taxonID	type	format	identifier	references	title	description	created	creator	contributor	publisher	audience	source	license	rightsHolder	datasetID
903087B8B42AB202FF4942708526FBDB.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/10151177/files/figure.png	https://doi.org/10.5281/zenodo.10151177	FIGURE 1. Location from where the holotype specimen was collected (Konaje); B–E—Xylaria sridharii developed on the lamina of Coconut leaflet; F—cross-section of stromata (basal bulbous region showing the arrangement of perithecia); G–I—Pure culture of X. sridharii (NFCCI 5117) on PDA medium (12 days old; G & H front view; I reverse view).	FIGURE 1. Location from where the holotype specimen was collected (Konaje); B–E—Xylaria sridharii developed on the lamina of Coconut leaflet; F—cross-section of stromata (basal bulbous region showing the arrangement of perithecia); G–I—Pure culture of X. sridharii (NFCCI 5117) on PDA medium (12 days old; G & H front view; I reverse view).	2023-11-09	Sharathchandra, Kodandoor;Mahadevakumar, Shivannegowda;Nuthan, Bettadapura R.;Satish, Shreedharamurthy		Zenodo	biologists	Sharathchandra, Kodandoor;Mahadevakumar, Shivannegowda;Nuthan, Bettadapura R.;Satish, Shreedharamurthy			
903087B8B42AB202FF4942708526FBDB.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/10151179/files/figure.png	https://doi.org/10.5281/zenodo.10151179	FIGURE 2. A–B—Stromata with the branched structure without a hair-like appendage at the apical tip; C–D—cross-section of stromata showing the perithecia with ascocarp and ascospores; E—young immature ascocarp with ascospores; F & G—matured ascocarp with ascospores of Xylaria sridharii (Scale:A & B—100 µm; C–E—50 µm; F & G—20 µm).	FIGURE 2. A–B—Stromata with the branched structure without a hair-like appendage at the apical tip; C–D—cross-section of stromata showing the perithecia with ascocarp and ascospores; E—young immature ascocarp with ascospores; F & G—matured ascocarp with ascospores of Xylaria sridharii (Scale:A & B—100 µm; C–E—50 µm; F & G—20 µm).	2023-11-09	Sharathchandra, Kodandoor;Mahadevakumar, Shivannegowda;Nuthan, Bettadapura R.;Satish, Shreedharamurthy		Zenodo	biologists	Sharathchandra, Kodandoor;Mahadevakumar, Shivannegowda;Nuthan, Bettadapura R.;Satish, Shreedharamurthy			
903087B8B42AB202FF4942708526FBDB.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/10151181/files/figure.png	https://doi.org/10.5281/zenodo.10151181	FIGURE 3. ML tree with 1000 bootstrap values based on analysis of a combined dataset of ITS & TUB2 for the species of Xylaria constructed using the Tamura 3-parameter method in MEGAX. Bootstrap support values ≥ 50 % are at the nodes. Poronia pileiformis WSP 88113001 was used as an outgroup. The phylogenetic position of Xylaria sridharii is indicated in red font.	FIGURE 3. ML tree with 1000 bootstrap values based on analysis of a combined dataset of ITS & TUB2 for the species of Xylaria constructed using the Tamura 3-parameter method in MEGAX. Bootstrap support values ≥ 50 % are at the nodes. Poronia pileiformis WSP 88113001 was used as an outgroup. The phylogenetic position of Xylaria sridharii is indicated in red font.	2023-11-09	Sharathchandra, Kodandoor;Mahadevakumar, Shivannegowda;Nuthan, Bettadapura R.;Satish, Shreedharamurthy		Zenodo	biologists	Sharathchandra, Kodandoor;Mahadevakumar, Shivannegowda;Nuthan, Bettadapura R.;Satish, Shreedharamurthy			
