taxonID	type	format	identifier	references	title	description	created	creator	contributor	publisher	audience	source	license	rightsHolder	datasetID
4F96B19AE54A59258576E4AC6F1BA2EF.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/1325273	https://doi.org/10.3897/mycokeys.117.137112.figure2	Figure 2. Colletotrichum abelmoschi (MFLUCC 24-0239, holotype) a leaf and stem blight on okra b front and c back view of the colony on PDA after 5 days d acervuli on PDA e – g conidiogenous cell h, i appressoria j – l conidia. Scale bars: 10 μm.	Figure 2. Colletotrichum abelmoschi (MFLUCC 24-0239, holotype) a leaf and stem blight on okra b front and c back view of the colony on PDA after 5 days d acervuli on PDA e – g conidiogenous cell h, i appressoria j – l conidia. Scale bars: 10 μm.	2025-05-09	Fallahi, Maryam;Armand, Alireza;Al-Otibi, Fatimah;Hyde, Kevin D.;Jayawardena, Ruvishika S.		Zenodo	biologists	Fallahi, Maryam;Armand, Alireza;Al-Otibi, Fatimah;Hyde, Kevin D.;Jayawardena, Ruvishika S.			
4F96B19AE54A59258576E4AC6F1BA2EF.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/1325272	https://doi.org/10.3897/mycokeys.117.137112.figure1	Figure 1. Phylogenetic tree of the Colletotrichum gloeosporioides species complex generated by maximum likelihood of combined ITS, gapdh, chs- 1, act, and tub 2 sequence data. The ultrafast maximum likelihood (ML) and maximum parsimony (MP) bootstrap support values ≥ 50 % (BT) as well as bayesian posterior probabilities ≥ 0.90 (BYPP) are shown, respectively, near the nodes. The ex-type strains are marked with an asterisk. The tree is rooted in Colletotrichum acidae (MFLUCC 17 2659) and Colletotrichum truncatum (CBS 151 35).	Figure 1. Phylogenetic tree of the Colletotrichum gloeosporioides species complex generated by maximum likelihood of combined ITS, gapdh, chs- 1, act, and tub 2 sequence data. The ultrafast maximum likelihood (ML) and maximum parsimony (MP) bootstrap support values ≥ 50 % (BT) as well as bayesian posterior probabilities ≥ 0.90 (BYPP) are shown, respectively, near the nodes. The ex-type strains are marked with an asterisk. The tree is rooted in Colletotrichum acidae (MFLUCC 17 2659) and Colletotrichum truncatum (CBS 151 35).	2025-05-09	Fallahi, Maryam;Armand, Alireza;Al-Otibi, Fatimah;Hyde, Kevin D.;Jayawardena, Ruvishika S.		Zenodo	biologists	Fallahi, Maryam;Armand, Alireza;Al-Otibi, Fatimah;Hyde, Kevin D.;Jayawardena, Ruvishika S.			
044C302DC094527583959218F07F7627.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/1325274	https://doi.org/10.3897/mycokeys.117.137112.figure3	Figure 3. Colletotrichum fructicola (MFLUCC 24-0240) a brown leaf spot on jackfruit b front, and c back view of the colony on PDA after 7 days d acervuli on PDA e – g conidia h, i appressoria. Scale bars: 10 μm.	Figure 3. Colletotrichum fructicola (MFLUCC 24-0240) a brown leaf spot on jackfruit b front, and c back view of the colony on PDA after 7 days d acervuli on PDA e – g conidia h, i appressoria. Scale bars: 10 μm.	2025-05-09	Fallahi, Maryam;Armand, Alireza;Al-Otibi, Fatimah;Hyde, Kevin D.;Jayawardena, Ruvishika S.		Zenodo	biologists	Fallahi, Maryam;Armand, Alireza;Al-Otibi, Fatimah;Hyde, Kevin D.;Jayawardena, Ruvishika S.			
044C302DC094527583959218F07F7627.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/1325272	https://doi.org/10.3897/mycokeys.117.137112.figure1	Figure 1. Phylogenetic tree of the Colletotrichum gloeosporioides species complex generated by maximum likelihood of combined ITS, gapdh, chs- 1, act, and tub 2 sequence data. The ultrafast maximum likelihood (ML) and maximum parsimony (MP) bootstrap support values ≥ 50 % (BT) as well as bayesian posterior probabilities ≥ 0.90 (BYPP) are shown, respectively, near the nodes. The ex-type strains are marked with an asterisk. The tree is rooted in Colletotrichum acidae (MFLUCC 17 2659) and Colletotrichum truncatum (CBS 151 35).	Figure 1. Phylogenetic tree of the Colletotrichum gloeosporioides species complex generated by maximum likelihood of combined ITS, gapdh, chs- 1, act, and tub 2 sequence data. The ultrafast maximum likelihood (ML) and maximum parsimony (MP) bootstrap support values ≥ 50 % (BT) as well as bayesian posterior probabilities ≥ 0.90 (BYPP) are shown, respectively, near the nodes. The ex-type strains are marked with an asterisk. The tree is rooted in Colletotrichum acidae (MFLUCC 17 2659) and Colletotrichum truncatum (CBS 151 35).	2025-05-09	Fallahi, Maryam;Armand, Alireza;Al-Otibi, Fatimah;Hyde, Kevin D.;Jayawardena, Ruvishika S.		Zenodo	biologists	Fallahi, Maryam;Armand, Alireza;Al-Otibi, Fatimah;Hyde, Kevin D.;Jayawardena, Ruvishika S.			
7F9182B2310B5F0DBBA32CBE93F2775C.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/1325275	https://doi.org/10.3897/mycokeys.117.137112.figure4	Figure 4. Colletotrichum makassarense (MFLUCC 24-0237) a brown leaf spot on tamarind b front, and c back view of the colony on PDA after 4 days d – e acervuli on CLA f – h conidiophores and conidiogenous cells i, j conidia k, l appressoria Scale bars: 10 μm (g – k); 5 μm (l).	Figure 4. Colletotrichum makassarense (MFLUCC 24-0237) a brown leaf spot on tamarind b front, and c back view of the colony on PDA after 4 days d – e acervuli on CLA f – h conidiophores and conidiogenous cells i, j conidia k, l appressoria Scale bars: 10 μm (g – k); 5 μm (l).	2025-05-09	Fallahi, Maryam;Armand, Alireza;Al-Otibi, Fatimah;Hyde, Kevin D.;Jayawardena, Ruvishika S.		Zenodo	biologists	Fallahi, Maryam;Armand, Alireza;Al-Otibi, Fatimah;Hyde, Kevin D.;Jayawardena, Ruvishika S.			
7F9182B2310B5F0DBBA32CBE93F2775C.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/1325272	https://doi.org/10.3897/mycokeys.117.137112.figure1	Figure 1. Phylogenetic tree of the Colletotrichum gloeosporioides species complex generated by maximum likelihood of combined ITS, gapdh, chs- 1, act, and tub 2 sequence data. The ultrafast maximum likelihood (ML) and maximum parsimony (MP) bootstrap support values ≥ 50 % (BT) as well as bayesian posterior probabilities ≥ 0.90 (BYPP) are shown, respectively, near the nodes. The ex-type strains are marked with an asterisk. The tree is rooted in Colletotrichum acidae (MFLUCC 17 2659) and Colletotrichum truncatum (CBS 151 35).	Figure 1. Phylogenetic tree of the Colletotrichum gloeosporioides species complex generated by maximum likelihood of combined ITS, gapdh, chs- 1, act, and tub 2 sequence data. The ultrafast maximum likelihood (ML) and maximum parsimony (MP) bootstrap support values ≥ 50 % (BT) as well as bayesian posterior probabilities ≥ 0.90 (BYPP) are shown, respectively, near the nodes. The ex-type strains are marked with an asterisk. The tree is rooted in Colletotrichum acidae (MFLUCC 17 2659) and Colletotrichum truncatum (CBS 151 35).	2025-05-09	Fallahi, Maryam;Armand, Alireza;Al-Otibi, Fatimah;Hyde, Kevin D.;Jayawardena, Ruvishika S.		Zenodo	biologists	Fallahi, Maryam;Armand, Alireza;Al-Otibi, Fatimah;Hyde, Kevin D.;Jayawardena, Ruvishika S.			
A2CC8F88F43B50CEA365BF5D0B76151F.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/1325278	https://doi.org/10.3897/mycokeys.117.137112.figure7	Figure 7. Colletotrichum plurivorum (MFLUCC 24-0238) a brown leaf spot on persimmon leaves b front, and c back view of the colony on PDA after seven days d acervuli on PDA e, f conidiophores and conidiogenous cells g chlamydospore h, i ascus j – l appressoria. Scale bars: 10 μm.	Figure 7. Colletotrichum plurivorum (MFLUCC 24-0238) a brown leaf spot on persimmon leaves b front, and c back view of the colony on PDA after seven days d acervuli on PDA e, f conidiophores and conidiogenous cells g chlamydospore h, i ascus j – l appressoria. Scale bars: 10 μm.	2025-05-09	Fallahi, Maryam;Armand, Alireza;Al-Otibi, Fatimah;Hyde, Kevin D.;Jayawardena, Ruvishika S.		Zenodo	biologists	Fallahi, Maryam;Armand, Alireza;Al-Otibi, Fatimah;Hyde, Kevin D.;Jayawardena, Ruvishika S.			
