taxonID	type	format	identifier	references	title	description	created	creator	contributor	publisher	audience	source	license	rightsHolder	datasetID
0397879FFC342903FF6498A0FA9CF906.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/10216671/files/figure.png	https://doi.org/10.5281/zenodo.10216671	FIGURE 4. Phylogenetic tree of Neodeightonia generated from BA inference based on combined ITS and tef1 sequences. ML bootstrap support values (ML-BS ≥ 50 %) and Bayesian posterior probabilities (PP ≥ 0.85) are shown at the nodes. Strains with type status are indicated in bold font, the isolates from this study are presented in brown typeface and species are delimited with coloured blocks. The last accepted species names are noted after the strain number in quotation marks where species were synonymised in this study. The scale bar represents the expected number of nucleotide changes per site. The tree was rooted to Botryosphaeria corticis (CBS 119047) and B. dothidea (CBS 115476).	FIGURE 4. Phylogenetic tree of Neodeightonia generated from BA inference based on combined ITS and tef1 sequences. ML bootstrap support values (ML-BS ≥ 50 %) and Bayesian posterior probabilities (PP ≥ 0.85) are shown at the nodes. Strains with type status are indicated in bold font, the isolates from this study are presented in brown typeface and species are delimited with coloured blocks. The last accepted species names are noted after the strain number in quotation marks where species were synonymised in this study. The scale bar represents the expected number of nucleotide changes per site. The tree was rooted to Botryosphaeria corticis (CBS 119047) and B. dothidea (CBS 115476).	2023-11-29	Pereira, Diana S.;Phillips, Alan J. L.		Zenodo	biologists	Pereira, Diana S.;Phillips, Alan J. L.			
0397879FFC022935FF649885FD84F94F.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/10216681/files/figure.png	https://doi.org/10.5281/zenodo.10216681	FIGURE 8. Diplodia mutila (CDP 0088). A. Conidiomata formed on palm leaf piece. B, C. Conidiogenous layer. D–I. Conidiogenous cells. J. Hyaline, aseptate conidia. K. Hyaline, aseptate and pigmented, 1-septate conidia. Scale bars: A = 250 μm, B, C, J, K = 10 μm, D–I = 2.5 μm.	FIGURE 8. Diplodia mutila (CDP 0088). A. Conidiomata formed on palm leaf piece. B, C. Conidiogenous layer. D–I. Conidiogenous cells. J. Hyaline, aseptate conidia. K. Hyaline, aseptate and pigmented, 1-septate conidia. Scale bars: A = 250 μm, B, C, J, K = 10 μm, D–I = 2.5 μm.	2023-11-29	Pereira, Diana S.;Phillips, Alan J. L.		Zenodo	biologists	Pereira, Diana S.;Phillips, Alan J. L.			
0397879FFC022935FF649885FD84F94F.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/10216665/files/figure.png	https://doi.org/10.5281/zenodo.10216665	FIGURE 2. Phylogenetic tree of Diplodia generated from BA inference based on combined ITS and tef1 sequences. ML bootstrap support values (ML-BS ≥ 50 %) and Bayesian posterior probabilities (PP ≥ 0.85) are shown at the nodes. Strains with type status are indicated in bold font, the isolate from this study is presented in brown typeface and species are delimited with coloured blocks. The scale bar represents the expected number of nucleotide changes per site. The tree was rooted to Lasiodiplodia tropica (CGMCC 3.18477) and L. theobromae (CBS 164.96).	FIGURE 2. Phylogenetic tree of Diplodia generated from BA inference based on combined ITS and tef1 sequences. ML bootstrap support values (ML-BS ≥ 50 %) and Bayesian posterior probabilities (PP ≥ 0.85) are shown at the nodes. Strains with type status are indicated in bold font, the isolate from this study is presented in brown typeface and species are delimited with coloured blocks. The scale bar represents the expected number of nucleotide changes per site. The tree was rooted to Lasiodiplodia tropica (CGMCC 3.18477) and L. theobromae (CBS 164.96).	2023-11-29	Pereira, Diana S.;Phillips, Alan J. L.		Zenodo	biologists	Pereira, Diana S.;Phillips, Alan J. L.			
