taxonID	type	format	identifier	references	title	description	created	creator	contributor	publisher	audience	source	license	rightsHolder	datasetID
348681A30E3858928481DEEAF76FC24A.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/395594	https://doi.org/10.3897/mycokeys.66.46575.figure3	Figure 3. Capillidium adiaeretum a colony on PDA after 3 d at 25 ° C b mycelia c, d primary conidiophores bearing primary conidia e, f primary conidia g Production of secondary conidia h first stage of forming microconidia i second stage of forming microconidia j, k ellipsoidal secondary conidia arising from slender conidiophores l chlamydospores. Scale bars: 10 mm (a); 100 μm (b); 20 μm (c-l).	Figure 3. Capillidium adiaeretum a colony on PDA after 3 d at 25 ° C b mycelia c, d primary conidiophores bearing primary conidia e, f primary conidia g Production of secondary conidia h first stage of forming microconidia i second stage of forming microconidia j, k ellipsoidal secondary conidia arising from slender conidiophores l chlamydospores. Scale bars: 10 mm (a); 100 μm (b); 20 μm (c-l).	2020-12-31	Nie, Yong;Yu, De-Shui;Wang, Cheng-Fang;Liu, Xiao-Yong;Huang, Bo		Zenodo	biologists	Nie, Yong;Yu, De-Shui;Wang, Cheng-Fang;Liu, Xiao-Yong;Huang, Bo			
033D89FAFE075B76ABF5D805C655AA30.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/395593	https://doi.org/10.3897/mycokeys.66.46575.figure2	Figure 2. Capillidium heterosporum a colony on PDA after 3 d at 25 ° C b primary conidiophores bearing primary conidia c primary conidia d, e, f ellipsoidal secondary conidia arising from slender conidiophores g, h production of secondary conidia. Scale bars: 10 mm (a); 20 μm (b, c, d, g, h); 100 μm (e, f).	Figure 2. Capillidium heterosporum a colony on PDA after 3 d at 25 ° C b primary conidiophores bearing primary conidia c primary conidia d, e, f ellipsoidal secondary conidia arising from slender conidiophores g, h production of secondary conidia. Scale bars: 10 mm (a); 20 μm (b, c, d, g, h); 100 μm (e, f).	2020-12-31	Nie, Yong;Yu, De-Shui;Wang, Cheng-Fang;Liu, Xiao-Yong;Huang, Bo		Zenodo	biologists	Nie, Yong;Yu, De-Shui;Wang, Cheng-Fang;Liu, Xiao-Yong;Huang, Bo			
A6638E2EFF1653E3B73884069BF5E7DF.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/395592	https://doi.org/10.3897/mycokeys.66.46575.figure1	Figure 1. Phylogenetic tree constructed by maximum likelihood analyses of nucLSU, nucSSU, EF- 1 α and mtSSU sequences for Entomophthoromycotina, with some chytrid and mucoralean fungi as outgroups. Three new genera and one Chinese new record are shown in red. Maximum likelihood bootstrap values (≥ 50 %) / Bayesian posterior probabilities (≥ 0.50) of main clades are indicated along branches. Scale bar indicates substitutions per site.	Figure 1. Phylogenetic tree constructed by maximum likelihood analyses of nucLSU, nucSSU, EF- 1 α and mtSSU sequences for Entomophthoromycotina, with some chytrid and mucoralean fungi as outgroups. Three new genera and one Chinese new record are shown in red. Maximum likelihood bootstrap values (≥ 50 %) / Bayesian posterior probabilities (≥ 0.50) of main clades are indicated along branches. Scale bar indicates substitutions per site.	2020-12-31	Nie, Yong;Yu, De-Shui;Wang, Cheng-Fang;Liu, Xiao-Yong;Huang, Bo		Zenodo	biologists	Nie, Yong;Yu, De-Shui;Wang, Cheng-Fang;Liu, Xiao-Yong;Huang, Bo			
C501E77E6761514E8E815DC66636ED0F.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/395595	https://doi.org/10.3897/mycokeys.66.46575.figure4	Figure 4. Conidiobolus coronatus a colony on PDA after 3 d at 21 ° C b primary conidia c production of secondary conidia d, e primary conidiophores bearing primary conidia f, g microconidia h villose spores. Scale bars: 10 mm (a); 20 μm (b-h).	Figure 4. Conidiobolus coronatus a colony on PDA after 3 d at 21 ° C b primary conidia c production of secondary conidia d, e primary conidiophores bearing primary conidia f, g microconidia h villose spores. Scale bars: 10 mm (a); 20 μm (b-h).	2020-12-31	Nie, Yong;Yu, De-Shui;Wang, Cheng-Fang;Liu, Xiao-Yong;Huang, Bo		Zenodo	biologists	Nie, Yong;Yu, De-Shui;Wang, Cheng-Fang;Liu, Xiao-Yong;Huang, Bo			
2BC62ED22D2F5A0382F3B6D6572047FA.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/395596	https://doi.org/10.3897/mycokeys.66.46575.figure5	Figure 5. a-g Conidiobolus iuxtagenitus h Conidiobolus khandalensis a colony on PDA after 3 d at 21 ° C b primary conidiophores bearing primary conidia c primary conidia d tertiary fusiform conidium from a globose spore e zygospore formation with the beak almost emptied of protoplasm f production of secondary conidia g zygospores h microconidia produced from global conidia. Scale bars: 10 mm (a); 20 μm (b-h).	Figure 5. a-g Conidiobolus iuxtagenitus h Conidiobolus khandalensis a colony on PDA after 3 d at 21 ° C b primary conidiophores bearing primary conidia c primary conidia d tertiary fusiform conidium from a globose spore e zygospore formation with the beak almost emptied of protoplasm f production of secondary conidia g zygospores h microconidia produced from global conidia. Scale bars: 10 mm (a); 20 μm (b-h).	2020-12-31	Nie, Yong;Yu, De-Shui;Wang, Cheng-Fang;Liu, Xiao-Yong;Huang, Bo		Zenodo	biologists	Nie, Yong;Yu, De-Shui;Wang, Cheng-Fang;Liu, Xiao-Yong;Huang, Bo			