A2CC8F88F43B50CEA365BF5D0B76151F.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/1325277	https://doi.org/10.3897/mycokeys.117.137112.figure6	Figure 6. Phylogenetic tree of the Colletotrichum orchidearum species complex generated by maximum likelihood of combined ITS, gapdh, chs- 1, act, and tub 2 sequence data. The ultrafast maximum likelihood (ML) and maximum parsimony (MP) bootstrap support values ≥ 50 % (BT) as well as Bayesian posterior probabilities ≥ 0.90 (BYPP) are shown, respectively, near the nodes. The ex-type strains are marked with an asterisk. The tree is rooted in Colletotrichum merremiae (CBS 124955).	Figure 6. Phylogenetic tree of the Colletotrichum orchidearum species complex generated by maximum likelihood of combined ITS, gapdh, chs- 1, act, and tub 2 sequence data. The ultrafast maximum likelihood (ML) and maximum parsimony (MP) bootstrap support values ≥ 50 % (BT) as well as Bayesian posterior probabilities ≥ 0.90 (BYPP) are shown, respectively, near the nodes. The ex-type strains are marked with an asterisk. The tree is rooted in Colletotrichum merremiae (CBS 124955).	2025-05-09	Fallahi, Maryam;Armand, Alireza;Al-Otibi, Fatimah;Hyde, Kevin D.;Jayawardena, Ruvishika S.		Zenodo	biologists	Fallahi, Maryam;Armand, Alireza;Al-Otibi, Fatimah;Hyde, Kevin D.;Jayawardena, Ruvishika S.			
AE9ADE2C030C5003AF1E7177F6C8B83C.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/1325276	https://doi.org/10.3897/mycokeys.117.137112.figure5	Figure 5. Colletotrichum siamense (MFLUCC 24-0235) a leaf of black pepper b front, and c back view of the colony on PDA after five days d acervuli on CLA e, f conidiophores and conidiogenous cells g – i conidia j – l appressoria. Scale bars: 20 μm (e – j); 10 μm (k – l).	Figure 5. Colletotrichum siamense (MFLUCC 24-0235) a leaf of black pepper b front, and c back view of the colony on PDA after five days d acervuli on CLA e, f conidiophores and conidiogenous cells g – i conidia j – l appressoria. Scale bars: 20 μm (e – j); 10 μm (k – l).	2025-05-09	Fallahi, Maryam;Armand, Alireza;Al-Otibi, Fatimah;Hyde, Kevin D.;Jayawardena, Ruvishika S.		Zenodo	biologists	Fallahi, Maryam;Armand, Alireza;Al-Otibi, Fatimah;Hyde, Kevin D.;Jayawardena, Ruvishika S.			
AE9ADE2C030C5003AF1E7177F6C8B83C.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/1325272	https://doi.org/10.3897/mycokeys.117.137112.figure1	Figure 1. Phylogenetic tree of the Colletotrichum gloeosporioides species complex generated by maximum likelihood of combined ITS, gapdh, chs- 1, act, and tub 2 sequence data. The ultrafast maximum likelihood (ML) and maximum parsimony (MP) bootstrap support values ≥ 50 % (BT) as well as bayesian posterior probabilities ≥ 0.90 (BYPP) are shown, respectively, near the nodes. The ex-type strains are marked with an asterisk. The tree is rooted in Colletotrichum acidae (MFLUCC 17 2659) and Colletotrichum truncatum (CBS 151 35).	Figure 1. Phylogenetic tree of the Colletotrichum gloeosporioides species complex generated by maximum likelihood of combined ITS, gapdh, chs- 1, act, and tub 2 sequence data. The ultrafast maximum likelihood (ML) and maximum parsimony (MP) bootstrap support values ≥ 50 % (BT) as well as bayesian posterior probabilities ≥ 0.90 (BYPP) are shown, respectively, near the nodes. The ex-type strains are marked with an asterisk. The tree is rooted in Colletotrichum acidae (MFLUCC 17 2659) and Colletotrichum truncatum (CBS 151 35).	2025-05-09	Fallahi, Maryam;Armand, Alireza;Al-Otibi, Fatimah;Hyde, Kevin D.;Jayawardena, Ruvishika S.		Zenodo	biologists	Fallahi, Maryam;Armand, Alireza;Al-Otibi, Fatimah;Hyde, Kevin D.;Jayawardena, Ruvishika S.			
1CE63D5B0F7A5DDB9B61F668CD207574.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/1325280	https://doi.org/10.3897/mycokeys.117.137112.figure9	Figure 9. Colletotrichum spaethianum (MFLUCC 24-0236) a brown leaf spot in edible canna b front and c back view of the colony on PDA after seven days d acervuli on PDA e – g conidiophores and conidiogenous cells h – j, l, m conidia k, n, o appressoria. Scale bars: 10 μm.	Figure 9. Colletotrichum spaethianum (MFLUCC 24-0236) a brown leaf spot in edible canna b front and c back view of the colony on PDA after seven days d acervuli on PDA e – g conidiophores and conidiogenous cells h – j, l, m conidia k, n, o appressoria. Scale bars: 10 μm.	2025-05-09	Fallahi, Maryam;Armand, Alireza;Al-Otibi, Fatimah;Hyde, Kevin D.;Jayawardena, Ruvishika S.		Zenodo	biologists	Fallahi, Maryam;Armand, Alireza;Al-Otibi, Fatimah;Hyde, Kevin D.;Jayawardena, Ruvishika S.			
1CE63D5B0F7A5DDB9B61F668CD207574.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/1325279	https://doi.org/10.3897/mycokeys.117.137112.figure8	Figure 8. Phylogenetic tree of the Colletotrichum spaethianum species complex generated by maximum likelihood of combined ITS, gapdh, chs- 1, act, and tub 2 sequence data. The ultrafast maximum likelihood (ML) and maximum parsimony (MP) bootstrap support values ≥ 50 % (BT) as well as Bayesian posterior probabilities ≥ 0.90 (BYPP) are shown, respectively, near the nodes. The ex-type strains are marked with an asterisk. The tree is rooted in Colletotrichum bambusicola (CNUCC 307307).	Figure 8. Phylogenetic tree of the Colletotrichum spaethianum species complex generated by maximum likelihood of combined ITS, gapdh, chs- 1, act, and tub 2 sequence data. The ultrafast maximum likelihood (ML) and maximum parsimony (MP) bootstrap support values ≥ 50 % (BT) as well as Bayesian posterior probabilities ≥ 0.90 (BYPP) are shown, respectively, near the nodes. The ex-type strains are marked with an asterisk. The tree is rooted in Colletotrichum bambusicola (CNUCC 307307).	2025-05-09	Fallahi, Maryam;Armand, Alireza;Al-Otibi, Fatimah;Hyde, Kevin D.;Jayawardena, Ruvishika S.		Zenodo	biologists	Fallahi, Maryam;Armand, Alireza;Al-Otibi, Fatimah;Hyde, Kevin D.;Jayawardena, Ruvishika S.			
1B07529199B45A5E98C6DB33089DBCCA.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/1325284	https://doi.org/10.3897/mycokeys.117.137112.figure13	Figure 13. Diaporthe fistulosi (MFLUCC 24-0244, holotype) a wilting symptom in spring onion b front, and c back view of the colony on PDA after 10 days d front and e back view of the colony on PDA after 60 days f conidiomata g, h section view of conidiomata, conidiogenous cells, and paraphyses i – k beta conidia. Scale bars: 20 μm.	Figure 13. Diaporthe fistulosi (MFLUCC 24-0244, holotype) a wilting symptom in spring onion b front, and c back view of the colony on PDA after 10 days d front and e back view of the colony on PDA after 60 days f conidiomata g, h section view of conidiomata, conidiogenous cells, and paraphyses i – k beta conidia. Scale bars: 20 μm.	2025-05-09	Fallahi, Maryam;Armand, Alireza;Al-Otibi, Fatimah;Hyde, Kevin D.;Jayawardena, Ruvishika S.		Zenodo	biologists	Fallahi, Maryam;Armand, Alireza;Al-Otibi, Fatimah;Hyde, Kevin D.;Jayawardena, Ruvishika S.			
1B07529199B45A5E98C6DB33089DBCCA.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/1325283	https://doi.org/10.3897/mycokeys.117.137112.figure12	Figure 12. Phylogenetic tree of the Diaporthe arecae species complex generated by maximum likelihood of combined ITS, tef 1, tub 2, cal, and his 3 sequence data. The ultrafast maximum likelihood (ML) bootstrap support values ≥ 50 % (BT) and Bayesian posterior probabilities ≥ 0.90 (BYPP) are shown, respectively, near the nodes. The ex-type strains are marked with an asterisk. The tree is rooted in two strains of Diaporthe xunwuensis (CFCC 53086, CFCC 53085).	Figure 12. Phylogenetic tree of the Diaporthe arecae species complex generated by maximum likelihood of combined ITS, tef 1, tub 2, cal, and his 3 sequence data. The ultrafast maximum likelihood (ML) bootstrap support values ≥ 50 % (BT) and Bayesian posterior probabilities ≥ 0.90 (BYPP) are shown, respectively, near the nodes. The ex-type strains are marked with an asterisk. The tree is rooted in two strains of Diaporthe xunwuensis (CFCC 53086, CFCC 53085).	2025-05-09	Fallahi, Maryam;Armand, Alireza;Al-Otibi, Fatimah;Hyde, Kevin D.;Jayawardena, Ruvishika S.		Zenodo	biologists	Fallahi, Maryam;Armand, Alireza;Al-Otibi, Fatimah;Hyde, Kevin D.;Jayawardena, Ruvishika S.			