0397879FFC012930FF649FF5FD84FD73.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/10216685/files/figure.png	https://doi.org/10.5281/zenodo.10216685	FIGURE 9. Dothiorella viticola (CDP 1010). A–F. Conidiogenous layer (A,B and E,F represent different optical sections of the conidiogenous layer). G–I. Conidiogenous cells. J. Conidia. Scale bars:A–F, J = 5 μm, G–I = 2.5 μm.	FIGURE 9. Dothiorella viticola (CDP 1010). A–F. Conidiogenous layer (A,B and E,F represent different optical sections of the conidiogenous layer). G–I. Conidiogenous cells. J. Conidia. Scale bars:A–F, J = 5 μm, G–I = 2.5 μm.	2023-11-29	Pereira, Diana S.;Phillips, Alan J. L.		Zenodo	biologists	Pereira, Diana S.;Phillips, Alan J. L.			
0397879FFC012930FF649FF5FD84FD73.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/10216669/files/figure.png	https://doi.org/10.5281/zenodo.10216669	FIGURE 3. Phylogenetic tree of Dothiorella generated from BA inference based on combined ITS and tef1 sequences. ML bootstrap support values (ML-BS ≥ 50 %) and Bayesian posterior probabilities (PP ≥ 0.85) are shown at the nodes. Strains with type status are indicated in bold font, the isolates from this study are presented in brown typeface and species are delimited with coloured blocks. The scale bar represents the expected number of nucleotide changes per site. The tree was rooted to Neofusicoccum australe (CMW 6837) and N. luteum (CBS 562.92).	FIGURE 3. Phylogenetic tree of Dothiorella generated from BA inference based on combined ITS and tef1 sequences. ML bootstrap support values (ML-BS ≥ 50 %) and Bayesian posterior probabilities (PP ≥ 0.85) are shown at the nodes. Strains with type status are indicated in bold font, the isolates from this study are presented in brown typeface and species are delimited with coloured blocks. The scale bar represents the expected number of nucleotide changes per site. The tree was rooted to Neofusicoccum australe (CMW 6837) and N. luteum (CBS 562.92).	2023-11-29	Pereira, Diana S.;Phillips, Alan J. L.		Zenodo	biologists	Pereira, Diana S.;Phillips, Alan J. L.			
0397879FFC072933FF649E61FE7FFD17.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/10216687/files/figure.png	https://doi.org/10.5281/zenodo.10216687	FIGURE 10. Neodeightonia chamaeropicola (CDP 1446, ex-type). A–C. Conidiogenous layer. D–I. Conidiogenous cells. J. Hyaline, aseptate conidia. K, L. Pigmented, 1-septate conidium with longitudinal striations observed through optical sectioning. Scale bars:A = 10 μm, B–L = 5 μm.	FIGURE 10. Neodeightonia chamaeropicola (CDP 1446, ex-type). A–C. Conidiogenous layer. D–I. Conidiogenous cells. J. Hyaline, aseptate conidia. K, L. Pigmented, 1-septate conidium with longitudinal striations observed through optical sectioning. Scale bars:A = 10 μm, B–L = 5 μm.	2023-11-29	Pereira, Diana S.;Phillips, Alan J. L.		Zenodo	biologists	Pereira, Diana S.;Phillips, Alan J. L.			
0397879FFC072933FF649E61FE7FFD17.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/10216671/files/figure.png	https://doi.org/10.5281/zenodo.10216671	FIGURE 4. Phylogenetic tree of Neodeightonia generated from BA inference based on combined ITS and tef1 sequences. ML bootstrap support values (ML-BS ≥ 50 %) and Bayesian posterior probabilities (PP ≥ 0.85) are shown at the nodes. Strains with type status are indicated in bold font, the isolates from this study are presented in brown typeface and species are delimited with coloured blocks. The last accepted species names are noted after the strain number in quotation marks where species were synonymised in this study. The scale bar represents the expected number of nucleotide changes per site. The tree was rooted to Botryosphaeria corticis (CBS 119047) and B. dothidea (CBS 115476).	FIGURE 4. Phylogenetic tree of Neodeightonia generated from BA inference based on combined ITS and tef1 sequences. ML bootstrap support values (ML-BS ≥ 50 %) and Bayesian posterior probabilities (PP ≥ 0.85) are shown at the nodes. Strains with type status are indicated in bold font, the isolates from this study are presented in brown typeface and species are delimited with coloured blocks. The last accepted species names are noted after the strain number in quotation marks where species were synonymised in this study. The scale bar represents the expected number of nucleotide changes per site. The tree was rooted to Botryosphaeria corticis (CBS 119047) and B. dothidea (CBS 115476).	2023-11-29	Pereira, Diana S.;Phillips, Alan J. L.		Zenodo	biologists	Pereira, Diana S.;Phillips, Alan J. L.			
