taxonID	type	format	identifier	references	title	description	created	creator	contributor	publisher	audience	source	license	rightsHolder	datasetID
51CE15EB41BF5200B9E983172F695A7A.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/1341120	https://doi.org/10.3897/mycokeys.118.153609.figure2	Figure 2. Phyllosticta capitalensis (CGMCC 3.28668) a diseased leaf of Mangifera indica b, c colonies (left-above, right-reverse) after 14 d on PDA d conidiomata e, f conidiogenous cells with conidia g, h conidia. Scale bars: 10 μm (e – h).	Figure 2. Phyllosticta capitalensis (CGMCC 3.28668) a diseased leaf of Mangifera indica b, c colonies (left-above, right-reverse) after 14 d on PDA d conidiomata e, f conidiogenous cells with conidia g, h conidia. Scale bars: 10 μm (e – h).	2025-05-29	Zhang, Meng-Yuan;Zhang, Zhao-Xue;Li, Du-Hua;Zhang, Xiu-Guo;Xia, Ji-Wen;Li, Zhuang		Zenodo	biologists	Zhang, Meng-Yuan;Zhang, Zhao-Xue;Li, Du-Hua;Zhang, Xiu-Guo;Xia, Ji-Wen;Li, Zhuang			
51CE15EB41BF5200B9E983172F695A7A.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/1341119	https://doi.org/10.3897/mycokeys.118.153609.figure1	Figure 1. Phylogram of the Phyllosticta, inferred from a concatenated alignment of ITS, LSU, tef 1, ACT, and GPDH sequences. Botryosphaeria obtusa (CMW 8232) and B. stevensii (CBS 112553) were used as outgroup taxa. BI posterior probabilities and ML bootstrap support values above 0.90 and 70 % are shown at the first and second positions, respectively. Ex-type cultures are highlighted in bold, while strains obtained in this study are marked in red. Some branches have been shortened for layout optimization, indicated by double diagonal lines with the corresponding reduction factor. The scale bar at the bottom left represents the number of substitutions per site.	Figure 1. Phylogram of the Phyllosticta, inferred from a concatenated alignment of ITS, LSU, tef 1, ACT, and GPDH sequences. Botryosphaeria obtusa (CMW 8232) and B. stevensii (CBS 112553) were used as outgroup taxa. BI posterior probabilities and ML bootstrap support values above 0.90 and 70 % are shown at the first and second positions, respectively. Ex-type cultures are highlighted in bold, while strains obtained in this study are marked in red. Some branches have been shortened for layout optimization, indicated by double diagonal lines with the corresponding reduction factor. The scale bar at the bottom left represents the number of substitutions per site.	2025-05-29	Zhang, Meng-Yuan;Zhang, Zhao-Xue;Li, Du-Hua;Zhang, Xiu-Guo;Xia, Ji-Wen;Li, Zhuang		Zenodo	biologists	Zhang, Meng-Yuan;Zhang, Zhao-Xue;Li, Du-Hua;Zhang, Xiu-Guo;Xia, Ji-Wen;Li, Zhuang			
B28C49F770A1559AB2289EEE7D319D08.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/1341121	https://doi.org/10.3897/mycokeys.118.153609.figure3	Figure 3. Phyllosticta elliptica (CGMCC 3.28672) a diseased leaf of Rubus ellipticus var. obcordatus b, c colonies (left-above, right-reverse) after 14 d on PDA d conidiomata e, f conidiogenous cells with conidia g – j conidia. Scale bars: 10 μm (e – j).	Figure 3. Phyllosticta elliptica (CGMCC 3.28672) a diseased leaf of Rubus ellipticus var. obcordatus b, c colonies (left-above, right-reverse) after 14 d on PDA d conidiomata e, f conidiogenous cells with conidia g – j conidia. Scale bars: 10 μm (e – j).	2025-05-29	Zhang, Meng-Yuan;Zhang, Zhao-Xue;Li, Du-Hua;Zhang, Xiu-Guo;Xia, Ji-Wen;Li, Zhuang		Zenodo	biologists	Zhang, Meng-Yuan;Zhang, Zhao-Xue;Li, Du-Hua;Zhang, Xiu-Guo;Xia, Ji-Wen;Li, Zhuang			