1B07529199B45A5E98C6DB33089DBCCA.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/1325285	https://doi.org/10.3897/mycokeys.117.137112.figure14	Figure 14. Pairwise homoplasy index (PHI) test of Diaporthe fistulosi (MFLUCC 24-0244, holotype) and closely related species using both LogDet transformation and splits decomposition. PHI test results (Φw) < 0.05 indicate significant recombination among the species (Φw = 1).	Figure 14. Pairwise homoplasy index (PHI) test of Diaporthe fistulosi (MFLUCC 24-0244, holotype) and closely related species using both LogDet transformation and splits decomposition. PHI test results (Φw) < 0.05 indicate significant recombination among the species (Φw = 1).	2025-05-09	Fallahi, Maryam;Armand, Alireza;Al-Otibi, Fatimah;Hyde, Kevin D.;Jayawardena, Ruvishika S.		Zenodo	biologists	Fallahi, Maryam;Armand, Alireza;Al-Otibi, Fatimah;Hyde, Kevin D.;Jayawardena, Ruvishika S.			
64DC42E211095308B9A37E7EBAB5E21B.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/1325286	https://doi.org/10.3897/mycokeys.117.137112.figure15	Figure 15. Diaporthe hongkongensis (MFLUCC 24-0246) a fruit brown spot on rambutan b front, and c back view of the colony on PDA after seven days d front and e back view of the colony on PDA after 60 days f, g conidiomata h – I section view of conidiomata j – l conidiophores and paraphyses m beta conidia n alpha conidia o alpha and beta conidia. Scale bars: 100 μm (h, i); 20 μm (j – l); 10 μm (m); 5 μm (n, o).	Figure 15. Diaporthe hongkongensis (MFLUCC 24-0246) a fruit brown spot on rambutan b front, and c back view of the colony on PDA after seven days d front and e back view of the colony on PDA after 60 days f, g conidiomata h – I section view of conidiomata j – l conidiophores and paraphyses m beta conidia n alpha conidia o alpha and beta conidia. Scale bars: 100 μm (h, i); 20 μm (j – l); 10 μm (m); 5 μm (n, o).	2025-05-09	Fallahi, Maryam;Armand, Alireza;Al-Otibi, Fatimah;Hyde, Kevin D.;Jayawardena, Ruvishika S.		Zenodo	biologists	Fallahi, Maryam;Armand, Alireza;Al-Otibi, Fatimah;Hyde, Kevin D.;Jayawardena, Ruvishika S.			
64DC42E211095308B9A37E7EBAB5E21B.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/1325283	https://doi.org/10.3897/mycokeys.117.137112.figure12	Figure 12. Phylogenetic tree of the Diaporthe arecae species complex generated by maximum likelihood of combined ITS, tef 1, tub 2, cal, and his 3 sequence data. The ultrafast maximum likelihood (ML) bootstrap support values ≥ 50 % (BT) and Bayesian posterior probabilities ≥ 0.90 (BYPP) are shown, respectively, near the nodes. The ex-type strains are marked with an asterisk. The tree is rooted in two strains of Diaporthe xunwuensis (CFCC 53086, CFCC 53085).	Figure 12. Phylogenetic tree of the Diaporthe arecae species complex generated by maximum likelihood of combined ITS, tef 1, tub 2, cal, and his 3 sequence data. The ultrafast maximum likelihood (ML) bootstrap support values ≥ 50 % (BT) and Bayesian posterior probabilities ≥ 0.90 (BYPP) are shown, respectively, near the nodes. The ex-type strains are marked with an asterisk. The tree is rooted in two strains of Diaporthe xunwuensis (CFCC 53086, CFCC 53085).	2025-05-09	Fallahi, Maryam;Armand, Alireza;Al-Otibi, Fatimah;Hyde, Kevin D.;Jayawardena, Ruvishika S.		Zenodo	biologists	Fallahi, Maryam;Armand, Alireza;Al-Otibi, Fatimah;Hyde, Kevin D.;Jayawardena, Ruvishika S.			
47BACC892A235C41A9D0F6062A9BBFF2.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/1325291	https://doi.org/10.3897/mycokeys.117.137112.figure20	Figure 20. Diaporthe melongenicola (MFLUCC 24-0242, holotype) a blight and stem canker in makhuea b front, and c back view of the colony on PDA after 10 days d front and e back view of the colony on PDA after 60 days f – h conidiomata i, j section view of conidiomata k, l conidiophores and paraphyses m beta conidia. Scale bars: 20 μm (i, j); 10 μm (k – m).	Figure 20. Diaporthe melongenicola (MFLUCC 24-0242, holotype) a blight and stem canker in makhuea b front, and c back view of the colony on PDA after 10 days d front and e back view of the colony on PDA after 60 days f – h conidiomata i, j section view of conidiomata k, l conidiophores and paraphyses m beta conidia. Scale bars: 20 μm (i, j); 10 μm (k – m).	2025-05-09	Fallahi, Maryam;Armand, Alireza;Al-Otibi, Fatimah;Hyde, Kevin D.;Jayawardena, Ruvishika S.		Zenodo	biologists	Fallahi, Maryam;Armand, Alireza;Al-Otibi, Fatimah;Hyde, Kevin D.;Jayawardena, Ruvishika S.			
47BACC892A235C41A9D0F6062A9BBFF2.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/1325287	https://doi.org/10.3897/mycokeys.117.137112.figure16	Figure 16. Phylogenetic tree of the Diaporthe sojae species complex generated by maximum likelihood of combined ITS, tef 1, tub 2, cal, and his 3 sequence data. The ultrafast maximum likelihood (ML) bootstrap support values ≥ 50 % (BT) and Bayesian posterior probabilities ≥ 0.90 (BYPP) are shown, respectively, near the nodes. The ex-type strains are marked with an asterisk. The tree is rooted in D. amygdali (CBS 126679) and D. amygdali (CBS 115620).	Figure 16. Phylogenetic tree of the Diaporthe sojae species complex generated by maximum likelihood of combined ITS, tef 1, tub 2, cal, and his 3 sequence data. The ultrafast maximum likelihood (ML) bootstrap support values ≥ 50 % (BT) and Bayesian posterior probabilities ≥ 0.90 (BYPP) are shown, respectively, near the nodes. The ex-type strains are marked with an asterisk. The tree is rooted in D. amygdali (CBS 126679) and D. amygdali (CBS 115620).	2025-05-09	Fallahi, Maryam;Armand, Alireza;Al-Otibi, Fatimah;Hyde, Kevin D.;Jayawardena, Ruvishika S.		Zenodo	biologists	Fallahi, Maryam;Armand, Alireza;Al-Otibi, Fatimah;Hyde, Kevin D.;Jayawardena, Ruvishika S.			
47BACC892A235C41A9D0F6062A9BBFF2.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/1325290	https://doi.org/10.3897/mycokeys.117.137112.figure19	Figure 19. Pairwise homoplasy index (PHI) test of Diaporthe melongenicola MFLUCC 24-0242 and closely related species using both LogDet transformation and splits decomposition. PHI test results (Φw) < 0.05 indicate significant recombination among the species (p = 1).	Figure 19. Pairwise homoplasy index (PHI) test of Diaporthe melongenicola MFLUCC 24-0242 and closely related species using both LogDet transformation and splits decomposition. PHI test results (Φw) < 0.05 indicate significant recombination among the species (p = 1).	2025-05-09	Fallahi, Maryam;Armand, Alireza;Al-Otibi, Fatimah;Hyde, Kevin D.;Jayawardena, Ruvishika S.		Zenodo	biologists	Fallahi, Maryam;Armand, Alireza;Al-Otibi, Fatimah;Hyde, Kevin D.;Jayawardena, Ruvishika S.			
06D9BCEB235B533B81DA651C54B11D80.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/1325288	https://doi.org/10.3897/mycokeys.117.137112.figure17	Figure 17. Diaporthe rosae (MFLUCC 24-0243) a stem lesion on makhuea kheun b front, and c back view of the colony on PDA after 10 days d front and e back view of the colony on PDA after 60 days f – h conidiomata I section view of conidiomata j, k conidiogenous cells m beta conidia. Scale bars: 50 μm (i); 10 μm (j – n).	Figure 17. Diaporthe rosae (MFLUCC 24-0243) a stem lesion on makhuea kheun b front, and c back view of the colony on PDA after 10 days d front and e back view of the colony on PDA after 60 days f – h conidiomata I section view of conidiomata j, k conidiogenous cells m beta conidia. Scale bars: 50 μm (i); 10 μm (j – n).	2025-05-09	Fallahi, Maryam;Armand, Alireza;Al-Otibi, Fatimah;Hyde, Kevin D.;Jayawardena, Ruvishika S.		Zenodo	biologists	Fallahi, Maryam;Armand, Alireza;Al-Otibi, Fatimah;Hyde, Kevin D.;Jayawardena, Ruvishika S.			
