yingying;Li, Shuji;Tian, Chengming		Zenodo	biologists	Bi, Zixian;Wu, Yingying;Li, Shuji;Tian, Chengming			
444A481F254D502591A77D0AEC6B3FF2.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/1441391	https://doi.org/10.3897/mycokeys.123.165848.figure2	Figure 2. ML phylogenetic tree of Nigrospora based on combined ITS, tef 1 - α, and tub 2 sequence data. The tree is rooted with Apiospora malaysiana (CBS 102053) and Apiospora pseudoparenchymatica (LC 7234). Bootstrap support values from ML analysis (ML ≥ 50 %) and Bayesian posterior probabilities (BI ≥ 0.90) are shown at the nodes. Strains obtained in this study are marked in blue; ex-type strains are indicated in bold black type.	Figure 2. ML phylogenetic tree of Nigrospora based on combined ITS, tef 1 - α, and tub 2 sequence data. The tree is rooted with Apiospora malaysiana (CBS 102053) and Apiospora pseudoparenchymatica (LC 7234). Bootstrap support values from ML analysis (ML ≥ 50 %) and Bayesian posterior probabilities (BI ≥ 0.90) are shown at the nodes. Strains obtained in this study are marked in blue; ex-type strains are indicated in bold black type.	2025-10-16	Bi, Zixian;Wu, Yingying;Li, Shuji;Tian, Chengming		Zenodo	biologists	Bi, Zixian;Wu, Yingying;Li, Shuji;Tian, Chengming			
390F9897EEC0583695FD701F6CE3D4FC.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/1441409	https://doi.org/10.3897/mycokeys.123.165848.figure20	Figure 20. Seiridium unicorne (CFCC 72631). A. Conidiomata on a diseased branch habit of Platycladus orientalis; B, C. Colony surface and reverse on PDA; D. Conidiomata and conidia; E, F. Conidiogenous cells; G. Conidia. Scale bars: 10 µm (D – G).	Figure 20. Seiridium unicorne (CFCC 72631). A. Conidiomata on a diseased branch habit of Platycladus orientalis; B, C. Colony surface and reverse on PDA; D. Conidiomata and conidia; E, F. Conidiogenous cells; G. Conidia. Scale bars: 10 µm (D – G).	2025-10-16	Bi, Zixian;Wu, Yingying;Li, Shuji;Tian, Chengming		Zenodo	biologists	Bi, Zixian;Wu, Yingying;Li, Shuji;Tian, Chengming			
390F9897EEC0583695FD701F6CE3D4FC.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/1441396	https://doi.org/10.3897/mycokeys.123.165848.figure7	Figure 7. ML phylogenetic tree of Seiridium based on combined ITS, LSU, rpb 2, tef 1 - α, and tub 2 sequence data. The tree is rooted with Neopestalotiopsis protearum (CBS 114178). Bootstrap support values from ML analysis (ML ≥ 50 %) and Bayesian posterior probabilities (BI ≥ 0.90) are shown at the nodes. Strains obtained in this study are marked in blue; ex-type strains are indicated in bold black type.	Figure 7. ML phylogenetic tree of Seiridium based on combined ITS, LSU, rpb 2, tef 1 - α, and tub 2 sequence data. The tree is rooted with Neopestalotiopsis protearum (CBS 114178). Bootstrap support values from ML analysis (ML ≥ 50 %) and Bayesian posterior probabilities (BI ≥ 0.90) are shown at the nodes. Strains obtained in this study are marked in blue; ex-type strains are indicated in bold black type.	2025-10-16	Bi, Zixian;Wu, Yingying;Li, Shuji;Tian, Chengming		Zenodo	biologists	Bi, Zixian;Wu, Yingying;Li, Shuji;Tian, Chengming			
947525D1C05A5E799F1A1D02ED1CB410.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/1441397	https://doi.org/10.3897/mycokeys.123.165848.figure8	Figure 8. Spegazzinia juniperi (CFCC 72647). A. Healthy cones of the host plant Juniperus chinensis; B, C. Colony surface and reverse on PDA; D, E. Sporodochia on PDA; F – I. α conidia and α conidiophores; J – L. β conidia and β conidiophores; M – P. Conidiophore mother cells. Scale bars: 200 µm (D, E); 10 µm (F – P).	Figure 8. Spegazzinia juniperi (CFCC 72647). A. Healthy cones of the host plant Juniperus chinensis; B, C. Colony surface and reverse on PDA; D, E. Sporodochia on PDA; F – I. α conidia and α conidiophores; J – L. β conidia and β conidiophores; M – P. Conidiophore mother cells. Scale bars: 200 µm (D, E); 10 µm (F – P).	2025-10-16	Bi, Zixian;Wu, Yingying;Li, Shuji;Tian, Chengming		Zenodo	biologists	Bi, Zixian;Wu, Yingying;Li, Shuji;Tian, Chengming			
947525D1C05A5E799F1A1D02ED1CB410.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/1441392	https://doi.org/10.3897/mycokeys.123.165848.figure3	Figure 3. ML phylogenetic tree of Spegazzinia and its closely related genera based on combined ITS, LSU, SSU, and tef 1 - α sequence data. The tree is rooted with Pleospora herbarum (CBS 191.86) and Stemphylium botryosum (CBS 714.68). Bootstrap support values from ML analysis (ML ≥ 50 %) and Bayesian posterior probabilities (BI ≥ 0.90) are shown at the nodes. Strains obtained in this study are marked in blue; ex-type strains are indicated in bold black type.	Figure 3. ML phylogenetic tree of Spegazzinia and its closely related genera based on combined ITS, LSU, SSU, and tef 1 - α sequence data. The tree is rooted with Pleospora herbarum (CBS 191.86) and Stemphylium botryosum (CBS 714.68). Bootstrap support values from ML analysis (ML ≥ 50 %) and Bayesian posterior probabilities (BI ≥ 0.90) are shown at the nodes. Strains obtained in this study are marked in blue; ex-type strains are indicated in bold black type.	2025-10-16	Bi, Zixian;Wu, Yingying;Li, Shuji;Tian, Chengming		Zenodo	biologists	Bi, Zixian;Wu, Yingying;Li, Shuji;Tian, Chengming			