B28C49F770A1559AB2289EEE7D319D08.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/1341119	https://doi.org/10.3897/mycokeys.118.153609.figure1	Figure 1. Phylogram of the Phyllosticta, inferred from a concatenated alignment of ITS, LSU, tef 1, ACT, and GPDH sequences. Botryosphaeria obtusa (CMW 8232) and B. stevensii (CBS 112553) were used as outgroup taxa. BI posterior probabilities and ML bootstrap support values above 0.90 and 70 % are shown at the first and second positions, respectively. Ex-type cultures are highlighted in bold, while strains obtained in this study are marked in red. Some branches have been shortened for layout optimization, indicated by double diagonal lines with the corresponding reduction factor. The scale bar at the bottom left represents the number of substitutions per site.	Figure 1. Phylogram of the Phyllosticta, inferred from a concatenated alignment of ITS, LSU, tef 1, ACT, and GPDH sequences. Botryosphaeria obtusa (CMW 8232) and B. stevensii (CBS 112553) were used as outgroup taxa. BI posterior probabilities and ML bootstrap support values above 0.90 and 70 % are shown at the first and second positions, respectively. Ex-type cultures are highlighted in bold, while strains obtained in this study are marked in red. Some branches have been shortened for layout optimization, indicated by double diagonal lines with the corresponding reduction factor. The scale bar at the bottom left represents the number of substitutions per site.	2025-05-29	Zhang, Meng-Yuan;Zhang, Zhao-Xue;Li, Du-Hua;Zhang, Xiu-Guo;Xia, Ji-Wen;Li, Zhuang		Zenodo	biologists	Zhang, Meng-Yuan;Zhang, Zhao-Xue;Li, Du-Hua;Zhang, Xiu-Guo;Xia, Ji-Wen;Li, Zhuang			
A7908DF2AEAB5FA7821D8A0588E45590.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/1341122	https://doi.org/10.3897/mycokeys.118.153609.figure4	Figure 4. Phyllosticta rhododendri (CGMCC 3.28673) a diseased leaf of Rhododendron × pulchrum b, c colonies (left-above, right-reverse) after 14 days on PDA d conidiomata e, f conidiogenous cells with conidia g, h conidia i spermatia. Scale bars: 10 μm (e – i).	Figure 4. Phyllosticta rhododendri (CGMCC 3.28673) a diseased leaf of Rhododendron × pulchrum b, c colonies (left-above, right-reverse) after 14 days on PDA d conidiomata e, f conidiogenous cells with conidia g, h conidia i spermatia. Scale bars: 10 μm (e – i).	2025-05-29	Zhang, Meng-Yuan;Zhang, Zhao-Xue;Li, Du-Hua;Zhang, Xiu-Guo;Xia, Ji-Wen;Li, Zhuang		Zenodo	biologists	Zhang, Meng-Yuan;Zhang, Zhao-Xue;Li, Du-Hua;Zhang, Xiu-Guo;Xia, Ji-Wen;Li, Zhuang			
A7908DF2AEAB5FA7821D8A0588E45590.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/1341119	https://doi.org/10.3897/mycokeys.118.153609.figure1	Figure 1. Phylogram of the Phyllosticta, inferred from a concatenated alignment of ITS, LSU, tef 1, ACT, and GPDH sequences. Botryosphaeria obtusa (CMW 8232) and B. stevensii (CBS 112553) were used as outgroup taxa. BI posterior probabilities and ML bootstrap support values above 0.90 and 70 % are shown at the first and second positions, respectively. Ex-type cultures are highlighted in bold, while strains obtained in this study are marked in red. Some branches have been shortened for layout optimization, indicated by double diagonal lines with the corresponding reduction factor. The scale bar at the bottom left represents the number of substitutions per site.	