taxonID	type	format	identifier	references	title	description	created	creator	contributor	publisher	audience	source	license	rightsHolder	datasetID
3D00F42A42BD5B6A9C18D73068582882.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/1418920	https://doi.org/10.3897/mycokeys.122.161091.figure2	Figure 2. Split graph displaying the results of the pairwise homoplasy index (PHI) test of Colletotrichum actinidicola sp. nov and closely related taxa using Log-det transformation and splits decomposition options. Φw ≥ 0.05 from the PHI test signifies no substantial recombination in the dataset. The type species are indicated in bold, and the newly identified taxon and isolates are displayed in blue.	Figure 2. Split graph displaying the results of the pairwise homoplasy index (PHI) test of Colletotrichum actinidicola sp. nov and closely related taxa using Log-det transformation and splits decomposition options. Φw ≥ 0.05 from the PHI test signifies no substantial recombination in the dataset. The type species are indicated in bold, and the newly identified taxon and isolates are displayed in blue.	2025-09-18	Norphanphoun, Chada;Wang, Jia-Ping;Wang, Xing-Chang;Aumentado, Herbert Dustin;Liu, Feng-Quan;Wang, Yong		Zenodo	biologists	Norphanphoun, Chada;Wang, Jia-Ping;Wang, Xing-Chang;Aumentado, Herbert Dustin;Liu, Feng-Quan;Wang, Yong			
3D00F42A42BD5B6A9C18D73068582882.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/1418921	https://doi.org/10.3897/mycokeys.122.161091.figure3	Figure 3. Colletotrichum actinidicola (GUCC 25-0020, ex-type). a, b. Culture on PDA (a-above, b-reverse); c. Conidiomata on PDA; d, e. Conidiophore, conidiogenous cells giving rise to conidia; f, g. Appressorium; h – l. Conidia. Scale bars: 10 µm (d – l).	Figure 3. Colletotrichum actinidicola (GUCC 25-0020, ex-type). a, b. Culture on PDA (a-above, b-reverse); c. Conidiomata on PDA; d, e. Conidiophore, conidiogenous cells giving rise to conidia; f, g. Appressorium; h – l. Conidia. Scale bars: 10 µm (d – l).	2025-09-18	Norphanphoun, Chada;Wang, Jia-Ping;Wang, Xing-Chang;Aumentado, Herbert Dustin;Liu, Feng-Quan;Wang, Yong		Zenodo	biologists	Norphanphoun, Chada;Wang, Jia-Ping;Wang, Xing-Chang;Aumentado, Herbert Dustin;Liu, Feng-Quan;Wang, Yong			
3D00F42A42BD5B6A9C18D73068582882.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/1418919	https://doi.org/10.3897/mycokeys.122.161091.figure1	Figure 1. Phylogenetic tree constructed using a maximum likelihood (ML) analysis based on a combined ITS, gapdh, chs - 1, actin, β-tubulin, his 3, and cal sequences, representing Colletotrichum boninense species complex. The tree topology of the ML analysis was identical to the Maximum Parsimony (MP) and Bayesian posterior probability (PP) analyses. The final RAxML tree with a likelihood value of – 14964.299156 is presented here. The evolutionary model GTR + GAMMA was applied to all the genes. The analysis included seventy (76) taxa with a total of 3,112 characters, with 1,194 distinct alignment patterns, and 29.37 % were gaps and undetermined characters. Bootstrap support values for BSML and BSMP, and Bayesian Posterior Probabilities (PPBI) are indicated at the nodes as BSML / BSMP / PPBI. The tree is rooted with C. agaves (LC 0947) and C. euphorbiae (CBS 134725). Type strains are denoted in bold and T, sequences generated in this study are in yellow. Bar = 0.02 represents the estimated number of nucleotide substitutions per site per branch.	Figure 1. Phylogenetic tree constructed using a maximum likelihood (ML) analysis based on a combined ITS, gapdh, chs - 1, actin, β-tubulin, his 3, and cal sequences, representing Colletotrichum boninense species complex. The tree topology of the ML analysis was identical to the Maximum Parsimony (MP) and Bayesian posterior probability (PP) analyses. The final RAxML tree with a likelihood value of – 14964.299156 is presented here. The evolutionary model GTR + GAMMA was applied to all the genes. The analysis included seventy (76) taxa with a total of 3,112 characters, with 1,194 distinct alignment patterns, and 29.37 % were gaps and undetermined characters. Bootstrap support values for BSML and BSMP, and Bayesian Posterior Probabilities (PPBI) are indicated at the nodes as BSML / BSMP / PPBI. The tree is rooted with C. agaves (LC 0947) and C. euphorbiae (CBS 134725). Type strains are denoted in bold and T, sequences generated in this study are in yellow. Bar = 0.02 represents the estimated number of nucleotide substitutions per site per branch.	