taxonID	type	format	identifier	references	title	description	created	creator	contributor	publisher	audience	source	license	rightsHolder	datasetID
A85ACE28FF8C540D06F781E0FB909141.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/14522626/files/figure.png	https://doi.org/10.5281/zenodo.14522626	FIGURE 2. Nigropunctata chiangraiensis (MFLU 23-0383, holotype) a Substrate. b Appearance of ascomata on the host surface. c Section through an ascoma. d, e Vertical sections through ascomata. f Peridium. g Paraphyses. h–j Immature and mature asci. k J+ Apical ring turning blue in Melzer’s reagent. l–n Immature and mature ascospores surrounded by a mucilaginous sheath. o Ascospore with a germ slit. p Germinated ascospore. q, r Front and reverse colony on MEA. Scale bars: b, c = 200 μm, d, e = 50 μm, f, g = 5 μm, h–j = 20 μm, k = 5 μm, l–p = 50 μm.	FIGURE 2. Nigropunctata chiangraiensis (MFLU 23-0383, holotype) a Substrate. b Appearance of ascomata on the host surface. c Section through an ascoma. d, e Vertical sections through ascomata. f Peridium. g Paraphyses. h–j Immature and mature asci. k J+ Apical ring turning blue in Melzer’s reagent. l–n Immature and mature ascospores surrounded by a mucilaginous sheath. o Ascospore with a germ slit. p Germinated ascospore. q, r Front and reverse colony on MEA. Scale bars: b, c = 200 μm, d, e = 50 μm, f, g = 5 μm, h–j = 20 μm, k = 5 μm, l–p = 50 μm.	2024-12-10	Tun, Zaw Lin;Gomdola, Deecksha;Maharachchikumbura, Chitrabhanu S. Bhunjun Sajeewa S. N.;Alotibi, Fatimah;Hyde, Kevin D.		Zenodo	biologists	Tun, Zaw Lin;Gomdola, Deecksha;Maharachchikumbura, Chitrabhanu S. Bhunjun Sajeewa S. N.;Alotibi, Fatimah;Hyde, Kevin D.			
A85ACE28FF8C540D06F781E0FB909141.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/14522628/files/figure.png	https://doi.org/10.5281/zenodo.14522628	FIGURE 3. Nigropunctata khalidii (MFLU 23-0382) a Substrate. b Appearance of ascomata on the host surface. c, d Vertical sections through ascomata. e Peridium. f Paraphyses. g J+ Apical ring turning blue in Melzer’s reagent. h, i Immature and mature asci. j–m Immature and mature ascospores. n Ascospore with a germ slit. o Germinated ascospore. p, q Front and reverse colony on MEA. Scale bars: b, c = 200 μm, d, e = 50 μm, f, g = 5 μm, h, i = 20 μm, j–o = 10 μm.	FIGURE 3. Nigropunctata khalidii (MFLU 23-0382) a Substrate. b Appearance of ascomata on the host surface. c, d Vertical sections through ascomata. e Peridium. f Paraphyses. g J+ Apical ring turning blue in Melzer’s reagent. h, i Immature and mature asci. j–m Immature and mature ascospores. n Ascospore with a germ slit. o Germinated ascospore. p, q Front and reverse colony on MEA. Scale bars: b, c = 200 μm, d, e = 50 μm, f, g = 5 μm, h, i = 20 μm, j–o = 10 μm.	2024-12-10	Tun, Zaw Lin;Gomdola, Deecksha;Maharachchikumbura, Chitrabhanu S. Bhunjun Sajeewa S. N.;Alotibi, Fatimah;Hyde, Kevin D.		Zenodo	biologists	Tun, Zaw Lin;Gomdola, Deecksha;Maharachchikumbura, Chitrabhanu S. Bhunjun Sajeewa S. N.;Alotibi, Fatimah;Hyde, Kevin D.			
A85ACE28FF8E540D06F78142FEFE9675.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/14522628/files/figure.png	https://doi.org/10.5281/zenodo.14522628	FIGURE 3. Nigropunctata khalidii (MFLU 23-0382) a Substrate. b Appearance of ascomata on the host surface. c, d Vertical sections through ascomata. e Peridium. f Paraphyses. g J+ Apical ring turning blue in Melzer’s reagent. h, i Immature and mature asci. j–m Immature and mature ascospores. n Ascospore with a germ slit. o Germinated ascospore. p, q Front and reverse colony on MEA. Scale bars: b, c = 200 μm, d, e = 50 μm, f, g = 5 μm, h, i = 20 μm, j–o = 10 μm.	FIGURE 3. Nigropunctata khalidii (MFLU 23-0382) a Substrate. b Appearance of ascomata on the host surface. c, d Vertical sections through ascomata. e Peridium. f Paraphyses. g J+ Apical ring turning blue in Melzer’s reagent. h, i Immature and mature asci. j–m Immature and mature ascospores. n Ascospore with a germ slit. o Germinated ascospore. p, q Front and reverse colony on MEA. Scale bars: b, c = 200 μm, d, e = 50 μm, f, g = 5 μm, h, i = 20 μm, j–o = 10 μm.	2024-12-10	Tun, Zaw Lin;Gomdola, Deecksha;Maharachchikumbura, Chitrabhanu S. Bhunjun Sajeewa S. N.;Alotibi, Fatimah;Hyde, Kevin D.		Zenodo	biologists	Tun, Zaw Lin;Gomdola, Deecksha;Maharachchikumbura, Chitrabhanu S. Bhunjun Sajeewa S. N.;Alotibi, Fatimah;Hyde, Kevin D.			
A85ACE28FF8E540D06F78142FEFE9675.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/14522624/files/figure.png	https://doi.org/10.5281/zenodo.14522624	FIGURE 1. Phylogramgenerated from IQ-analysisbasedon thecombined ITS,LSU,β-tub,rpb2and tef-1α sequences ofPallidoperidiaceae taxa, and a few representative taxa that belong to Gyrothricaceae. Selenodriella brasiliana (CBS 140236 and CBS 140227), S. cubensis (CBS 683.96), and S. fertilis (CBS 148328 and CPC 16273) were selected as outgroups. Bootstrap support values (ML ≥ 70%) and Bayesian posterior probabilities (PP ≥ 0.95) are given at respective nodes. A hyphen (-) represents support values below 70% (ML) and 0.95 (PP). Type strains are indicated with T, and our isolates are in red.	FIGURE 1. Phylogramgenerated from IQ-analysisbasedon thecombined ITS,LSU,β-tub,rpb2and tef-1α sequences ofPallidoperidiaceae taxa, and a few representative taxa that belong to Gyrothricaceae. Selenodriella brasiliana (CBS 140236 and CBS 140227), S. cubensis (CBS 683.96), and S. fertilis (CBS 148328 and CPC 16273) were selected as outgroups. Bootstrap support values (ML ≥ 70%) and Bayesian posterior probabilities (PP ≥ 0.95) are given at respective nodes. A hyphen (-) represents support values below 70% (ML) and 0.95 (PP). Type strains are indicated with T, and our isolates are in red.	2024-12-10	Tun, Zaw Lin;Gomdola, Deecksha;Maharachchikumbura, Chitrabhanu S. Bhunjun Sajeewa S. N.;Alotibi, Fatimah;Hyde, Kevin D.		Zenodo	biologists	Tun, Zaw Lin;Gomdola, Deecksha;Maharachchikumbura, Chitrabhanu S. Bhunjun Sajeewa S. N.;Alotibi, Fatimah;Hyde, Kevin D.			
