taxonID	type	format	identifier	references	title	description	created	creator	contributor	publisher	audience	source	license	rightsHolder	datasetID
66EB241B65595628B2FECBB90D960817.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/1501730	https://doi.org/10.3897/imafungus.16.172367.figure9	Figure 9. Efibula murina (holotype, CLZhao 30689). a basidiomata. b macroscopic characteristics of hymenophore. Scale bars: 1 cm (a); 1 mm (b).	Figure 9. Efibula murina (holotype, CLZhao 30689). a basidiomata. b macroscopic characteristics of hymenophore. Scale bars: 1 cm (a); 1 mm (b).	2025-12-29	Deng, Yinglian;Chen, Meng;Wang, Kaisheng;Liu, Wanting;Chen, Daxiang;Yang, Shunqiang;Li, Wenli;Zhou, Hongmin;Zhao, Changlin		Zenodo	biologists	Deng, Yinglian;Chen, Meng;Wang, Kaisheng;Liu, Wanting;Chen, Daxiang;Yang, Shunqiang;Li, Wenli;Zhou, Hongmin;Zhao, Changlin			
66EB241B65595628B2FECBB90D960817.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/1501731	https://doi.org/10.3897/imafungus.16.172367.figure10	Figure 10. Microscopic structures of Efibula murina (holotype, CLZhao 30689). a basidiospores. b basidia and basidioles. c a section of the hymenium. Scale bars: 5 µm (a); 10 µm (b, c).	Figure 10. Microscopic structures of Efibula murina (holotype, CLZhao 30689). a basidiospores. b basidia and basidioles. c a section of the hymenium. Scale bars: 5 µm (a); 10 µm (b, c).	2025-12-29	Deng, Yinglian;Chen, Meng;Wang, Kaisheng;Liu, Wanting;Chen, Daxiang;Yang, Shunqiang;Li, Wenli;Zhou, Hongmin;Zhao, Changlin		Zenodo	biologists	Deng, Yinglian;Chen, Meng;Wang, Kaisheng;Liu, Wanting;Chen, Daxiang;Yang, Shunqiang;Li, Wenli;Zhou, Hongmin;Zhao, Changlin			
66EB241B65595628B2FECBB90D960817.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/1501725	https://doi.org/10.3897/imafungus.16.172367.figure4	Figure 4. Divergence time estimation of families within Polyporales based on Bayesian evolutionary analysis sampling trees using the combined ITS, nLSU, mtSSU, rpb 2, and tef 1 - α sequence dataset. Posterior probabilities are not less than 0.80, and the mean ages of each node are annotated. The 90 % highest posterior density intervals of divergence time estimates are indicated by horizontal bars.	Figure 4. Divergence time estimation of families within Polyporales based on Bayesian evolutionary analysis sampling trees using the combined ITS, nLSU, mtSSU, rpb 2, and tef 1 - α sequence dataset. Posterior probabilities are not less than 0.80, and the mean ages of each node are annotated. The 90 % highest posterior density intervals of divergence time estimates are indicated by horizontal bars.	2025-12-29	Deng, Yinglian;Chen, Meng;Wang, Kaisheng;Liu, Wanting;Chen, Daxiang;Yang, Shunqiang;Li, Wenli;Zhou, Hongmin;Zhao, Changlin		Zenodo	biologists	Deng, Yinglian;Chen, Meng;Wang, Kaisheng;Liu, Wanting;Chen, Daxiang;Yang, Shunqiang;Li, Wenli;Zhou, Hongmin;Zhao, Changlin			
66EB241B65595628B2FECBB90D960817.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/1501726	https://doi.org/10.3897/imafungus.16.172367.figure5	Figure 5. Odentinium aurantium (holotype, CLZhao 20737). a basidiomata. b macroscopic characteristics of hymenophore. Scale bars: 1 cm (a); 1 mm (b).	Figure 5. Odentinium aurantium (holotype, CLZhao 20737). a basidiomata. b macroscopic characteristics of hymenophore. Scale bars: 1 cm (a); 1 mm (b).	2025-12-29	Deng, Yinglian;Chen, Meng;Wang, Kaisheng;Liu, Wanting;Chen, Daxiang;Yang, Shunqiang;Li, Wenli;Zhou, Hongmin;Zhao, Changlin		Zenodo	biologists	Deng, Yinglian;Chen, Meng;Wang, Kaisheng;Liu, Wanting;Chen, Daxiang;Yang, Shunqiang;Li, Wenli;Zhou, Hongmin;Zhao, Changlin			