0397879FFC3B290DFF649E0DFBB5FA9F.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/10216671/files/figure.png	https://doi.org/10.5281/zenodo.10216671	FIGURE 4. Phylogenetic tree of Neodeightonia generated from BA inference based on combined ITS and tef1 sequences. ML bootstrap support values (ML-BS ≥ 50 %) and Bayesian posterior probabilities (PP ≥ 0.85) are shown at the nodes. Strains with type status are indicated in bold font, the isolates from this study are presented in brown typeface and species are delimited with coloured blocks. The last accepted species names are noted after the strain number in quotation marks where species were synonymised in this study. The scale bar represents the expected number of nucleotide changes per site. The tree was rooted to Botryosphaeria corticis (CBS 119047) and B. dothidea (CBS 115476).	FIGURE 4. Phylogenetic tree of Neodeightonia generated from BA inference based on combined ITS and tef1 sequences. ML bootstrap support values (ML-BS ≥ 50 %) and Bayesian posterior probabilities (PP ≥ 0.85) are shown at the nodes. Strains with type status are indicated in bold font, the isolates from this study are presented in brown typeface and species are delimited with coloured blocks. The last accepted species names are noted after the strain number in quotation marks where species were synonymised in this study. The scale bar represents the expected number of nucleotide changes per site. The tree was rooted to Botryosphaeria corticis (CBS 119047) and B. dothidea (CBS 115476).	2023-11-29	Pereira, Diana S.;Phillips, Alan J. L.		Zenodo	biologists	Pereira, Diana S.;Phillips, Alan J. L.			
0397879FFC05290DFF649FF5FEFAFD5F.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/10216691/files/figure.png	https://doi.org/10.5281/zenodo.10216691	FIGURE 11. Neodeightonia phoenicum (CDP 0281). A. Conidiomata formed on palm leaf piece. B. Conidiogenous layer. C–H. Conidiogenous cells. I. Hyaline, aseptate conidia. J, K. Pigmented, 1-septate conidium with longitudinal striations observed through optical sectioning. Scale bars:A = 1 mm, B, I = 10 μm, C–H, J, K = 5 μm.	FIGURE 11. Neodeightonia phoenicum (CDP 0281). A. Conidiomata formed on palm leaf piece. B. Conidiogenous layer. C–H. Conidiogenous cells. I. Hyaline, aseptate conidia. J, K. Pigmented, 1-septate conidium with longitudinal striations observed through optical sectioning. Scale bars:A = 1 mm, B, I = 10 μm, C–H, J, K = 5 μm.	2023-11-29	Pereira, Diana S.;Phillips, Alan J. L.		Zenodo	biologists	Pereira, Diana S.;Phillips, Alan J. L.			
0397879FFC05290DFF649FF5FEFAFD5F.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/10216671/files/figure.png	https://doi.org/10.5281/zenodo.10216671	FIGURE 4. Phylogenetic tree of Neodeightonia generated from BA inference based on combined ITS and tef1 sequences. ML bootstrap support values (ML-BS ≥ 50 %) and Bayesian posterior probabilities (PP ≥ 0.85) are shown at the nodes. Strains with type status are indicated in bold font, the isolates from this study are presented in brown typeface and species are delimited with coloured blocks. The last accepted species names are noted after the strain number in quotation marks where species were synonymised in this study. The scale bar represents the expected number of nucleotide changes per site. The tree was rooted to Botryosphaeria corticis (CBS 119047) and B. dothidea (CBS 115476).	FIGURE 4. Phylogenetic tree of Neodeightonia generated from BA inference based on combined ITS and tef1 sequences. ML bootstrap support values (ML-BS ≥ 50 %) and Bayesian posterior probabilities (PP ≥ 0.85) are shown at the nodes. Strains with type status are indicated in bold font, the isolates from this study are presented in brown typeface and species are delimited with coloured blocks. The last accepted species names are noted after the strain number in quotation marks where species were synonymised in this study. The scale bar represents the expected number of nucleotide changes per site. The tree was rooted to Botryosphaeria corticis (CBS 119047) and B. dothidea (CBS 115476).	2023-11-29	Pereira, Diana S.;Phillips, Alan J. L.		Zenodo	biologists	Pereira, Diana S.;Phillips, Alan J. L.			