06D9BCEB235B533B81DA651C54B11D80.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/1325287	https://doi.org/10.3897/mycokeys.117.137112.figure16	Figure 16. Phylogenetic tree of the Diaporthe sojae species complex generated by maximum likelihood of combined ITS, tef 1, tub 2, cal, and his 3 sequence data. The ultrafast maximum likelihood (ML) bootstrap support values ≥ 50 % (BT) and Bayesian posterior probabilities ≥ 0.90 (BYPP) are shown, respectively, near the nodes. The ex-type strains are marked with an asterisk. The tree is rooted in D. amygdali (CBS 126679) and D. amygdali (CBS 115620).	Figure 16. Phylogenetic tree of the Diaporthe sojae species complex generated by maximum likelihood of combined ITS, tef 1, tub 2, cal, and his 3 sequence data. The ultrafast maximum likelihood (ML) bootstrap support values ≥ 50 % (BT) and Bayesian posterior probabilities ≥ 0.90 (BYPP) are shown, respectively, near the nodes. The ex-type strains are marked with an asterisk. The tree is rooted in D. amygdali (CBS 126679) and D. amygdali (CBS 115620).	2025-05-09	Fallahi, Maryam;Armand, Alireza;Al-Otibi, Fatimah;Hyde, Kevin D.;Jayawardena, Ruvishika S.		Zenodo	biologists	Fallahi, Maryam;Armand, Alireza;Al-Otibi, Fatimah;Hyde, Kevin D.;Jayawardena, Ruvishika S.			
9414B57E9A05501FBB15C92009E75748.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/1325282	https://doi.org/10.3897/mycokeys.117.137112.figure11	Figure 11. Diaporthe sennicola (MFLUCC 24-0241) a brown stem lesion (canker) on okra b front and c back view of the colony on PDA after ten days d front and e back view of the colony on PDA after 60 days f, g conidiomata h – j section view of conidiomata k, l conidiophores m, n alpha conidia. Scale bars: 100 μm (h – j); 50 μm (k); 20 μm (l); 10 μm (m); 5 μm (n, o).	Figure 11. Diaporthe sennicola (MFLUCC 24-0241) a brown stem lesion (canker) on okra b front and c back view of the colony on PDA after ten days d front and e back view of the colony on PDA after 60 days f, g conidiomata h – j section view of conidiomata k, l conidiophores m, n alpha conidia. Scale bars: 100 μm (h – j); 50 μm (k); 20 μm (l); 10 μm (m); 5 μm (n, o).	2025-05-09	Fallahi, Maryam;Armand, Alireza;Al-Otibi, Fatimah;Hyde, Kevin D.;Jayawardena, Ruvishika S.		Zenodo	biologists	Fallahi, Maryam;Armand, Alireza;Al-Otibi, Fatimah;Hyde, Kevin D.;Jayawardena, Ruvishika S.			
9414B57E9A05501FBB15C92009E75748.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/1325281	https://doi.org/10.3897/mycokeys.117.137112.figure10	Figure 10. Phylogenetic tree of the Diaporthe alnea species complex generated by maximum likelihood of combined ITS, tef 1, tub 2, cal, and his 3 sequence data. The ultrafast maximum likelihood (ML) bootstrap support values ≥ 50 % (BT) and bayesian posterior probabilities ≥ 0.90 (BYPP) are shown, respectively, near the nodes. The ex-type strains are marked with an asterisk. The tree is rooted in Diaporthe rhoina (CBS 146.27) and Diaporthe varians (LC 8112).	Figure 10. Phylogenetic tree of the Diaporthe alnea species complex generated by maximum likelihood of combined ITS, tef 1, tub 2, cal, and his 3 sequence data. The ultrafast maximum likelihood (ML) bootstrap support values ≥ 50 % (BT) and bayesian posterior probabilities ≥ 0.90 (BYPP) are shown, respectively, near the nodes. The ex-type strains are marked with an asterisk. The tree is rooted in Diaporthe rhoina (CBS 146.27) and Diaporthe varians (LC 8112).	2025-05-09	Fallahi, Maryam;Armand, Alireza;Al-Otibi, Fatimah;Hyde, Kevin D.;Jayawardena, Ruvishika S.		Zenodo	biologists	Fallahi, Maryam;Armand, Alireza;Al-Otibi, Fatimah;Hyde, Kevin D.;Jayawardena, Ruvishika S.			
8937D984430A53619EB67DE39EF5AE1D.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/1325289	https://doi.org/10.3897/mycokeys.117.137112.figure18	Figure 18. Diaporthe siamensis (MFLUCC 24-0245) a fruit rot in rambutan b front, and c back view of the colony on PDA after 10 days d front and e back view of the colony on PDA after 60 days f – h conidiomata i, j section view of conidiomata k, l conidiophores and paraphyses m beta conidia. Scale bars: 100 μm (i, j); 50 μm (k); 20 μm (l, m).	Figure 18. Diaporthe siamensis (MFLUCC 24-0245) a fruit rot in rambutan b front, and c back view of the colony on PDA after 10 days d front and e back view of the colony on PDA after 60 days f – h conidiomata i, j section view of conidiomata k, l conidiophores and paraphyses m beta conidia. Scale bars: 100 μm (i, j); 50 μm (k); 20 μm (l, m).	2025-05-09	Fallahi, Maryam;Armand, Alireza;Al-Otibi, Fatimah;Hyde, Kevin D.;Jayawardena, Ruvishika S.		Zenodo	biologists	Fallahi, Maryam;Armand, Alireza;Al-Otibi, Fatimah;Hyde, Kevin D.;Jayawardena, Ruvishika S.			
8937D984430A53619EB67DE39EF5AE1D.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/1325287	https://doi.org/10.3897/mycokeys.117.137112.figure16	Figure 16. Phylogenetic tree of the Diaporthe sojae species complex generated by maximum likelihood of combined ITS, tef 1, tub 2, cal, and his 3 sequence data. The ultrafast maximum likelihood (ML) bootstrap support values ≥ 50 % (BT) and Bayesian posterior probabilities ≥ 0.90 (BYPP) are shown, respectively, near the nodes. The ex-type strains are marked with an asterisk. The tree is rooted in D. amygdali (CBS 126679) and D. amygdali (CBS 115620).	Figure 16. Phylogenetic tree of the Diaporthe sojae species complex generated by maximum likelihood of combined ITS, tef 1, tub 2, cal, and his 3 sequence data. The ultrafast maximum likelihood (ML) bootstrap support values ≥ 50 % (BT) and Bayesian posterior probabilities ≥ 0.90 (BYPP) are shown, respectively, near the nodes. The ex-type strains are marked with an asterisk. The tree is rooted in D. amygdali (CBS 126679) and D. amygdali (CBS 115620).	2025-05-09	Fallahi, Maryam;Armand, Alireza;Al-Otibi, Fatimah;Hyde, Kevin D.;Jayawardena, Ruvishika S.		Zenodo	biologists	Fallahi, Maryam;Armand, Alireza;Al-Otibi, Fatimah;Hyde, Kevin D.;Jayawardena, Ruvishika S.			
62018EADEB9958C7B741C968F7943B66.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/1325293	https://doi.org/10.3897/mycokeys.117.137112.figure22	Figure 22. Fusarium bubalinum (MFLUCC 24-0230) a stem rot in dragon fruit b upper, and c reverse views of the colony after seven days of growth on PDA at 25 ° C d, e conidia f conidiophores and conidia anastomose and germination g – i conidiophores, conidiogenous cells, and aerial conidia. Scale bars: 20 μm.	Figure 22. Fusarium bubalinum (MFLUCC 24-0230) a stem rot in dragon fruit b upper, and c reverse views of the colony after seven days of growth on PDA at 25 ° C d, e conidia f conidiophores and conidia anastomose and germination g – i conidiophores, conidiogenous cells, and aerial conidia. Scale bars: 20 μm.	2025-05-09	Fallahi, Maryam;Armand, Alireza;Al-Otibi, Fatimah;Hyde, Kevin D.;Jayawardena, Ruvishika S.		Zenodo	biologists	Fallahi, Maryam;Armand, Alireza;Al-Otibi, Fatimah;Hyde, Kevin D.;Jayawardena, Ruvishika S.			
62018EADEB9958C7B741C968F7943B66.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/1325292	https://doi.org/10.3897/mycokeys.117.137112.figure21	Figure 21. Phylogenetic tree of the Fusarium incarnatum species complex generated by maximum likelihood of combined tef 1, rpb 1, and rpb 2 sequence data. The ultrafast maximum likelihood (ML) and IQ bootstrap support values ≥ 50 % (BT), as well as Bayesian posterior probabilities ≥ 0.95 (BYPP) are shown, respectively, near the nodes. The ex-type strains are marked with an asterisk. The tree is rooted in F. concolor (NRRL 13994).	Figure 21. Phylogenetic tree of the Fusarium incarnatum species complex generated by maximum likelihood of combined tef 1, rpb 1, and rpb 2 sequence data. The ultrafast maximum likelihood (ML) and IQ bootstrap support values ≥ 50 % (BT), as well as Bayesian posterior probabilities ≥ 0.95 (BYPP) are shown, respectively, near the nodes. The ex-type strains are marked with an asterisk. The tree is rooted in F. concolor (NRRL 13994).	2025-05-09	Fallahi, Maryam;Armand, Alireza;Al-Otibi, Fatimah;Hyde, Kevin D.;Jayawardena, Ruvishika S.		Zenodo	biologists	Fallahi, Maryam;Armand, Alireza;Al-Otibi, Fatimah;Hyde, Kevin D.;Jayawardena, Ruvishika S.			