B6E50500CD9E5FF5999ED5BA210487C3.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/1501732	https://doi.org/10.3897/imafungus.16.172367.figure11	Figure 11. Efibula yaoshanensis (holotype, CLZhao 20575). a basidiomata. b macroscopic characteristics of hymenophore. Scale bars: 1 cm (a); 1 mm (b).	Figure 11. Efibula yaoshanensis (holotype, CLZhao 20575). a basidiomata. b macroscopic characteristics of hymenophore. Scale bars: 1 cm (a); 1 mm (b).	2025-12-29	Deng, Yinglian;Chen, Meng;Wang, Kaisheng;Liu, Wanting;Chen, Daxiang;Yang, Shunqiang;Li, Wenli;Zhou, Hongmin;Zhao, Changlin		Zenodo	biologists	Deng, Yinglian;Chen, Meng;Wang, Kaisheng;Liu, Wanting;Chen, Daxiang;Yang, Shunqiang;Li, Wenli;Zhou, Hongmin;Zhao, Changlin			
B6E50500CD9E5FF5999ED5BA210487C3.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/1501733	https://doi.org/10.3897/imafungus.16.172367.figure12	Figure 12. Microscopic structures of Efibula yaoshanensis (holotype, CLZhao 20575). a basidiospores. b basidia and basidioles. c a section of the hymenium. Scale bars: 5 µm (a); 10 µm (b, c).	Figure 12. Microscopic structures of Efibula yaoshanensis (holotype, CLZhao 20575). a basidiospores. b basidia and basidioles. c a section of the hymenium. Scale bars: 5 µm (a); 10 µm (b, c).	2025-12-29	Deng, Yinglian;Chen, Meng;Wang, Kaisheng;Liu, Wanting;Chen, Daxiang;Yang, Shunqiang;Li, Wenli;Zhou, Hongmin;Zhao, Changlin		Zenodo	biologists	Deng, Yinglian;Chen, Meng;Wang, Kaisheng;Liu, Wanting;Chen, Daxiang;Yang, Shunqiang;Li, Wenli;Zhou, Hongmin;Zhao, Changlin			
B6E50500CD9E5FF5999ED5BA210487C3.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/1501725	https://doi.org/10.3897/imafungus.16.172367.figure4	Figure 4. Divergence time estimation of families within Polyporales based on Bayesian evolutionary analysis sampling trees using the combined ITS, nLSU, mtSSU, rpb 2, and tef 1 - α sequence dataset. Posterior probabilities are not less than 0.80, and the mean ages of each node are annotated. The 90 % highest posterior density intervals of divergence time estimates are indicated by horizontal bars.	Figure 4. Divergence time estimation of families within Polyporales based on Bayesian evolutionary analysis sampling trees using the combined ITS, nLSU, mtSSU, rpb 2, and tef 1 - α sequence dataset. Posterior probabilities are not less than 0.80, and the mean ages of each node are annotated. The 90 % highest posterior density intervals of divergence time estimates are indicated by horizontal bars.	2025-12-29	Deng, Yinglian;Chen, Meng;Wang, Kaisheng;Liu, Wanting;Chen, Daxiang;Yang, Shunqiang;Li, Wenli;Zhou, Hongmin;Zhao, Changlin		Zenodo	biologists	Deng, Yinglian;Chen, Meng;Wang, Kaisheng;Liu, Wanting;Chen, Daxiang;Yang, Shunqiang;Li, Wenli;Zhou, Hongmin;Zhao, Changlin			
B6E50500CD9E5FF5999ED5BA210487C3.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/1501726	https://doi.org/10.3897/imafungus.16.172367.figure5	Figure 5. Odentinium aurantium (holotype, CLZhao 20737). a basidiomata. b macroscopic characteristics of hymenophore. Scale bars: 1 cm (a); 1 mm (b).	Figure 5. Odentinium aurantium (holotype, CLZhao 20737). a basidiomata. b macroscopic characteristics of hymenophore. Scale bars: 1 cm (a); 1 mm (b).	2025-12-29	Deng, Yinglian;Chen, Meng;Wang, Kaisheng;Liu, Wanting;Chen, Daxiang;Yang, Shunqiang;Li, Wenli;Zhou, Hongmin;Zhao, Changlin		Zenodo	biologists	Deng, Yinglian;Chen, Meng;Wang, Kaisheng;Liu, Wanting;Chen, Daxiang;Yang, Shunqiang;Li, Wenli;Zhou, Hongmin;Zhao, Changlin			