0397879FFC392908FF649CB1FD5EFC77.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/10216673/files/figure.png	https://doi.org/10.5281/zenodo.10216673	FIGURE 5. Phylogenetic tree of Neofusicoccum generated from BA inference based on combined ITS, tef1 and tub2 sequences. ML bootstrap support values (ML-BS ≥ 50 %) and Bayesian posterior probabilities (PP ≥ 0.85) are shown at the nodes. Strains with type status are indicated in bold font, the isolates from this study are presented in brown typeface and species are delimited with coloured blocks. Species names in N. parvum species complex are noted before the strain number. The scale bar represents the expected number of nucleotide changes per site. The tree was rooted to Botryosphaeria corticis (CBS 119047) and B. dothidea (CBS 115476).	FIGURE 5. Phylogenetic tree of Neofusicoccum generated from BA inference based on combined ITS, tef1 and tub2 sequences. ML bootstrap support values (ML-BS ≥ 50 %) and Bayesian posterior probabilities (PP ≥ 0.85) are shown at the nodes. Strains with type status are indicated in bold font, the isolates from this study are presented in brown typeface and species are delimited with coloured blocks. Species names in N. parvum species complex are noted before the strain number. The scale bar represents the expected number of nucleotide changes per site. The tree was rooted to Botryosphaeria corticis (CBS 119047) and B. dothidea (CBS 115476).	2023-11-29	Pereira, Diana S.;Phillips, Alan J. L.		Zenodo	biologists	Pereira, Diana S.;Phillips, Alan J. L.			
0397879FFC3E2909FF649ED5FF56F843.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/10216693/files/figure.png	https://doi.org/10.5281/zenodo.10216693	FIGURE 12. Sexual morph of Neofusicoccum cryptoaustrale (CDP 1565). A, B. Asci intermingled with pseudoparaphyses. C. Pseudoparaphyses. D–F. Immature (D, E) and mature (F) asci. G, H. Details of ascus apex. I–N. Ascospores. Scale bars: A, B, D–F = 10 μm, C, G–N = 5 μm.	FIGURE 12. Sexual morph of Neofusicoccum cryptoaustrale (CDP 1565). A, B. Asci intermingled with pseudoparaphyses. C. Pseudoparaphyses. D–F. Immature (D, E) and mature (F) asci. G, H. Details of ascus apex. I–N. Ascospores. Scale bars: A, B, D–F = 10 μm, C, G–N = 5 μm.	2023-11-29	Pereira, Diana S.;Phillips, Alan J. L.		Zenodo	biologists	Pereira, Diana S.;Phillips, Alan J. L.			
0397879FFC3E2909FF649ED5FF56F843.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/10216697/files/figure.png	https://doi.org/10.5281/zenodo.10216697	FIGURE 13. Asexual morph of Neofusicoccum cryptoaustrale (CDP 1565). A–C. Conidiogenous layer. D–I. Conidiogenous cells. J, K. Conidia. Scale bars:A–C = 5 μm, D–I = 2.5 μm, J, K = 10 μm.	FIGURE 13. Asexual morph of Neofusicoccum cryptoaustrale (CDP 1565). A–C. Conidiogenous layer. D–I. Conidiogenous cells. J, K. Conidia. Scale bars:A–C = 5 μm, D–I = 2.5 μm, J, K = 10 μm.	2023-11-29	Pereira, Diana S.;Phillips, Alan J. L.		Zenodo	biologists	Pereira, Diana S.;Phillips, Alan J. L.			