FCFAA96804FC544FA40AE4E47577AB72.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/1325297	https://doi.org/10.3897/mycokeys.117.137112.figure26	Figure 26. Fusarium languescens (MFLUCC 24-0249) a tuber rot in lesser yam b front, and c back views of the colony after seven days of growth on PDA at 25 ° C d sporodochium e sporodochial conidiophore and phialides f, g sporodochial conidia h chlamydospore i – k aerial conidiophores, conidiogenous cells, and conidia. Scale bars: 20 μm (e – g); 10 μm (h, i); 5 μm (j, k).	Figure 26. Fusarium languescens (MFLUCC 24-0249) a tuber rot in lesser yam b front, and c back views of the colony after seven days of growth on PDA at 25 ° C d sporodochium e sporodochial conidiophore and phialides f, g sporodochial conidia h chlamydospore i – k aerial conidiophores, conidiogenous cells, and conidia. Scale bars: 20 μm (e – g); 10 μm (h, i); 5 μm (j, k).	2025-05-09	Fallahi, Maryam;Armand, Alireza;Al-Otibi, Fatimah;Hyde, Kevin D.;Jayawardena, Ruvishika S.		Zenodo	biologists	Fallahi, Maryam;Armand, Alireza;Al-Otibi, Fatimah;Hyde, Kevin D.;Jayawardena, Ruvishika S.			
FCFAA96804FC544FA40AE4E47577AB72.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/1325296	https://doi.org/10.3897/mycokeys.117.137112.figure25	Figure 25. Phylogenetic tree of the Fusarium oxysporum species complex generated by maximum likelihood of combined tef 1, rpb 1, and rpb 2 sequence data. The ultrafast maximum likelihood (ML) and IQ bootstrap support values ≥ 50 % as well as Bayesian posterior probabilities ≥ 0.95 (BYPP) are shown, respectively, near the nodes. The ex-type strains are marked with an asterisk. The tree is rooted in Fusarium proliferatum (CBS 480 96).	Figure 25. Phylogenetic tree of the Fusarium oxysporum species complex generated by maximum likelihood of combined tef 1, rpb 1, and rpb 2 sequence data. The ultrafast maximum likelihood (ML) and IQ bootstrap support values ≥ 50 % as well as Bayesian posterior probabilities ≥ 0.95 (BYPP) are shown, respectively, near the nodes. The ex-type strains are marked with an asterisk. The tree is rooted in Fusarium proliferatum (CBS 480 96).	2025-05-09	Fallahi, Maryam;Armand, Alireza;Al-Otibi, Fatimah;Hyde, Kevin D.;Jayawardena, Ruvishika S.		Zenodo	biologists	Fallahi, Maryam;Armand, Alireza;Al-Otibi, Fatimah;Hyde, Kevin D.;Jayawardena, Ruvishika S.			
5D72D9A8A6A85D9AA9B527F53DBC389A.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/1325298	https://doi.org/10.3897/mycokeys.117.137112.figure27	Figure 27. Fusarium nirenbergiae (MFLUCC 24-0248) a spring onion wilting b front and c back views of the colony after seven days of growth on PDA at 25 ° C d, e aerial conidiophores, conidiogenous cells, and conidia. Scale bars: 10 μm.	Figure 27. Fusarium nirenbergiae (MFLUCC 24-0248) a spring onion wilting b front and c back views of the colony after seven days of growth on PDA at 25 ° C d, e aerial conidiophores, conidiogenous cells, and conidia. Scale bars: 10 μm.	2025-05-09	Fallahi, Maryam;Armand, Alireza;Al-Otibi, Fatimah;Hyde, Kevin D.;Jayawardena, Ruvishika S.		Zenodo	biologists	Fallahi, Maryam;Armand, Alireza;Al-Otibi, Fatimah;Hyde, Kevin D.;Jayawardena, Ruvishika S.			
5D72D9A8A6A85D9AA9B527F53DBC389A.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/1325296	https://doi.org/10.3897/mycokeys.117.137112.figure25	Figure 25. Phylogenetic tree of the Fusarium oxysporum species complex generated by maximum likelihood of combined tef 1, rpb 1, and rpb 2 sequence data. The ultrafast maximum likelihood (ML) and IQ bootstrap support values ≥ 50 % as well as Bayesian posterior probabilities ≥ 0.95 (BYPP) are shown, respectively, near the nodes. The ex-type strains are marked with an asterisk. The tree is rooted in Fusarium proliferatum (CBS 480 96).	Figure 25. Phylogenetic tree of the Fusarium oxysporum species complex generated by maximum likelihood of combined tef 1, rpb 1, and rpb 2 sequence data. The ultrafast maximum likelihood (ML) and IQ bootstrap support values ≥ 50 % as well as Bayesian posterior probabilities ≥ 0.95 (BYPP) are shown, respectively, near the nodes. The ex-type strains are marked with an asterisk. The tree is rooted in Fusarium proliferatum (CBS 480 96).	2025-05-09	Fallahi, Maryam;Armand, Alireza;Al-Otibi, Fatimah;Hyde, Kevin D.;Jayawardena, Ruvishika S.		Zenodo	biologists	Fallahi, Maryam;Armand, Alireza;Al-Otibi, Fatimah;Hyde, Kevin D.;Jayawardena, Ruvishika S.			
9F4717E22E48563FB562B9ED0E9E65B4.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/1325294	https://doi.org/10.3897/mycokeys.117.137112.figure23	Figure 23. Fusarium sulawesiense (MFLUCC 24-0250) a fruit rot in Mangosteen b front and c back views of the colony after 7 days of growth on PDA at 25 ° C d spordochium e – g sporodochial conidia h, i Conidiogenous cells and conidia. Scale bars: 20 μm (e – h); 10 μm (i).	Figure 23. Fusarium sulawesiense (MFLUCC 24-0250) a fruit rot in Mangosteen b front and c back views of the colony after 7 days of growth on PDA at 25 ° C d spordochium e – g sporodochial conidia h, i Conidiogenous cells and conidia. Scale bars: 20 μm (e – h); 10 μm (i).	2025-05-09	Fallahi, Maryam;Armand, Alireza;Al-Otibi, Fatimah;Hyde, Kevin D.;Jayawardena, Ruvishika S.		Zenodo	biologists	Fallahi, Maryam;Armand, Alireza;Al-Otibi, Fatimah;Hyde, Kevin D.;Jayawardena, Ruvishika S.			
9F4717E22E48563FB562B9ED0E9E65B4.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/1325292	https://doi.org/10.3897/mycokeys.117.137112.figure21	Figure 21. Phylogenetic tree of the Fusarium incarnatum species complex generated by maximum likelihood of combined tef 1, rpb 1, and rpb 2 sequence data. The ultrafast maximum likelihood (ML) and IQ bootstrap support values ≥ 50 % (BT), as well as Bayesian posterior probabilities ≥ 0.95 (BYPP) are shown, respectively, near the nodes. The ex-type strains are marked with an asterisk. The tree is rooted in F. concolor (NRRL 13994).	Figure 21. Phylogenetic tree of the Fusarium incarnatum species complex generated by maximum likelihood of combined tef 1, rpb 1, and rpb 2 sequence data. The ultrafast maximum likelihood (ML) and IQ bootstrap support values ≥ 50 % (BT), as well as Bayesian posterior probabilities ≥ 0.95 (BYPP) are shown, respectively, near the nodes. The ex-type strains are marked with an asterisk. The tree is rooted in F. concolor (NRRL 13994).	2025-05-09	Fallahi, Maryam;Armand, Alireza;Al-Otibi, Fatimah;Hyde, Kevin D.;Jayawardena, Ruvishika S.		Zenodo	biologists	Fallahi, Maryam;Armand, Alireza;Al-Otibi, Fatimah;Hyde, Kevin D.;Jayawardena, Ruvishika S.			
07B14C6AA0F559FCA2721641F6F7E7F7.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/1325295	https://doi.org/10.3897/mycokeys.117.137112.figure24	Figure 24. Fusarium tanahbumbuense (MFLUCC 24-0231) a leaf spots on durian b stem and leaf spots on pepper c front, and d back views of the colony after 10 days of growth on PDA at 25 ° C e spordochium f – g spordochium conidia h, i conidiophores and conidiogenous cells. j aerial conidia. Scale bars: 20 μm.	Figure 24. Fusarium tanahbumbuense (MFLUCC 24-0231) a leaf spots on durian b stem and leaf spots on pepper c front, and d back views of the colony after 10 days of growth on PDA at 25 ° C e spordochium f – g spordochium conidia h, i conidiophores and conidiogenous cells. j aerial conidia. Scale bars: 20 μm.	2025-05-09	Fallahi, Maryam;Armand, Alireza;Al-Otibi, Fatimah;Hyde, Kevin D.;Jayawardena, Ruvishika S.		Zenodo	biologists	Fallahi, Maryam;Armand, Alireza;Al-Otibi, Fatimah;Hyde, Kevin D.;Jayawardena, Ruvishika S.			