F616F95FDB2E5DE688C9E226162FA15C.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/1501734	https://doi.org/10.3897/imafungus.16.172367.figure13	Figure 13. Efibula zhaotongensis (holotype, CLZhao 20744). a basidiomata. b macroscopic characteristics of hymenophore. Scale bars: 1 cm (a); 1 mm (b).	Figure 13. Efibula zhaotongensis (holotype, CLZhao 20744). a basidiomata. b macroscopic characteristics of hymenophore. Scale bars: 1 cm (a); 1 mm (b).	2025-12-29	Deng, Yinglian;Chen, Meng;Wang, Kaisheng;Liu, Wanting;Chen, Daxiang;Yang, Shunqiang;Li, Wenli;Zhou, Hongmin;Zhao, Changlin		Zenodo	biologists	Deng, Yinglian;Chen, Meng;Wang, Kaisheng;Liu, Wanting;Chen, Daxiang;Yang, Shunqiang;Li, Wenli;Zhou, Hongmin;Zhao, Changlin			
F616F95FDB2E5DE688C9E226162FA15C.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/1501735	https://doi.org/10.3897/imafungus.16.172367.figure14	Figure 14. Microscopic structures of Efibula zhaotongensis (holotype, CLZhao 20744). a basidiospores. b basidia and basidioles. c a section of the hymenium. Scale bars: 5 µm (a); 10 µm (b, c).	Figure 14. Microscopic structures of Efibula zhaotongensis (holotype, CLZhao 20744). a basidiospores. b basidia and basidioles. c a section of the hymenium. Scale bars: 5 µm (a); 10 µm (b, c).	2025-12-29	Deng, Yinglian;Chen, Meng;Wang, Kaisheng;Liu, Wanting;Chen, Daxiang;Yang, Shunqiang;Li, Wenli;Zhou, Hongmin;Zhao, Changlin		Zenodo	biologists	Deng, Yinglian;Chen, Meng;Wang, Kaisheng;Liu, Wanting;Chen, Daxiang;Yang, Shunqiang;Li, Wenli;Zhou, Hongmin;Zhao, Changlin			
F616F95FDB2E5DE688C9E226162FA15C.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/1501724	https://doi.org/10.3897/imafungus.16.172367.figure3	Figure 3. Maximum parsimony strict consensus tree illustrating the phylogeny of Efibula and related species based on ITS + nLSU sequences. Branches are labeled with maximum likelihood bootstrap values higher than 70 % and Bayesian posterior probabilities higher than 0.95, respectively. The new species are shown in bold.	Figure 3. Maximum parsimony strict consensus tree illustrating the phylogeny of Efibula and related species based on ITS + nLSU sequences. Branches are labeled with maximum likelihood bootstrap values higher than 70 % and Bayesian posterior probabilities higher than 0.95, respectively. The new species are shown in bold.	2025-12-29	Deng, Yinglian;Chen, Meng;Wang, Kaisheng;Liu, Wanting;Chen, Daxiang;Yang, Shunqiang;Li, Wenli;Zhou, Hongmin;Zhao, Changlin		Zenodo	biologists	Deng, Yinglian;Chen, Meng;Wang, Kaisheng;Liu, Wanting;Chen, Daxiang;Yang, Shunqiang;Li, Wenli;Zhou, Hongmin;Zhao, Changlin			
F616F95FDB2E5DE688C9E226162FA15C.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/1501725	https://doi.org/10.3897/imafungus.16.172367.figure4	Figure 4. Divergence time estimation of families within Polyporales based on Bayesian evolutionary analysis sampling trees using the combined ITS, nLSU, mtSSU, rpb 2, and tef 1 - α sequence dataset. Posterior probabilities are not less than 0.80, and the mean ages of each node are annotated. The 90 % highest posterior density intervals of divergence time estimates are indicated by horizontal bars.	Figure 4. Divergence time estimation of families within Polyporales based on Bayesian evolutionary analysis sampling trees using the combined ITS, nLSU, mtSSU, rpb 2, and tef 1 - α sequence dataset. Posterior probabilities are not less than 0.80, and the mean ages of each node are annotated. The 90 % highest posterior density intervals of divergence time estimates are indicated by horizontal bars.	2025-12-29	Deng, Yinglian;Chen, Meng;Wang, Kaisheng;Liu, Wanting;Chen, Daxiang;Yang, Shunqiang;Li, Wenli;Zhou, Hongmin;Zhao, Changlin		Zenodo	biologists	Deng, Yinglian;Chen, Meng;Wang, Kaisheng;Liu, Wanting;Chen, Daxiang;Yang, Shunqiang;Li, Wenli;Zhou, Hongmin;Zhao, Changlin			
