taxonID	type	format	identifier	references	title	description	created	creator	contributor	publisher	audience	source	license	rightsHolder	datasetID
3A4A6D1E2E6557CB95E99470FB84BD41.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/922069	https://doi.org/10.3897/mycokeys.99.107565.figure4	Figure 4. Ophiocordyceps ansiformis a infected Colobopsis sp. biting into a leaf of Rubiaceae Juss b the three ascomata produced from the stroma c, d cross-section of ascomata showing the perithecial arrangement e-h ascus i-k ascospores l-o ascospores with capilliconidiophores p capilliconidium q phialides. Scale bars: 4000 µm (a); 2000 µm (b); 200 µm (c); 100 µm (d); 20 µm (e-h); 10 µm (i, j); 20 µm (k-o); 10 µm (p, q); 5 µm (r).	Figure 4. Ophiocordyceps ansiformis a infected Colobopsis sp. biting into a leaf of Rubiaceae Juss b the three ascomata produced from the stroma c, d cross-section of ascomata showing the perithecial arrangement e-h ascus i-k ascospores l-o ascospores with capilliconidiophores p capilliconidium q phialides. Scale bars: 4000 µm (a); 2000 µm (b); 200 µm (c); 100 µm (d); 20 µm (e-h); 10 µm (i, j); 20 µm (k-o); 10 µm (p, q); 5 µm (r).	2023-10-16	Tang, Dexiang;Zhao, Jing;Lu, Yingling;Wang, Zhiqin;Sun, Tao;Liu, Zuoheng;Yu, Hong		Zenodo	biologists	Tang, Dexiang;Zhao, Jing;Lu, Yingling;Wang, Zhiqin;Sun, Tao;Liu, Zuoheng;Yu, Hong			
3A4A6D1E2E6557CB95E99470FB84BD41.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/922066	https://doi.org/10.3897/mycokeys.99.107565.figure1	Figure 1. Phylogenetic tree of Ophiocordyceps and related genera, based on the concatenation of LSU, SSU, TEF 1 α, RPB 1 and RPB 2 sequence data. The tree was generated from an alignment of 4,827 sites and 143 taxa (38 within O. unilateralis). The phylogeny was inferred using the IQ-tree. Values at the nodes represent IQ-tree bootstrap proportions (on the left) and posterior probabilities (on the right). All values were shown at the nodes. The scale bar 0.02 indicates the number of expected mutations per site. The two new species were indicated in blue and red font within O. unilateralis core clade. Two species (T. inflatum OSC 71235 and T. ophioglossoides CBS 100239) in Tolypocladium were used as the outgroup taxa.	Figure 1. Phylogenetic tree of Ophiocordyceps and related genera, based on the concatenation of LSU, SSU, TEF 1 α, RPB 1 and RPB 2 sequence data. The tree was generated from an alignment of 4,827 sites and 143 taxa (38 within O. unilateralis). The phylogeny was inferred using the IQ-tree. Values at the nodes represent IQ-tree bootstrap proportions (on the left) and posterior probabilities (on the right). All values were shown at the nodes. The scale bar 0.02 indicates the number of expected mutations per site. The two new species were indicated in blue and red font within O. unilateralis core clade. Two species (T. inflatum OSC 71235 and T. ophioglossoides CBS 100239) in Tolypocladium were used as the outgroup taxa.	2023-10-16	Tang, Dexiang;Zhao, Jing;Lu, Yingling;Wang, Zhiqin;Sun, Tao;Liu, Zuoheng;Yu, Hong		Zenodo	biologists	Tang, Dexiang;Zhao, Jing;Lu, Yingling;Wang, Zhiqin;Sun, Tao;Liu, Zuoheng;Yu, Hong			
3A4A6D1E2E6557CB95E99470FB84BD41.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/922067	https://doi.org/10.3897/mycokeys.99.107565.figure2	Figure 2. Phylogenetic tree of some genera of the Formicinae based on COI sequence data. The tree was generated from an alignment of 660 sites and 131 taxa. The phylogeny was inferred using the IQ-tree. Values at the nodes represent IQ-tree bootstrap proportions (on the left) and posterior probabilities (on the right). All values were shown at the nodes. The scale bar 0.05 indicates the number of expected mutations per site. The species (Colonopsis sp. YHH 2210006 and Colonopsis sp. YHH 2210007) are indicated in black and bold font in this work. The Latin name on the right of the tree refers to the pathogenic fungi infecting the host ants and the illustration refers to the fungi infecting ants in the wild. Daceton armigerum USNM was used as the outgroup taxa.	