07B14C6AA0F559FCA2721641F6F7E7F7.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/1325292	https://doi.org/10.3897/mycokeys.117.137112.figure21	Figure 21. Phylogenetic tree of the Fusarium incarnatum species complex generated by maximum likelihood of combined tef 1, rpb 1, and rpb 2 sequence data. The ultrafast maximum likelihood (ML) and IQ bootstrap support values ≥ 50 % (BT), as well as Bayesian posterior probabilities ≥ 0.95 (BYPP) are shown, respectively, near the nodes. The ex-type strains are marked with an asterisk. The tree is rooted in F. concolor (NRRL 13994).	Figure 21. Phylogenetic tree of the Fusarium incarnatum species complex generated by maximum likelihood of combined tef 1, rpb 1, and rpb 2 sequence data. The ultrafast maximum likelihood (ML) and IQ bootstrap support values ≥ 50 % (BT), as well as Bayesian posterior probabilities ≥ 0.95 (BYPP) are shown, respectively, near the nodes. The ex-type strains are marked with an asterisk. The tree is rooted in F. concolor (NRRL 13994).	2025-05-09	Fallahi, Maryam;Armand, Alireza;Al-Otibi, Fatimah;Hyde, Kevin D.;Jayawardena, Ruvishika S.		Zenodo	biologists	Fallahi, Maryam;Armand, Alireza;Al-Otibi, Fatimah;Hyde, Kevin D.;Jayawardena, Ruvishika S.			
185522EE940B57A8A014E27D98ABBCD8.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/1325300	https://doi.org/10.3897/mycokeys.117.137112.figure29	Figure 29. Neopestalotiopsis formicidarum (MFLUCC 24-0254) a fruit lesion on rambutan b dry leaf spot on lemon drop mangosteen (Garcinia intermedia) c front, and d back views of the colony on PDA after 60 days at 25 ° C e conidiomata f – h conidiogenous cells i – k conidia. Scale bars: 10 μm (f – h); 20 μm (I – k).	Figure 29. Neopestalotiopsis formicidarum (MFLUCC 24-0254) a fruit lesion on rambutan b dry leaf spot on lemon drop mangosteen (Garcinia intermedia) c front, and d back views of the colony on PDA after 60 days at 25 ° C e conidiomata f – h conidiogenous cells i – k conidia. Scale bars: 10 μm (f – h); 20 μm (I – k).	2025-05-09	Fallahi, Maryam;Armand, Alireza;Al-Otibi, Fatimah;Hyde, Kevin D.;Jayawardena, Ruvishika S.		Zenodo	biologists	Fallahi, Maryam;Armand, Alireza;Al-Otibi, Fatimah;Hyde, Kevin D.;Jayawardena, Ruvishika S.			
185522EE940B57A8A014E27D98ABBCD8.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/1325299	https://doi.org/10.3897/mycokeys.117.137112.figure28	Figure 28. Phylogenetic tree of the Neopestalotiopsis ssp. generated by Bayes analysis of combined ITS, tef 1, and tub 2 sequence data. The ultrafast maximum likelihood (ML) bootstrap support values ≥ 50 % (BT) and Bayesian posterior probabilities ≥ 0.95 (BYPP) are shown, respectively, near the nodes. The ex-type strains are marked with an asterisk. The tree is rooted in Pestalotiopsis spathulate (CBS 356 86) and Pestalotiopsis diversiseta (MFLUCC 12 0287).	Figure 28. Phylogenetic tree of the Neopestalotiopsis ssp. generated by Bayes analysis of combined ITS, tef 1, and tub 2 sequence data. The ultrafast maximum likelihood (ML) bootstrap support values ≥ 50 % (BT) and Bayesian posterior probabilities ≥ 0.95 (BYPP) are shown, respectively, near the nodes. The ex-type strains are marked with an asterisk. The tree is rooted in Pestalotiopsis spathulate (CBS 356 86) and Pestalotiopsis diversiseta (MFLUCC 12 0287).	2025-05-09	Fallahi, Maryam;Armand, Alireza;Al-Otibi, Fatimah;Hyde, Kevin D.;Jayawardena, Ruvishika S.		Zenodo	biologists	Fallahi, Maryam;Armand, Alireza;Al-Otibi, Fatimah;Hyde, Kevin D.;Jayawardena, Ruvishika S.			
249134F358695EF5AE6E3EBDE1D68496.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/1325302	https://doi.org/10.3897/mycokeys.117.137112.figure31	Figure 31. Neopestalotiopsis theobromicola (MFLUCC 24-0253, holotype) a leaf spots in cacao b front, and c back views of the colony on PDA after 30 days at 25 ° C d conidiomata on SNA e – i conidiophore and conidiogenous cells j – n conidia. Scale bars: 20 μm.	Figure 31. Neopestalotiopsis theobromicola (MFLUCC 24-0253, holotype) a leaf spots in cacao b front, and c back views of the colony on PDA after 30 days at 25 ° C d conidiomata on SNA e – i conidiophore and conidiogenous cells j – n conidia. Scale bars: 20 μm.	2025-05-09	Fallahi, Maryam;Armand, Alireza;Al-Otibi, Fatimah;Hyde, Kevin D.;Jayawardena, Ruvishika S.		Zenodo	biologists	Fallahi, Maryam;Armand, Alireza;Al-Otibi, Fatimah;Hyde, Kevin D.;Jayawardena, Ruvishika S.			
249134F358695EF5AE6E3EBDE1D68496.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/1325299	https://doi.org/10.3897/mycokeys.117.137112.figure28	Figure 28. Phylogenetic tree of the Neopestalotiopsis ssp. generated by Bayes analysis of combined ITS, tef 1, and tub 2 sequence data. The ultrafast maximum likelihood (ML) bootstrap support values ≥ 50 % (BT) and Bayesian posterior probabilities ≥ 0.95 (BYPP) are shown, respectively, near the nodes. The ex-type strains are marked with an asterisk. The tree is rooted in Pestalotiopsis spathulate (CBS 356 86) and Pestalotiopsis diversiseta (MFLUCC 12 0287).	Figure 28. Phylogenetic tree of the Neopestalotiopsis ssp. generated by Bayes analysis of combined ITS, tef 1, and tub 2 sequence data. The ultrafast maximum likelihood (ML) bootstrap support values ≥ 50 % (BT) and Bayesian posterior probabilities ≥ 0.95 (BYPP) are shown, respectively, near the nodes. The ex-type strains are marked with an asterisk. The tree is rooted in Pestalotiopsis spathulate (CBS 356 86) and Pestalotiopsis diversiseta (MFLUCC 12 0287).	2025-05-09	Fallahi, Maryam;Armand, Alireza;Al-Otibi, Fatimah;Hyde, Kevin D.;Jayawardena, Ruvishika S.		Zenodo	biologists	Fallahi, Maryam;Armand, Alireza;Al-Otibi, Fatimah;Hyde, Kevin D.;Jayawardena, Ruvishika S.			
19589A0D25845EB7BFF35705A2AF9CB4.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/1325303	https://doi.org/10.3897/mycokeys.117.137112.figure32	Figure 32. Neopestalotiopsis sp. 1 (MFLUCC 24-0232) a leaf spots in sapodilla sapote b front, and c back views of the colony on PDA after 7 days d front and e back view of the colony on PDA after 60 days at 25 ° C f conidiomata g – i conidiophore and conidiogenous cells j – l conidia. Scale bars: 20 μm.	Figure 32. Neopestalotiopsis sp. 1 (MFLUCC 24-0232) a leaf spots in sapodilla sapote b front, and c back views of the colony on PDA after 7 days d front and e back view of the colony on PDA after 60 days at 25 ° C f conidiomata g – i conidiophore and conidiogenous cells j – l conidia. Scale bars: 20 μm.	2025-05-09	Fallahi, Maryam;Armand, Alireza;Al-Otibi, Fatimah;Hyde, Kevin D.;Jayawardena, Ruvishika S.		Zenodo	biologists	Fallahi, Maryam;Armand, Alireza;Al-Otibi, Fatimah;Hyde, Kevin D.;Jayawardena, Ruvishika S.			
19589A0D25845EB7BFF35705A2AF9CB4.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/1325299	https://doi.org/10.3897/mycokeys.117.137112.figure28	Figure 28. Phylogenetic tree of the Neopestalotiopsis ssp. generated by Bayes analysis of combined ITS, tef 1, and tub 2 sequence data. The ultrafast maximum likelihood (ML) bootstrap support values ≥ 50 % (BT) and Bayesian posterior probabilities ≥ 0.95 (BYPP) are shown, respectively, near the nodes. The ex-type strains are marked with an asterisk. The tree is rooted in Pestalotiopsis spathulate (CBS 356 86) and Pestalotiopsis diversiseta (MFLUCC 12 0287).	Figure 28. Phylogenetic tree of the Neopestalotiopsis ssp. generated by Bayes analysis of combined ITS, tef 1, and tub 2 sequence data. The ultrafast maximum likelihood (ML) bootstrap support values ≥ 50 % (BT) and Bayesian posterior probabilities ≥ 0.95 (BYPP) are shown, respectively, near the nodes. The ex-type strains are marked with an asterisk. The tree is rooted in Pestalotiopsis spathulate (CBS 356 86) and Pestalotiopsis diversiseta (MFLUCC 12 0287).	2025-05-09	Fallahi, Maryam;Armand, Alireza;Al-Otibi, Fatimah;Hyde, Kevin D.;Jayawardena, Ruvishika S.		Zenodo	biologists	Fallahi, Maryam;Armand, Alireza;Al-Otibi, Fatimah;Hyde, Kevin D.;Jayawardena, Ruvishika S.			