264A754721DB5DCB8D2293192E33C6CA.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/1501726	https://doi.org/10.3897/imafungus.16.172367.figure5	Figure 5. Odentinium aurantium (holotype, CLZhao 20737). a basidiomata. b macroscopic characteristics of hymenophore. Scale bars: 1 cm (a); 1 mm (b).	Figure 5. Odentinium aurantium (holotype, CLZhao 20737). a basidiomata. b macroscopic characteristics of hymenophore. Scale bars: 1 cm (a); 1 mm (b).	2025-12-29	Deng, Yinglian;Chen, Meng;Wang, Kaisheng;Liu, Wanting;Chen, Daxiang;Yang, Shunqiang;Li, Wenli;Zhou, Hongmin;Zhao, Changlin		Zenodo	biologists	Deng, Yinglian;Chen, Meng;Wang, Kaisheng;Liu, Wanting;Chen, Daxiang;Yang, Shunqiang;Li, Wenli;Zhou, Hongmin;Zhao, Changlin			
264A754721DB5DCB8D2293192E33C6CA.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/1501727	https://doi.org/10.3897/imafungus.16.172367.figure6	Figure 6. Microscopic structures of Odentinium aurantium (holotype, CLZhao 20737). a basidiospores. b basidia and basidioles. c cystidia. d a section of the hymenium. Scale bars: 5 µm (a); 10 µm (b – d).	Figure 6. Microscopic structures of Odentinium aurantium (holotype, CLZhao 20737). a basidiospores. b basidia and basidioles. c cystidia. d a section of the hymenium. Scale bars: 5 µm (a); 10 µm (b – d).	2025-12-29	Deng, Yinglian;Chen, Meng;Wang, Kaisheng;Liu, Wanting;Chen, Daxiang;Yang, Shunqiang;Li, Wenli;Zhou, Hongmin;Zhao, Changlin		Zenodo	biologists	Deng, Yinglian;Chen, Meng;Wang, Kaisheng;Liu, Wanting;Chen, Daxiang;Yang, Shunqiang;Li, Wenli;Zhou, Hongmin;Zhao, Changlin			
264A754721DB5DCB8D2293192E33C6CA.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/1501723	https://doi.org/10.3897/imafungus.16.172367.figure2	Figure 2. Maximum parsimony strict consensus tree illustrating the phylogeny of Irpicaceae based on ITS + nLSU sequences. Branches are labeled with maximum likelihood bootstrap values higher than 70 %, parsimony bootstrap values higher than 50 %, and Bayesian posterior probabilities higher than 0.95, respectively. The new species are shown in bold.	Figure 2. Maximum parsimony strict consensus tree illustrating the phylogeny of Irpicaceae based on ITS + nLSU sequences. Branches are labeled with maximum likelihood bootstrap values higher than 70 %, parsimony bootstrap values higher than 50 %, and Bayesian posterior probabilities higher than 0.95, respectively. The new species are shown in bold.	2025-12-29	Deng, Yinglian;Chen, Meng;Wang, Kaisheng;Liu, Wanting;Chen, Daxiang;Yang, Shunqiang;Li, Wenli;Zhou, Hongmin;Zhao, Changlin		Zenodo	biologists	Deng, Yinglian;Chen, Meng;Wang, Kaisheng;Liu, Wanting;Chen, Daxiang;Yang, Shunqiang;Li, Wenli;Zhou, Hongmin;Zhao, Changlin			
B7FC5CB59D895886AD454290D326AAC8.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/1501728	https://doi.org/10.3897/imafungus.16.172367.figure7	Figure 7. Odentinium cremeum (holotype, CLZhao 20573). a basidiomata. b macroscopic characteristics of hymenophore. Scale bars: 1 cm (a); 1 mm (b).	Figure 7. Odentinium cremeum (holotype, CLZhao 20573). a basidiomata. b macroscopic characteristics of hymenophore. Scale bars: 1 cm (a); 1 mm (b).	2025-12-29	Deng, Yinglian;Chen, Meng;Wang, Kaisheng;Liu, Wanting;Chen, Daxiang;Yang, Shunqiang;Li, Wenli;Zhou, Hongmin;Zhao, Changlin		Zenodo	biologists	Deng, Yinglian;Chen, Meng;Wang, Kaisheng;Liu, Wanting;Chen, Daxiang;Yang, Shunqiang;Li, Wenli;Zhou, Hongmin;Zhao, Changlin			