E009E85B7E6F59CAA1AABC7893AB6585.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/395596	https://doi.org/10.3897/mycokeys.66.46575.figure5	Figure 5. a-g Conidiobolus iuxtagenitus h Conidiobolus khandalensis a colony on PDA after 3 d at 21 ° C b primary conidiophores bearing primary conidia c primary conidia d tertiary fusiform conidium from a globose spore e zygospore formation with the beak almost emptied of protoplasm f production of secondary conidia g zygospores h microconidia produced from global conidia. Scale bars: 10 mm (a); 20 μm (b-h).	Figure 5. a-g Conidiobolus iuxtagenitus h Conidiobolus khandalensis a colony on PDA after 3 d at 21 ° C b primary conidiophores bearing primary conidia c primary conidia d tertiary fusiform conidium from a globose spore e zygospore formation with the beak almost emptied of protoplasm f production of secondary conidia g zygospores h microconidia produced from global conidia. Scale bars: 10 mm (a); 20 μm (b-h).	2020-12-31	Nie, Yong;Yu, De-Shui;Wang, Cheng-Fang;Liu, Xiao-Yong;Huang, Bo		Zenodo	biologists	Nie, Yong;Yu, De-Shui;Wang, Cheng-Fang;Liu, Xiao-Yong;Huang, Bo			
E009E85B7E6F59CAA1AABC7893AB6585.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/395592	https://doi.org/10.3897/mycokeys.66.46575.figure1	Figure 1. Phylogenetic tree constructed by maximum likelihood analyses of nucLSU, nucSSU, EF- 1 α and mtSSU sequences for Entomophthoromycotina, with some chytrid and mucoralean fungi as outgroups. Three new genera and one Chinese new record are shown in red. Maximum likelihood bootstrap values (≥ 50 %) / Bayesian posterior probabilities (≥ 0.50) of main clades are indicated along branches. Scale bar indicates substitutions per site.	Figure 1. Phylogenetic tree constructed by maximum likelihood analyses of nucLSU, nucSSU, EF- 1 α and mtSSU sequences for Entomophthoromycotina, with some chytrid and mucoralean fungi as outgroups. Three new genera and one Chinese new record are shown in red. Maximum likelihood bootstrap values (≥ 50 %) / Bayesian posterior probabilities (≥ 0.50) of main clades are indicated along branches. Scale bar indicates substitutions per site.	2020-12-31	Nie, Yong;Yu, De-Shui;Wang, Cheng-Fang;Liu, Xiao-Yong;Huang, Bo		Zenodo	biologists	Nie, Yong;Yu, De-Shui;Wang, Cheng-Fang;Liu, Xiao-Yong;Huang, Bo			
744CDD7E6E4B56B4BF1059FE98E3F107.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/395592	https://doi.org/10.3897/mycokeys.66.46575.figure1	Figure 1. Phylogenetic tree constructed by maximum likelihood analyses of nucLSU, nucSSU, EF- 1 α and mtSSU sequences for Entomophthoromycotina, with some chytrid and mucoralean fungi as outgroups. Three new genera and one Chinese new record are shown in red. Maximum likelihood bootstrap values (≥ 50 %) / Bayesian posterior probabilities (≥ 0.50) of main clades are indicated along branches. Scale bar indicates substitutions per site.	Figure 1. Phylogenetic tree constructed by maximum likelihood analyses of nucLSU, nucSSU, EF- 1 α and mtSSU sequences for Entomophthoromycotina, with some chytrid and mucoralean fungi as outgroups. Three new genera and one Chinese new record are shown in red. Maximum likelihood bootstrap values (≥ 50 %) / Bayesian posterior probabilities (≥ 0.50) of main clades are indicated along branches. Scale bar indicates substitutions per site.	2020-12-31	Nie, Yong;Yu, De-Shui;Wang, Cheng-Fang;Liu, Xiao-Yong;Huang, Bo		Zenodo	biologists	Nie, Yong;Yu, De-Shui;Wang, Cheng-Fang;Liu, Xiao-Yong;Huang, Bo			
672EE86986FB5516BDC0D34E25189680.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/395597	https://doi.org/10.3897/mycokeys.66.46575.figure6	Figure 6. Neoconidiobolus thromboides a colony on PDA after 3 d at 25 ° C b, c primary conidiophores bearing primary conidia d production of secondary conidia e zygospores f primary conidia. Scale bars: 10 mm (a); 20 μm (b-d, f); 40 μm (e).	Figure 6. Neoconidiobolus thromboides a colony on PDA after 3 d at 25 ° C b, c primary conidiophores bearing primary conidia d production of secondary conidia e zygospores f primary conidia. Scale bars: 10 mm (a); 20 μm (b-d, f); 40 μm (e).	2020-12-31	Nie, Yong;Yu, De-Shui;Wang, Cheng-Fang;Liu, Xiao-Yong;Huang, Bo		Zenodo	biologists	Nie, Yong;Yu, De-Shui;Wang, Cheng-Fang;Liu, Xiao-Yong;Huang, Bo			