2025-09-18	Norphanphoun, Chada;Wang, Jia-Ping;Wang, Xing-Chang;Aumentado, Herbert Dustin;Liu, Feng-Quan;Wang, Yong		Zenodo	biologists	Norphanphoun, Chada;Wang, Jia-Ping;Wang, Xing-Chang;Aumentado, Herbert Dustin;Liu, Feng-Quan;Wang, Yong			
42837543FD3B54DDB31D60DDE06AB25E.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/1418919	https://doi.org/10.3897/mycokeys.122.161091.figure1	Figure 1. Phylogenetic tree constructed using a maximum likelihood (ML) analysis based on a combined ITS, gapdh, chs - 1, actin, β-tubulin, his 3, and cal sequences, representing Colletotrichum boninense species complex. The tree topology of the ML analysis was identical to the Maximum Parsimony (MP) and Bayesian posterior probability (PP) analyses. The final RAxML tree with a likelihood value of – 14964.299156 is presented here. The evolutionary model GTR + GAMMA was applied to all the genes. The analysis included seventy (76) taxa with a total of 3,112 characters, with 1,194 distinct alignment patterns, and 29.37 % were gaps and undetermined characters. Bootstrap support values for BSML and BSMP, and Bayesian Posterior Probabilities (PPBI) are indicated at the nodes as BSML / BSMP / PPBI. The tree is rooted with C. agaves (LC 0947) and C. euphorbiae (CBS 134725). Type strains are denoted in bold and T, sequences generated in this study are in yellow. Bar = 0.02 represents the estimated number of nucleotide substitutions per site per branch.	Figure 1. Phylogenetic tree constructed using a maximum likelihood (ML) analysis based on a combined ITS, gapdh, chs - 1, actin, β-tubulin, his 3, and cal sequences, representing Colletotrichum boninense species complex. The tree topology of the ML analysis was identical to the Maximum Parsimony (MP) and Bayesian posterior probability (PP) analyses. The final RAxML tree with a likelihood value of – 14964.299156 is presented here. The evolutionary model GTR + GAMMA was applied to all the genes. The analysis included seventy (76) taxa with a total of 3,112 characters, with 1,194 distinct alignment patterns, and 29.37 % were gaps and undetermined characters. Bootstrap support values for BSML and BSMP, and Bayesian Posterior Probabilities (PPBI) are indicated at the nodes as BSML / BSMP / PPBI. The tree is rooted with C. agaves (LC 0947) and C. euphorbiae (CBS 134725). Type strains are denoted in bold and T, sequences generated in this study are in yellow. Bar = 0.02 represents the estimated number of nucleotide substitutions per site per branch.	2025-09-18	Norphanphoun, Chada;Wang, Jia-Ping;Wang, Xing-Chang;Aumentado, Herbert Dustin;Liu, Feng-Quan;Wang, Yong		Zenodo	biologists	Norphanphoun, Chada;Wang, Jia-Ping;Wang, Xing-Chang;Aumentado, Herbert Dustin;Liu, Feng-Quan;Wang, Yong			
E22200B80FC85D7FB19E11BBC9B747D7.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/1418924	https://doi.org/10.3897/mycokeys.122.161091.figure6	Figure 6. Colletotrichum karsti (GUCC 25-0060, new host record); a – c. Rosa chinensis, host and habitat; d, e. Culture on PDA (a-above, b-reverse); f. Conidiomata on PDA; g, h. Conidiophore, conidiogenous cells giving rise to conidia; i – k. Appressorium; l – p. Conidia. Scale bars: 10 µm (g – p).	Figure 6. Colletotrichum karsti (GUCC 25-0060, new host record); a – c. Rosa chinensis, host and habitat; d, e. Culture on PDA (a-above, b-reverse); f. Conidiomata on PDA; g, h. Conidiophore, conidiogenous cells giving rise to conidia; i – k. Appressorium; l – p. Conidia. Scale bars: 10 µm (g – p).	2025-09-18	Norphanphoun, Chada;Wang, Jia-Ping;Wang, Xing-Chang;Aumentado, Herbert Dustin;Liu, Feng-Quan;Wang, Yong		Zenodo	biologists	Norphanphoun, Chada;Wang, Jia-Ping;Wang, Xing-Chang;Aumentado, Herbert Dustin;Liu, Feng-Quan;Wang, Yong			