B7FC5CB59D895886AD454290D326AAC8.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/1501729	https://doi.org/10.3897/imafungus.16.172367.figure8	Figure 8. Microscopic structures of Odentinium cremeum (holotype, CLZhao 20573). a basidiospores. b basidia and basidioles. c cystidia. d a section of the hymenium. Scale bars: 5 µm (a); 10 µm (b – d).	Figure 8. Microscopic structures of Odentinium cremeum (holotype, CLZhao 20573). a basidiospores. b basidia and basidioles. c cystidia. d a section of the hymenium. Scale bars: 5 µm (a); 10 µm (b – d).	2025-12-29	Deng, Yinglian;Chen, Meng;Wang, Kaisheng;Liu, Wanting;Chen, Daxiang;Yang, Shunqiang;Li, Wenli;Zhou, Hongmin;Zhao, Changlin		Zenodo	biologists	Deng, Yinglian;Chen, Meng;Wang, Kaisheng;Liu, Wanting;Chen, Daxiang;Yang, Shunqiang;Li, Wenli;Zhou, Hongmin;Zhao, Changlin			
B7FC5CB59D895886AD454290D326AAC8.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/1501724	https://doi.org/10.3897/imafungus.16.172367.figure3	Figure 3. Maximum parsimony strict consensus tree illustrating the phylogeny of Efibula and related species based on ITS + nLSU sequences. Branches are labeled with maximum likelihood bootstrap values higher than 70 % and Bayesian posterior probabilities higher than 0.95, respectively. The new species are shown in bold.	Figure 3. Maximum parsimony strict consensus tree illustrating the phylogeny of Efibula and related species based on ITS + nLSU sequences. Branches are labeled with maximum likelihood bootstrap values higher than 70 % and Bayesian posterior probabilities higher than 0.95, respectively. The new species are shown in bold.	2025-12-29	Deng, Yinglian;Chen, Meng;Wang, Kaisheng;Liu, Wanting;Chen, Daxiang;Yang, Shunqiang;Li, Wenli;Zhou, Hongmin;Zhao, Changlin		Zenodo	biologists	Deng, Yinglian;Chen, Meng;Wang, Kaisheng;Liu, Wanting;Chen, Daxiang;Yang, Shunqiang;Li, Wenli;Zhou, Hongmin;Zhao, Changlin			
54E650FAF6B4581D9CB4D4C06CBA3681.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/1501723	https://doi.org/10.3897/imafungus.16.172367.figure2	Figure 2. Maximum parsimony strict consensus tree illustrating the phylogeny of Irpicaceae based on ITS + nLSU sequences. Branches are labeled with maximum likelihood bootstrap values higher than 70 %, parsimony bootstrap values higher than 50 %, and Bayesian posterior probabilities higher than 0.95, respectively. The new species are shown in bold.	Figure 2. Maximum parsimony strict consensus tree illustrating the phylogeny of Irpicaceae based on ITS + nLSU sequences. Branches are labeled with maximum likelihood bootstrap values higher than 70 %, parsimony bootstrap values higher than 50 %, and Bayesian posterior probabilities higher than 0.95, respectively. The new species are shown in bold.	2025-12-29	Deng, Yinglian;Chen, Meng;Wang, Kaisheng;Liu, Wanting;Chen, Daxiang;Yang, Shunqiang;Li, Wenli;Zhou, Hongmin;Zhao, Changlin		Zenodo	biologists	Deng, Yinglian;Chen, Meng;Wang, Kaisheng;Liu, Wanting;Chen, Daxiang;Yang, Shunqiang;Li, Wenli;Zhou, Hongmin;Zhao, Changlin			