91BAA47F8C715C19BC2A58DFACAC7106.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/1325304	https://doi.org/10.3897/mycokeys.117.137112.figure33	Figure 33. Neopestalotiopsis sp. 2 (MFLUCC 24-0255) a fruit rot on mangosteen b front, and c back views of the colony on PDA after 7 days d front and e back view of the colony on PDA after 60 days at 25 ° C f conidiomata g – i conidiophore and conidiogenous cells j – n conidia. Scale bars: 10 μm.	Figure 33. Neopestalotiopsis sp. 2 (MFLUCC 24-0255) a fruit rot on mangosteen b front, and c back views of the colony on PDA after 7 days d front and e back view of the colony on PDA after 60 days at 25 ° C f conidiomata g – i conidiophore and conidiogenous cells j – n conidia. Scale bars: 10 μm.	2025-05-09	Fallahi, Maryam;Armand, Alireza;Al-Otibi, Fatimah;Hyde, Kevin D.;Jayawardena, Ruvishika S.		Zenodo	biologists	Fallahi, Maryam;Armand, Alireza;Al-Otibi, Fatimah;Hyde, Kevin D.;Jayawardena, Ruvishika S.			
91BAA47F8C715C19BC2A58DFACAC7106.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/1325299	https://doi.org/10.3897/mycokeys.117.137112.figure28	Figure 28. Phylogenetic tree of the Neopestalotiopsis ssp. generated by Bayes analysis of combined ITS, tef 1, and tub 2 sequence data. The ultrafast maximum likelihood (ML) bootstrap support values ≥ 50 % (BT) and Bayesian posterior probabilities ≥ 0.95 (BYPP) are shown, respectively, near the nodes. The ex-type strains are marked with an asterisk. The tree is rooted in Pestalotiopsis spathulate (CBS 356 86) and Pestalotiopsis diversiseta (MFLUCC 12 0287).	Figure 28. Phylogenetic tree of the Neopestalotiopsis ssp. generated by Bayes analysis of combined ITS, tef 1, and tub 2 sequence data. The ultrafast maximum likelihood (ML) bootstrap support values ≥ 50 % (BT) and Bayesian posterior probabilities ≥ 0.95 (BYPP) are shown, respectively, near the nodes. The ex-type strains are marked with an asterisk. The tree is rooted in Pestalotiopsis spathulate (CBS 356 86) and Pestalotiopsis diversiseta (MFLUCC 12 0287).	2025-05-09	Fallahi, Maryam;Armand, Alireza;Al-Otibi, Fatimah;Hyde, Kevin D.;Jayawardena, Ruvishika S.		Zenodo	biologists	Fallahi, Maryam;Armand, Alireza;Al-Otibi, Fatimah;Hyde, Kevin D.;Jayawardena, Ruvishika S.			
8CDC850574D4597CAA2097DE4DBEBCEF.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/1325305	https://doi.org/10.3897/mycokeys.117.137112.figure34	Figure 34. Neopestalotiopsis sp. 3 (MFLUCC 24-0251) a leaf spots in guava b front and c back views of the colony on PDA after 7 days d front and e back view of the colony on PDA after 60 days at 25 ° C f conidiomata g – i conidiophore and conidiogenous cells j – l conidia. Scale bars: 20 μm	Figure 34. Neopestalotiopsis sp. 3 (MFLUCC 24-0251) a leaf spots in guava b front and c back views of the colony on PDA after 7 days d front and e back view of the colony on PDA after 60 days at 25 ° C f conidiomata g – i conidiophore and conidiogenous cells j – l conidia. Scale bars: 20 μm	2025-05-09	Fallahi, Maryam;Armand, Alireza;Al-Otibi, Fatimah;Hyde, Kevin D.;Jayawardena, Ruvishika S.		Zenodo	biologists	Fallahi, Maryam;Armand, Alireza;Al-Otibi, Fatimah;Hyde, Kevin D.;Jayawardena, Ruvishika S.			
8CDC850574D4597CAA2097DE4DBEBCEF.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/1325299	https://doi.org/10.3897/mycokeys.117.137112.figure28	Figure 28. Phylogenetic tree of the Neopestalotiopsis ssp. generated by Bayes analysis of combined ITS, tef 1, and tub 2 sequence data. The ultrafast maximum likelihood (ML) bootstrap support values ≥ 50 % (BT) and Bayesian posterior probabilities ≥ 0.95 (BYPP) are shown, respectively, near the nodes. The ex-type strains are marked with an asterisk. The tree is rooted in Pestalotiopsis spathulate (CBS 356 86) and Pestalotiopsis diversiseta (MFLUCC 12 0287).	Figure 28. Phylogenetic tree of the Neopestalotiopsis ssp. generated by Bayes analysis of combined ITS, tef 1, and tub 2 sequence data. The ultrafast maximum likelihood (ML) bootstrap support values ≥ 50 % (BT) and Bayesian posterior probabilities ≥ 0.95 (BYPP) are shown, respectively, near the nodes. The ex-type strains are marked with an asterisk. The tree is rooted in Pestalotiopsis spathulate (CBS 356 86) and Pestalotiopsis diversiseta (MFLUCC 12 0287).	2025-05-09	Fallahi, Maryam;Armand, Alireza;Al-Otibi, Fatimah;Hyde, Kevin D.;Jayawardena, Ruvishika S.		Zenodo	biologists	Fallahi, Maryam;Armand, Alireza;Al-Otibi, Fatimah;Hyde, Kevin D.;Jayawardena, Ruvishika S.			
8CDC850574D4597CAA2097DE4DBEBCEF.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/1325306	https://doi.org/10.3897/mycokeys.117.137112.figure35	Figure 35. Pathogenicity tests of five strains of Colletotrichum spp. on various hosts a – e pathogenicity tests of C. makassarense (MFLUCC 24-0237) on leaves and fruits of tamarind a controls (leaves) were assayed after three days b inoculated leaves after three days c controls (fruits) were assayed after two weeks d, e inoculated fruits after two weeks f – i pathogenicity tests of C. abelmoschi (MFLUCC 24-0239) on okra f, g controls were assayed after two weeks h, i inoculated fruits after two weeks j – o pathogenicity tests of C. fructicola (MFLUCC 24-0240) on leaves of jackfruit j – l controls were assayed after one week m – o inoculated leaves after one week p – u pathogenicity tests of C. siamense (MFLUCC 24-0235) on leaves of black pepper p – r controls were assayed after one week s – u inoculated leaves after one week v – y pathogenicity tests of C. plurivorum (MFLUCC 24-0238) on fruits of persimmon v, w controls were assayed after five days x, y inoculated fruits after five days.	Figure 35. Pathogenicity tests of five strains of Colletotrichum spp. on various hosts a – e pathogenicity tests of C. makassarense (MFLUCC 24-0237) on leaves and fruits of tamarind a controls (leaves) were assayed after three days b inoculated leaves after three days c controls (fruits) were assayed after two weeks d, e inoculated fruits after two weeks f – i pathogenicity tests of C. abelmoschi (MFLUCC 24-0239) on okra f, g controls were assayed after two weeks h, i inoculated fruits after two weeks j – o pathogenicity tests of C. fructicola (MFLUCC 24-0240) on leaves of jackfruit j – l controls were assayed after one week m – o inoculated leaves after one week p – u pathogenicity tests of C. siamense (MFLUCC 24-0235) on leaves of black pepper p – r controls were assayed after one week s – u inoculated leaves after one week v – y pathogenicity tests of C. plurivorum (MFLUCC 24-0238) on fruits of persimmon v, w controls were assayed after five days x, y inoculated fruits after five days.	2025-05-09	Fallahi, Maryam;Armand, Alireza;Al-Otibi, Fatimah;Hyde, Kevin D.;Jayawardena, Ruvishika S.		Zenodo	biologists	Fallahi, Maryam;Armand, Alireza;Al-Otibi, Fatimah;Hyde, Kevin D.;Jayawardena, Ruvishika S.			