E22200B80FC85D7FB19E11BBC9B747D7.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/1418923	https://doi.org/10.3897/mycokeys.122.161091.figure5	Figure 5. Colletotrichum poalesicola (GUCC 25-0040, ex-type). a, b. Culture on PDA (a-above, b-reverse); c. Conidiomata on PDA; d – f. Conidiophore, conidiogenous cells giving rise to conidia; g – k. Conidia. Scale bars: 10 µm (d – k).	Figure 5. Colletotrichum poalesicola (GUCC 25-0040, ex-type). a, b. Culture on PDA (a-above, b-reverse); c. Conidiomata on PDA; d – f. Conidiophore, conidiogenous cells giving rise to conidia; g – k. Conidia. Scale bars: 10 µm (d – k).	2025-09-18	Norphanphoun, Chada;Wang, Jia-Ping;Wang, Xing-Chang;Aumentado, Herbert Dustin;Liu, Feng-Quan;Wang, Yong		Zenodo	biologists	Norphanphoun, Chada;Wang, Jia-Ping;Wang, Xing-Chang;Aumentado, Herbert Dustin;Liu, Feng-Quan;Wang, Yong			
E22200B80FC85D7FB19E11BBC9B747D7.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/1418919	https://doi.org/10.3897/mycokeys.122.161091.figure1	Figure 1. Phylogenetic tree constructed using a maximum likelihood (ML) analysis based on a combined ITS, gapdh, chs - 1, actin, β-tubulin, his 3, and cal sequences, representing Colletotrichum boninense species complex. The tree topology of the ML analysis was identical to the Maximum Parsimony (MP) and Bayesian posterior probability (PP) analyses. The final RAxML tree with a likelihood value of – 14964.299156 is presented here. The evolutionary model GTR + GAMMA was applied to all the genes. The analysis included seventy (76) taxa with a total of 3,112 characters, with 1,194 distinct alignment patterns, and 29.37 % were gaps and undetermined characters. Bootstrap support values for BSML and BSMP, and Bayesian Posterior Probabilities (PPBI) are indicated at the nodes as BSML / BSMP / PPBI. The tree is rooted with C. agaves (LC 0947) and C. euphorbiae (CBS 134725). Type strains are denoted in bold and T, sequences generated in this study are in yellow. Bar = 0.02 represents the estimated number of nucleotide substitutions per site per branch.	Figure 1. Phylogenetic tree constructed using a maximum likelihood (ML) analysis based on a combined ITS, gapdh, chs - 1, actin, β-tubulin, his 3, and cal sequences, representing Colletotrichum boninense species complex. The tree topology of the ML analysis was identical to the Maximum Parsimony (MP) and Bayesian posterior probability (PP) analyses. The final RAxML tree with a likelihood value of – 14964.299156 is presented here. The evolutionary model GTR + GAMMA was applied to all the genes. The analysis included seventy (76) taxa with a total of 3,112 characters, with 1,194 distinct alignment patterns, and 29.37 % were gaps and undetermined characters. Bootstrap support values for BSML and BSMP, and Bayesian Posterior Probabilities (PPBI) are indicated at the nodes as BSML / BSMP / PPBI. The tree is rooted with C. agaves (LC 0947) and C. euphorbiae (CBS 134725). Type strains are denoted in bold and T, sequences generated in this study are in yellow. Bar = 0.02 represents the estimated number of nucleotide substitutions per site per branch.	2025-09-18	Norphanphoun, Chada;Wang, Jia-Ping;Wang, Xing-Chang;Aumentado, Herbert Dustin;Liu, Feng-Quan;Wang, Yong		Zenodo	biologists	Norphanphoun, Chada;Wang, Jia-Ping;Wang, Xing-Chang;Aumentado, Herbert Dustin;Liu, Feng-Quan;Wang, Yong			