Figure 1. Phylogram of the Phyllosticta, inferred from a concatenated alignment of ITS, LSU, tef 1, ACT, and GPDH sequences. Botryosphaeria obtusa (CMW 8232) and B. stevensii (CBS 112553) were used as outgroup taxa. BI posterior probabilities and ML bootstrap support values above 0.90 and 70 % are shown at the first and second positions, respectively. Ex-type cultures are highlighted in bold, while strains obtained in this study are marked in red. Some branches have been shortened for layout optimization, indicated by double diagonal lines with the corresponding reduction factor. The scale bar at the bottom left represents the number of substitutions per site.	2025-05-29	Zhang, Meng-Yuan;Zhang, Zhao-Xue;Li, Du-Hua;Zhang, Xiu-Guo;Xia, Ji-Wen;Li, Zhuang		Zenodo	biologists	Zhang, Meng-Yuan;Zhang, Zhao-Xue;Li, Du-Hua;Zhang, Xiu-Guo;Xia, Ji-Wen;Li, Zhuang			
371DA4D175A3528F9C51EED858886A6C.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/1341123	https://doi.org/10.3897/mycokeys.118.153609.figure5	Figure 5. Phyllosticta wuzhishanensis (CGMCC 3.28670) a, b colonies (left-above, right-reverse) after 14 d on PDA c conidiomata d – f conidiogenous cells with conidia g, h conidia i spermatia. Scale bars: 10 μm (d – i).	Figure 5. Phyllosticta wuzhishanensis (CGMCC 3.28670) a, b colonies (left-above, right-reverse) after 14 d on PDA c conidiomata d – f conidiogenous cells with conidia g, h conidia i spermatia. Scale bars: 10 μm (d – i).	2025-05-29	Zhang, Meng-Yuan;Zhang, Zhao-Xue;Li, Du-Hua;Zhang, Xiu-Guo;Xia, Ji-Wen;Li, Zhuang		Zenodo	biologists	Zhang, Meng-Yuan;Zhang, Zhao-Xue;Li, Du-Hua;Zhang, Xiu-Guo;Xia, Ji-Wen;Li, Zhuang			
371DA4D175A3528F9C51EED858886A6C.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/1341119	https://doi.org/10.3897/mycokeys.118.153609.figure1	Figure 1. Phylogram of the Phyllosticta, inferred from a concatenated alignment of ITS, LSU, tef 1, ACT, and GPDH sequences. Botryosphaeria obtusa (CMW 8232) and B. stevensii (CBS 112553) were used as outgroup taxa. BI posterior probabilities and ML bootstrap support values above 0.90 and 70 % are shown at the first and second positions, respectively. Ex-type cultures are highlighted in bold, while strains obtained in this study are marked in red. Some branches have been shortened for layout optimization, indicated by double diagonal lines with the corresponding reduction factor. The scale bar at the bottom left represents the number of substitutions per site.	Figure 1. Phylogram of the Phyllosticta, inferred from a concatenated alignment of ITS, LSU, tef 1, ACT, and GPDH sequences. Botryosphaeria obtusa (CMW 8232) and B. stevensii (CBS 112553) were used as outgroup taxa. BI posterior probabilities and ML bootstrap support values above 0.90 and 70 % are shown at the first and second positions, respectively. Ex-type cultures are highlighted in bold, while strains obtained in this study are marked in red. Some branches have been shortened for layout optimization, indicated by double diagonal lines with the corresponding reduction factor. The scale bar at the bottom left represents the number of substitutions per site.	2025-05-29	Zhang, Meng-Yuan;Zhang, Zhao-Xue;Li, Du-Hua;Zhang, Xiu-Guo;Xia, Ji-Wen;Li, Zhuang		Zenodo	biologists	Zhang, Meng-Yuan;Zhang, Zhao-Xue;Li, Du-Hua;Zhang, Xiu-Guo;Xia, Ji-Wen;Li, Zhuang			