8CDC850574D4597CAA2097DE4DBEBCEF.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/1325307	https://doi.org/10.3897/mycokeys.117.137112.figure36	Figure 36. Pathogenicity tests of six strains of Diaporthe spp. on various hosts a – d pathogenicity tests of D. sennicola (MFLUCC 24-0241) on okra a, b controls were assayed after two weeks c, d inoculated fruits after two weeks e – h pathogenicity tests of D. fistulosi (MFLUCC 24-0244) on spring onion e, f controls were assayed after one week g, h inoculated spring onions after one week i – o pathogenicity tests of D. hongkongensis (MFLUCC 24-0246) and D. siamensis (MFLUCC 24-0245) on rambutan i – k controls were assayed after one week l – o inoculated fruits by strain MFLUCC 24-0246 after one week. n, o inoculated fruits by strain MFLUCC 24-0245 after one week p – v pathogenicity tests of D. rosae (MFLUCC 24-0243) and D. melongenicola (MFLUCC 24-0242) on fruits of makhuea p – r controls were assayed after two weeks s, t inoculated fruits by strain MFLUCC 24-0243 after two weeks u, v inoculated fruits by strain MFLUCC 24-0242 after two weeks.	Figure 36. Pathogenicity tests of six strains of Diaporthe spp. on various hosts a – d pathogenicity tests of D. sennicola (MFLUCC 24-0241) on okra a, b controls were assayed after two weeks c, d inoculated fruits after two weeks e – h pathogenicity tests of D. fistulosi (MFLUCC 24-0244) on spring onion e, f controls were assayed after one week g, h inoculated spring onions after one week i – o pathogenicity tests of D. hongkongensis (MFLUCC 24-0246) and D. siamensis (MFLUCC 24-0245) on rambutan i – k controls were assayed after one week l – o inoculated fruits by strain MFLUCC 24-0246 after one week. n, o inoculated fruits by strain MFLUCC 24-0245 after one week p – v pathogenicity tests of D. rosae (MFLUCC 24-0243) and D. melongenicola (MFLUCC 24-0242) on fruits of makhuea p – r controls were assayed after two weeks s, t inoculated fruits by strain MFLUCC 24-0243 after two weeks u, v inoculated fruits by strain MFLUCC 24-0242 after two weeks.	2025-05-09	Fallahi, Maryam;Armand, Alireza;Al-Otibi, Fatimah;Hyde, Kevin D.;Jayawardena, Ruvishika S.		Zenodo	biologists	Fallahi, Maryam;Armand, Alireza;Al-Otibi, Fatimah;Hyde, Kevin D.;Jayawardena, Ruvishika S.			
8CDC850574D4597CAA2097DE4DBEBCEF.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/1325308	https://doi.org/10.3897/mycokeys.117.137112.figure37	Figure 37. Pathogenicity tests of five strains of Fusarium spp. on various hosts. a – d Pathogenicity tests of F. sulawesiense (MFLUCC 24-0250) on mangosteen a, b controls were assayed after two weeks c, d inoculated fruits after two weeks e – h pathogenicity tests of F. tanahbumbuense (MFLUCC 24-0231) on leaves of durian e, f controls were assayed after five days g, h inoculated leaves after five days i, j pathogenicity tests of F. tanahbumbuense (MFLUCC 24-0231) on fruits of pepper i controls were assayed after one week j inoculated peppers after one week k – n pathogenicity tests of F. bubalinum (MFLUCC 24-0230) on the stem of dragon fruit k, l controls were assayed after two weeks m, n inoculated stems after two weeks o – r pathogenicity tests of F. nirenbergiae (MFLUCC 24-0248) on spring onion stem o, p controls were assayed after one week q, r inoculated spring onion after one week.	Figure 37. Pathogenicity tests of five strains of Fusarium spp. on various hosts. a – d Pathogenicity tests of F. sulawesiense (MFLUCC 24-0250) on mangosteen a, b controls were assayed after two weeks c, d inoculated fruits after two weeks e – h pathogenicity tests of F. tanahbumbuense (MFLUCC 24-0231) on leaves of durian e, f controls were assayed after five days g, h inoculated leaves after five days i, j pathogenicity tests of F. tanahbumbuense (MFLUCC 24-0231) on fruits of pepper i controls were assayed after one week j inoculated peppers after one week k – n pathogenicity tests of F. bubalinum (MFLUCC 24-0230) on the stem of dragon fruit k, l controls were assayed after two weeks m, n inoculated stems after two weeks o – r pathogenicity tests of F. nirenbergiae (MFLUCC 24-0248) on spring onion stem o, p controls were assayed after one week q, r inoculated spring onion after one week.	2025-05-09	Fallahi, Maryam;Armand, Alireza;Al-Otibi, Fatimah;Hyde, Kevin D.;Jayawardena, Ruvishika S.		Zenodo	biologists	Fallahi, Maryam;Armand, Alireza;Al-Otibi, Fatimah;Hyde, Kevin D.;Jayawardena, Ruvishika S.			
8CDC850574D4597CAA2097DE4DBEBCEF.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/1325309	https://doi.org/10.3897/mycokeys.117.137112.figure38	Figure 38. Pathogenicity tests of five strains of Neopestalotiopsis spp. on various hosts a – c pathogenicity tests of N. formicidarum (MFLUCC 24-0254) on rambutan a controls were assayed after one week b, c inoculated fruits after one week d – f pathogenicity tests of Neopestalotiopsis sp. 2 (MFLUCC 24-0255) on mangosteen d controls were assayed after two weeks e, f inoculated fruits after two weeks g – l pathogenicity tests of Neopestalotiopsis sp. 3 (MFLUCC 24-0251) on leaves of guava g – I controls were assayed after five days j – l inoculated leaves after five days m – p pathogenicity tests of N. zakeelii (MFLUCC 24-0252) on persimmon m, n controls were assayed after five days o, p inoculated fruits after five days q – v pathogenicity tests of Neopestalotiopsis sp. 1 (MFLUCC 24-0232) on leaves of sapodilla sapote q – s controls were assayed after five days t – v inoculated leaves after five days.	Figure 38. Pathogenicity tests of five strains of Neopestalotiopsis spp. on various hosts a – c pathogenicity tests of N. formicidarum (MFLUCC 24-0254) on rambutan a controls were assayed after one week b, c inoculated fruits after one week d – f pathogenicity tests of Neopestalotiopsis sp. 2 (MFLUCC 24-0255) on mangosteen d controls were assayed after two weeks e, f inoculated fruits after two weeks g – l pathogenicity tests of Neopestalotiopsis sp. 3 (MFLUCC 24-0251) on leaves of guava g – I controls were assayed after five days j – l inoculated leaves after five days m – p pathogenicity tests of N. zakeelii (MFLUCC 24-0252) on persimmon m, n controls were assayed after five days o, p inoculated fruits after five days q – v pathogenicity tests of Neopestalotiopsis sp. 1 (MFLUCC 24-0232) on leaves of sapodilla sapote q – s controls were assayed after five days t – v inoculated leaves after five days.	2025-05-09	Fallahi, Maryam;Armand, Alireza;Al-Otibi, Fatimah;Hyde, Kevin D.;Jayawardena, Ruvishika S.		Zenodo	biologists	Fallahi, Maryam;Armand, Alireza;Al-Otibi, Fatimah;Hyde, Kevin D.;Jayawardena, Ruvishika S.			
6917E7ACCE375599812529EA9EB04784.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/1325301	https://doi.org/10.3897/mycokeys.117.137112.figure30	Figure 30. Neopestalotiopsis zakeelii (MFLUCC 24-0252) a leaf spot on persimmon b front, and c back views of the culture on PDA after 60 days at 25 ° C d conidiomata e – g conidiophore, and conidiogenous cells h – k conidia. Scale bars: 20 μm.	Figure 30. Neopestalotiopsis zakeelii (MFLUCC 24-0252) a leaf spot on persimmon b front, and c back views of the culture on PDA after 60 days at 25 ° C d conidiomata e – g conidiophore, and conidiogenous cells h – k conidia. Scale bars: 20 μm.	2025-05-09	Fallahi, Maryam;Armand, Alireza;Al-Otibi, Fatimah;Hyde, Kevin D.;Jayawardena, Ruvishika S.		Zenodo	biologists	Fallahi, Maryam;Armand, Alireza;Al-Otibi, Fatimah;Hyde, Kevin D.;Jayawardena, Ruvishika S.			
6917E7ACCE375599812529EA9EB04784.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/1325299	https://doi.org/10.3897/mycokeys.117.137112.figure28	Figure 28. Phylogenetic tree of the Neopestalotiopsis ssp. generated by Bayes analysis of combined ITS, tef 1, and tub 2 sequence data. The ultrafast maximum likelihood (ML) bootstrap support values ≥ 50 % (BT) and Bayesian posterior probabilities ≥ 0.95 (BYPP) are shown, respectively, near the nodes. The ex-type strains are marked with an asterisk. The tree is rooted in Pestalotiopsis spathulate (CBS 356 86) and Pestalotiopsis diversiseta (MFLUCC 12 0287).	Figure 28. Phylogenetic tree of the Neopestalotiopsis ssp. generated by Bayes analysis of combined ITS, tef 1, and tub 2 sequence data. The ultrafast maximum likelihood (ML) bootstrap support values ≥ 50 % (BT) and Bayesian posterior probabilities ≥ 0.95 (BYPP) are shown, respectively, near the nodes. The ex-type strains are marked with an asterisk. The tree is rooted in Pestalotiopsis spathulate (CBS 356 86) and Pestalotiopsis diversiseta (MFLUCC 12 0287).	2025-05-09	Fallahi, Maryam;Armand, Alireza;Al-Otibi, Fatimah;Hyde, Kevin D.;Jayawardena, Ruvishika S.		Zenodo	biologists	Fallahi, Maryam;Armand, Alireza;Al-Otibi, Fatimah;Hyde, Kevin D.;Jayawardena, Ruvishika S.			