0397879FFC3E2909FF649ED5FF56F843.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/10216673/files/figure.png	https://doi.org/10.5281/zenodo.10216673	FIGURE 5. Phylogenetic tree of Neofusicoccum generated from BA inference based on combined ITS, tef1 and tub2 sequences. ML bootstrap support values (ML-BS ≥ 50 %) and Bayesian posterior probabilities (PP ≥ 0.85) are shown at the nodes. Strains with type status are indicated in bold font, the isolates from this study are presented in brown typeface and species are delimited with coloured blocks. Species names in N. parvum species complex are noted before the strain number. The scale bar represents the expected number of nucleotide changes per site. The tree was rooted to Botryosphaeria corticis (CBS 119047) and B. dothidea (CBS 115476).	FIGURE 5. Phylogenetic tree of Neofusicoccum generated from BA inference based on combined ITS, tef1 and tub2 sequences. ML bootstrap support values (ML-BS ≥ 50 %) and Bayesian posterior probabilities (PP ≥ 0.85) are shown at the nodes. Strains with type status are indicated in bold font, the isolates from this study are presented in brown typeface and species are delimited with coloured blocks. Species names in N. parvum species complex are noted before the strain number. The scale bar represents the expected number of nucleotide changes per site. The tree was rooted to Botryosphaeria corticis (CBS 119047) and B. dothidea (CBS 115476).	2023-11-29	Pereira, Diana S.;Phillips, Alan J. L.		Zenodo	biologists	Pereira, Diana S.;Phillips, Alan J. L.			
0397879FFC322906FF649DB5FCF4FE13.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/10216703/files/figure.png	https://doi.org/10.5281/zenodo.10216703	FIGURE 14. Neofusicoccum luteum (CDP 0038). A. Conidiomata formed on palm leaf piece. B, C. Conidiogenous layer. D–G. Conidiogenous cells. H, I. Conidia. Scale bars: A = 200 μm, B,C = 5 μm, D–G = 2.5 μm, H, I = 10 μm.	FIGURE 14. Neofusicoccum luteum (CDP 0038). A. Conidiomata formed on palm leaf piece. B, C. Conidiogenous layer. D–G. Conidiogenous cells. H, I. Conidia. Scale bars: A = 200 μm, B,C = 5 μm, D–G = 2.5 μm, H, I = 10 μm.	2023-11-29	Pereira, Diana S.;Phillips, Alan J. L.		Zenodo	biologists	Pereira, Diana S.;Phillips, Alan J. L.			
0397879FFC322906FF649DB5FCF4FE13.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/10216673/files/figure.png	https://doi.org/10.5281/zenodo.10216673	FIGURE 5. Phylogenetic tree of Neofusicoccum generated from BA inference based on combined ITS, tef1 and tub2 sequences. ML bootstrap support values (ML-BS ≥ 50 %) and Bayesian posterior probabilities (PP ≥ 0.85) are shown at the nodes. Strains with type status are indicated in bold font, the isolates from this study are presented in brown typeface and species are delimited with coloured blocks. Species names in N. parvum species complex are noted before the strain number. The scale bar represents the expected number of nucleotide changes per site. The tree was rooted to Botryosphaeria corticis (CBS 119047) and B. dothidea (CBS 115476).	FIGURE 5. Phylogenetic tree of Neofusicoccum generated from BA inference based on combined ITS, tef1 and tub2 sequences. ML bootstrap support values (ML-BS ≥ 50 %) and Bayesian posterior probabilities (PP ≥ 0.85) are shown at the nodes. Strains with type status are indicated in bold font, the isolates from this study are presented in brown typeface and species are delimited with coloured blocks. Species names in N. parvum species complex are noted before the strain number. The scale bar represents the expected number of nucleotide changes per site. The tree was rooted to Botryosphaeria corticis (CBS 119047) and B. dothidea (CBS 115476).	2023-11-29	Pereira, Diana S.;Phillips, Alan J. L.		Zenodo	biologists	Pereira, Diana S.;Phillips, Alan J. L.			
0397879FFC302907FF649CC9FB2EF897.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/10216705/files/figure.png	https://doi.org/10.5281/zenodo.10216705	FIGURE 15. Neofusicoccum parvum (CDP 1380). A–B. Conidiogenous layer. C–F. Conidiogenous cells. G, H. Conidia. Scale bars: A, B = 5 μm, C–F = 2.5 μm, G, H = 10 μm.	FIGURE 15. Neofusicoccum parvum (CDP 1380). A–B. Conidiogenous layer. C–F. Conidiogenous cells. G, H. Conidia. Scale bars: A, B = 5 μm, C–F = 2.5 μm, G, H = 10 μm.	2023-11-29	Pereira, Diana S.;Phillips, Alan J. L.		Zenodo	biologists	Pereira, Diana S.;Phillips, Alan J. L.			