Figure 2. Phylogenetic tree of some genera of the Formicinae based on COI sequence data. The tree was generated from an alignment of 660 sites and 131 taxa. The phylogeny was inferred using the IQ-tree. Values at the nodes represent IQ-tree bootstrap proportions (on the left) and posterior probabilities (on the right). All values were shown at the nodes. The scale bar 0.05 indicates the number of expected mutations per site. The species (Colonopsis sp. YHH 2210006 and Colonopsis sp. YHH 2210007) are indicated in black and bold font in this work. The Latin name on the right of the tree refers to the pathogenic fungi infecting the host ants and the illustration refers to the fungi infecting ants in the wild. Daceton armigerum USNM was used as the outgroup taxa.	2023-10-16	Tang, Dexiang;Zhao, Jing;Lu, Yingling;Wang, Zhiqin;Sun, Tao;Liu, Zuoheng;Yu, Hong		Zenodo	biologists	Tang, Dexiang;Zhao, Jing;Lu, Yingling;Wang, Zhiqin;Sun, Tao;Liu, Zuoheng;Yu, Hong			
6C6D94184ECB5993B59BAA3E2E670754.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/922068	https://doi.org/10.3897/mycokeys.99.107565.figure3	Figure 3. Ophiocordyceps tortuosa a-d infected Colobopsis sp. biting into a leaf of Lauraceae Juss e the three ascomata produced from the stroma f, g cross-section of ascomata showing the perithecial arrangement h, i asci j, k ascospores l, m ascospore with capilliconidiophores n capilliconidium o-q phialides r conidia. Scale bars: 4000 µm (a, b); 3000 µm (c, d); 2000 µm (e); 200 µm (f); 100 µm (g); 20 µm (h, i); 10 µm (j, k); 20 µm (l, m); 10 µm (n); 20 µm (o-r).	Figure 3. Ophiocordyceps tortuosa a-d infected Colobopsis sp. biting into a leaf of Lauraceae Juss e the three ascomata produced from the stroma f, g cross-section of ascomata showing the perithecial arrangement h, i asci j, k ascospores l, m ascospore with capilliconidiophores n capilliconidium o-q phialides r conidia. Scale bars: 4000 µm (a, b); 3000 µm (c, d); 2000 µm (e); 200 µm (f); 100 µm (g); 20 µm (h, i); 10 µm (j, k); 20 µm (l, m); 10 µm (n); 20 µm (o-r).	2023-10-16	Tang, Dexiang;Zhao, Jing;Lu, Yingling;Wang, Zhiqin;Sun, Tao;Liu, Zuoheng;Yu, Hong		Zenodo	biologists	Tang, Dexiang;Zhao, Jing;Lu, Yingling;Wang, Zhiqin;Sun, Tao;Liu, Zuoheng;Yu, Hong			
6C6D94184ECB5993B59BAA3E2E670754.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/922066	https://doi.org/10.3897/mycokeys.99.107565.figure1	Figure 1. Phylogenetic tree of Ophiocordyceps and related genera, based on the concatenation of LSU, SSU, TEF 1 α, RPB 1 and RPB 2 sequence data. The tree was generated from an alignment of 4,827 sites and 143 taxa (38 within O. unilateralis). The phylogeny was inferred using the IQ-tree. Values at the nodes represent IQ-tree bootstrap proportions (on the left) and posterior probabilities (on the right). All values were shown at the nodes. The scale bar 0.02 indicates the number of expected mutations per site. The two new species were indicated in blue and red font within O. unilateralis core clade. Two species (T. inflatum OSC 71235 and T. ophioglossoides CBS 100239) in Tolypocladium were used as the outgroup taxa.	Figure 1. Phylogenetic tree of Ophiocordyceps and related genera, based on the concatenation of LSU, SSU, TEF 1 α, RPB 1 and RPB 2 sequence data. The tree was generated from an alignment of 4,827 sites and 143 taxa (38 within O. unilateralis). The phylogeny was inferred using the IQ-tree. Values at the nodes represent IQ-tree bootstrap proportions (on the left) and posterior probabilities (on the right). All values were shown at the nodes. The scale bar 0.02 indicates the number of expected mutations per site. The two new species were indicated in blue and red font within O. unilateralis core clade. Two species (T. inflatum OSC 71235 and T. ophioglossoides CBS 100239) in Tolypocladium were used as the outgroup taxa.	2023-10-16	Tang, Dexiang;Zhao, Jing;Lu, Yingling;Wang, Zhiqin;Sun, Tao;Liu, Zuoheng;Yu, Hong		Zenodo	biologists	Tang, Dexiang;Zhao, Jing;Lu, Yingling;Wang, Zhiqin;Sun, Tao;Liu, Zuoheng;Yu, Hong			