5A27EE93320D54FBB2FA3903656BFBFD.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/1418922	https://doi.org/10.3897/mycokeys.122.161091.figure4	Figure 4. Split graph displaying the results of the pairwise homoplasy index (PHI) test of Colletotrichum poalesicola sp. nov and closely related taxa using Log-det transformation and splits decomposition options. Φw ≥ 0.05 from the PHI test signifies no substantial recombination in the dataset. The type species are indicated in bold, and the newly identified taxon and isolates are displayed in blue.	Figure 4. Split graph displaying the results of the pairwise homoplasy index (PHI) test of Colletotrichum poalesicola sp. nov and closely related taxa using Log-det transformation and splits decomposition options. Φw ≥ 0.05 from the PHI test signifies no substantial recombination in the dataset. The type species are indicated in bold, and the newly identified taxon and isolates are displayed in blue.	2025-09-18	Norphanphoun, Chada;Wang, Jia-Ping;Wang, Xing-Chang;Aumentado, Herbert Dustin;Liu, Feng-Quan;Wang, Yong		Zenodo	biologists	Norphanphoun, Chada;Wang, Jia-Ping;Wang, Xing-Chang;Aumentado, Herbert Dustin;Liu, Feng-Quan;Wang, Yong			
5A27EE93320D54FBB2FA3903656BFBFD.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/1418923	https://doi.org/10.3897/mycokeys.122.161091.figure5	Figure 5. Colletotrichum poalesicola (GUCC 25-0040, ex-type). a, b. Culture on PDA (a-above, b-reverse); c. Conidiomata on PDA; d – f. Conidiophore, conidiogenous cells giving rise to conidia; g – k. Conidia. Scale bars: 10 µm (d – k).	Figure 5. Colletotrichum poalesicola (GUCC 25-0040, ex-type). a, b. Culture on PDA (a-above, b-reverse); c. Conidiomata on PDA; d – f. Conidiophore, conidiogenous cells giving rise to conidia; g – k. Conidia. Scale bars: 10 µm (d – k).	2025-09-18	Norphanphoun, Chada;Wang, Jia-Ping;Wang, Xing-Chang;Aumentado, Herbert Dustin;Liu, Feng-Quan;Wang, Yong		Zenodo	biologists	Norphanphoun, Chada;Wang, Jia-Ping;Wang, Xing-Chang;Aumentado, Herbert Dustin;Liu, Feng-Quan;Wang, Yong			
5A27EE93320D54FBB2FA3903656BFBFD.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/1418919	https://doi.org/10.3897/mycokeys.122.161091.figure1	Figure 1. Phylogenetic tree constructed using a maximum likelihood (ML) analysis based on a combined ITS, gapdh, chs - 1, actin, β-tubulin, his 3, and cal sequences, representing Colletotrichum boninense species complex. The tree topology of the ML analysis was identical to the Maximum Parsimony (MP) and Bayesian posterior probability (PP) analyses. The final RAxML tree with a likelihood value of – 14964.299156 is presented here. The evolutionary model GTR + GAMMA was applied to all the genes. The analysis included seventy (76) taxa with a total of 3,112 characters, with 1,194 distinct alignment patterns, and 29.37 % were gaps and undetermined characters. Bootstrap support values for BSML and BSMP, and Bayesian Posterior Probabilities (PPBI) are indicated at the nodes as BSML / BSMP / PPBI. The tree is rooted with C. agaves (LC 0947) and C. euphorbiae (CBS 134725). Type strains are denoted in bold and T, sequences generated in this study are in yellow. Bar = 0.02 represents the estimated number of nucleotide substitutions per site per branch.	Figure 1. Phylogenetic tree constructed using a maximum likelihood (ML) analysis based on a combined ITS, gapdh, chs - 1, actin, β-tubulin, his 3, and cal sequences, representing Colletotrichum boninense species complex. The tree topology of the ML analysis was identical to the Maximum Parsimony (MP) and Bayesian posterior probability (PP) analyses. The final RAxML tree with a likelihood value of – 14964.299156 is presented here. The evolutionary model GTR + GAMMA was applied to all the genes. The analysis included seventy (76) taxa with a total of 3,112 characters, with 1,194 distinct alignment patterns, and 29.37 % were gaps and undetermined characters. Bootstrap support values for BSML and BSMP, and Bayesian Posterior Probabilities (PPBI) are indicated at the nodes as BSML / BSMP / PPBI. The tree is rooted with C. agaves (LC 0947) and C. euphorbiae (CBS 134725). Type strains are denoted in bold and T, sequences generated in this study are in yellow. Bar = 0.02 represents the estimated number of nucleotide substitutions per site per branch.	2025-09-18	Norphanphoun, Chada;Wang, Jia-Ping;Wang, Xing-Chang;Aumentado, Herbert Dustin;Liu, Feng-Quan;Wang, Yong		Zenodo	biologists	Norphanphoun, Chada;Wang, Jia-Ping;Wang, Xing-Chang;Aumentado, Herbert Dustin;Liu, Feng-Quan;Wang, Yong			