0397879FFC302907FF649CC9FB2EF897.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/10216673/files/figure.png	https://doi.org/10.5281/zenodo.10216673	FIGURE 5. Phylogenetic tree of Neofusicoccum generated from BA inference based on combined ITS, tef1 and tub2 sequences. ML bootstrap support values (ML-BS ≥ 50 %) and Bayesian posterior probabilities (PP ≥ 0.85) are shown at the nodes. Strains with type status are indicated in bold font, the isolates from this study are presented in brown typeface and species are delimited with coloured blocks. Species names in N. parvum species complex are noted before the strain number. The scale bar represents the expected number of nucleotide changes per site. The tree was rooted to Botryosphaeria corticis (CBS 119047) and B. dothidea (CBS 115476).	FIGURE 5. Phylogenetic tree of Neofusicoccum generated from BA inference based on combined ITS, tef1 and tub2 sequences. ML bootstrap support values (ML-BS ≥ 50 %) and Bayesian posterior probabilities (PP ≥ 0.85) are shown at the nodes. Strains with type status are indicated in bold font, the isolates from this study are presented in brown typeface and species are delimited with coloured blocks. Species names in N. parvum species complex are noted before the strain number. The scale bar represents the expected number of nucleotide changes per site. The tree was rooted to Botryosphaeria corticis (CBS 119047) and B. dothidea (CBS 115476).	2023-11-29	Pereira, Diana S.;Phillips, Alan J. L.		Zenodo	biologists	Pereira, Diana S.;Phillips, Alan J. L.			
0397879FFC362902FF649822FCA8FAFB.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/10216709/files/figure.png	https://doi.org/10.5281/zenodo.10216709	FIGURE 16. Sardiniella urbana (CDP 1658).A–E. Conidiogenous layer. F–K. Conidiogenous cells. L, M. Hyaline, aseptate conidia. N. Pigmented, 1-septate conidium. Scale bars:A, L–M = 10 μm, B–E = 5 μm, F–K = 2.5 μm.	FIGURE 16. Sardiniella urbana (CDP 1658).A–E. Conidiogenous layer. F–K. Conidiogenous cells. L, M. Hyaline, aseptate conidia. N. Pigmented, 1-septate conidium. Scale bars:A, L–M = 10 μm, B–E = 5 μm, F–K = 2.5 μm.	2023-11-29	Pereira, Diana S.;Phillips, Alan J. L.		Zenodo	biologists	Pereira, Diana S.;Phillips, Alan J. L.			
0397879FFC362902FF649822FCA8FAFB.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/10216677/files/figure.png	https://doi.org/10.5281/zenodo.10216677	FIGURE 6. Phylogenetic tree of Sardiniella generated from BA inference based on combined ITS and tef1 sequences. ML bootstrap support values (ML-BS ≥ 50 %) and Bayesian posterior probabilities (PP ≥ 0.85) are shown at the nodes. Strains with type status are indicated in bold font, the isolate from this study are presented in brown typeface and species are delimited with coloured blocks. The scale bar represents the expected number of nucleotide changes per site. The tree was rooted to Neofusicoccum parvum (ATCC 58191 and STE-U 5049).	FIGURE 6. Phylogenetic tree of Sardiniella generated from BA inference based on combined ITS and tef1 sequences. ML bootstrap support values (ML-BS ≥ 50 %) and Bayesian posterior probabilities (PP ≥ 0.85) are shown at the nodes. Strains with type status are indicated in bold font, the isolate from this study are presented in brown typeface and species are delimited with coloured blocks. The scale bar represents the expected number of nucleotide changes per site. The tree was rooted to Neofusicoccum parvum (ATCC 58191 and STE-U 5049).	2023-11-29	Pereira, Diana S.;Phillips, Alan J. L.		Zenodo	biologists	Pereira, Diana S.;Phillips, Alan J. L.			