A46625D2849E52BFB4918C0D2FD5F4DF.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/1501736	https://doi.org/10.3897/imafungus.16.172367.figure15	Figure 15. Basidiomata of Phanericium bambusacearum (holotype 20795). a basidiomata. b macroscopic characteristics of hymenophore. Scale bars: 1 cm (a); 1 mm (b).	Figure 15. Basidiomata of Phanericium bambusacearum (holotype 20795). a basidiomata. b macroscopic characteristics of hymenophore. Scale bars: 1 cm (a); 1 mm (b).	2025-12-29	Deng, Yinglian;Chen, Meng;Wang, Kaisheng;Liu, Wanting;Chen, Daxiang;Yang, Shunqiang;Li, Wenli;Zhou, Hongmin;Zhao, Changlin		Zenodo	biologists	Deng, Yinglian;Chen, Meng;Wang, Kaisheng;Liu, Wanting;Chen, Daxiang;Yang, Shunqiang;Li, Wenli;Zhou, Hongmin;Zhao, Changlin			
A46625D2849E52BFB4918C0D2FD5F4DF.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/1501737	https://doi.org/10.3897/imafungus.16.172367.figure16	Figure 16. Microscopic structures of Phanericium bambusacearum (holotype 20795). a basidiospores. b basidia and basidioles. c a section of the hymenium. Scale bars: 5 µm (a); 10 µm (b, c).	Figure 16. Microscopic structures of Phanericium bambusacearum (holotype 20795). a basidiospores. b basidia and basidioles. c a section of the hymenium. Scale bars: 5 µm (a); 10 µm (b, c).	2025-12-29	Deng, Yinglian;Chen, Meng;Wang, Kaisheng;Liu, Wanting;Chen, Daxiang;Yang, Shunqiang;Li, Wenli;Zhou, Hongmin;Zhao, Changlin		Zenodo	biologists	Deng, Yinglian;Chen, Meng;Wang, Kaisheng;Liu, Wanting;Chen, Daxiang;Yang, Shunqiang;Li, Wenli;Zhou, Hongmin;Zhao, Changlin			
A46625D2849E52BFB4918C0D2FD5F4DF.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/1501724	https://doi.org/10.3897/imafungus.16.172367.figure3	Figure 3. Maximum parsimony strict consensus tree illustrating the phylogeny of Efibula and related species based on ITS + nLSU sequences. Branches are labeled with maximum likelihood bootstrap values higher than 70 % and Bayesian posterior probabilities higher than 0.95, respectively. The new species are shown in bold.	Figure 3. Maximum parsimony strict consensus tree illustrating the phylogeny of Efibula and related species based on ITS + nLSU sequences. Branches are labeled with maximum likelihood bootstrap values higher than 70 % and Bayesian posterior probabilities higher than 0.95, respectively. The new species are shown in bold.	2025-12-29	Deng, Yinglian;Chen, Meng;Wang, Kaisheng;Liu, Wanting;Chen, Daxiang;Yang, Shunqiang;Li, Wenli;Zhou, Hongmin;Zhao, Changlin		Zenodo	biologists	Deng, Yinglian;Chen, Meng;Wang, Kaisheng;Liu, Wanting;Chen, Daxiang;Yang, Shunqiang;Li, Wenli;Zhou, Hongmin;Zhao, Changlin			
A46625D2849E52BFB4918C0D2FD5F4DF.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/1501725	https://doi.org/10.3897/imafungus.16.172367.figure4	Figure 4. Divergence time estimation of families within Polyporales based on Bayesian evolutionary analysis sampling trees using the combined ITS, nLSU, mtSSU, rpb 2, and tef 1 - α sequence dataset. Posterior probabilities are not less than 0.80, and the mean ages of each node are annotated. The 90 % highest posterior density intervals of divergence time estimates are indicated by horizontal bars.	Figure 4. Divergence time estimation of families within Polyporales based on Bayesian evolutionary analysis sampling trees using the combined ITS, nLSU, mtSSU, rpb 2, and tef 1 - α sequence dataset. Posterior probabilities are not less than 0.80, and the mean ages of each node are annotated. The 90 % highest posterior density intervals of divergence time estimates are indicated by horizontal bars.	2025-12-29	Deng, Yinglian;Chen, Meng;Wang, Kaisheng;Liu, Wanting;Chen, Daxiang;Yang, Shunqiang;Li, Wenli;Zhou, Hongmin;Zhao, Changlin		Zenodo	biologists	Deng, Yinglian;Chen, Meng;Wang, Kaisheng;Liu, Wanting;Chen, Daxiang;Yang, Shunqiang;Li, Wenli;Zhou, Hongmin;Zhao, Changlin			
