taxonID	type	format	identifier	references	title	description	created	creator	contributor	publisher	audience	source	license	rightsHolder	datasetID
C25D7BF4D6605B17B2D590A04CF0E69D.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/610347	https://doi.org/10.3897/mycokeys.84.70798.figure6	Figure 6. Lecanora parasymmicta morphology (BDNA-L- 0001235, paratype in A BDNA-L- 0001220, holotype in B-M) A-C habitus and apothecia, thalline margin of apothecia consistently absent from the beginning D blackish hypothallus (red arrows) E apothecia in vertical section F biatorine apothecia without thalline margin G-J clavate asci with eight spores K ascospores constantly simple but rarely 1 - septate L immersed pycnidia M thread-like, curved pycnoconidia. Scale bars: 1 mm (A-D); 200 μm (E); 50 μm (F); 10 μm (G-K); 100 μm (L); 10 μm (M).	Figure 6. Lecanora parasymmicta morphology (BDNA-L- 0001235, paratype in A BDNA-L- 0001220, holotype in B-M) A-C habitus and apothecia, thalline margin of apothecia consistently absent from the beginning D blackish hypothallus (red arrows) E apothecia in vertical section F biatorine apothecia without thalline margin G-J clavate asci with eight spores K ascospores constantly simple but rarely 1 - septate L immersed pycnidia M thread-like, curved pycnoconidia. Scale bars: 1 mm (A-D); 200 μm (E); 50 μm (F); 10 μm (G-K); 100 μm (L); 10 μm (M).	2021-11-12	Lee, Beeyoung Gun;Hur, Jae-Seoun		Zenodo	biologists	Lee, Beeyoung Gun;Hur, Jae-Seoun			
C25D7BF4D6605B17B2D590A04CF0E69D.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/610343	https://doi.org/10.3897/mycokeys.84.70798.figure2	Figure 2. Phylogenetic relationships amongst available species in the Lecanora symmicta group based on a Maximum Likelihood analysis of the dataset of ITS sequences. The tree was rooted with five sequences of the Lecanora subfusca group and Tephromela. Maximum Likelihood bootstrap values ≥ 70 % and posterior probabilities ≥ 95 % are shown above internal branches. Branches with bootstrap values ≥ 90 % are shown in bold. The new sequences of Lecanora parasymmicta and Lecanora symmicta produced from this study are presented in bold, and all species names are followed by the GenBank accession numbers. Reference Table 1 provides the species related to the specific GenBank accession numbers and voucher information.	Figure 2. Phylogenetic relationships amongst available species in the Lecanora symmicta group based on a Maximum Likelihood analysis of the dataset of ITS sequences. The tree was rooted with five sequences of the Lecanora subfusca group and Tephromela. Maximum Likelihood bootstrap values ≥ 70 % and posterior probabilities ≥ 95 % are shown above internal branches. Branches with bootstrap values ≥ 90 % are shown in bold. The new sequences of Lecanora parasymmicta and Lecanora symmicta produced from this study are presented in bold, and all species names are followed by the GenBank accession numbers. Reference Table 1 provides the species related to the specific GenBank accession numbers and voucher information.	2021-11-12	Lee, Beeyoung Gun;Hur, Jae-Seoun		Zenodo	biologists	Lee, Beeyoung Gun;Hur, Jae-Seoun			
C25D7BF4D6605B17B2D590A04CF0E69D.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/610344	https://doi.org/10.3897/mycokeys.84.70798.figure3	Figure 3. Phylogenetic relationships amongst available species in the Lecanora symmicta group based on a Maximum Likelihood analysis of the dataset of the mitochondrial small subunit (mtSSU) sequences. The tree was rooted with four sequences of the Lecanora subfusca group. Maximum Likelihood bootstrap values ≥ 70 % and posterior probabilities ≥ 95 % are shown above internal branches. Branches with bootstrap values ≥ 90 % are shown in bold. The new species Lecanora parasymmicta is presented in bold, and all species names are followed by the GenBank accession numbers. Reference Table 1 provides the species related to the specific GenBank accession numbers and voucher information.	Figure 3. Phylogenetic relationships amongst available species in the Lecanora symmicta group based on a Maximum Likelihood analysis of the dataset of the mitochondrial small subunit (mtSSU) sequences. The tree was rooted with four sequences of the Lecanora subfusca group. Maximum Likelihood bootstrap values ≥ 70 % and posterior probabilities ≥ 95 % are shown above internal branches. Branches with bootstrap values ≥ 90 % are shown in bold. The new species Lecanora parasymmicta is presented in bold, and all species names are followed by the GenBank accession numbers. Reference Table 1 provides the species related to the specific GenBank accession numbers and voucher information.	2021-11-12	Lee, Beeyoung Gun;Hur, Jae-Seoun		Zenodo	biologists	Lee, Beeyoung Gun;Hur, Jae-Seoun			
5EE7451BE6BE59378A82EAD240ADDC78.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/610348	https://doi.org/10.3897/mycokeys.84.70798.figure7	Figure 7. Protoparmeliopsis crystalliniformis morphology (BDNA-L- 0000349, holotype) A-C habitus and apothecia, areolate to squamulose thallus in white to whitish gray color D-E apothecia in vertical section F-G well-developed thalline margin H large crystals present in the thalline margin, not dissolving in KOH I clavate ascus J ascospores constantly simple and ellipsoid, often biguttulate in the beginning. Scale bars: 1 mm (A-C); 200 μm (D-E); 100 μm (F-G); 50 μm (H); 10 μm (I-J).	Figure 7. Protoparmeliopsis crystalliniformis morphology (BDNA-L- 0000349, holotype) A-C habitus and apothecia, areolate to squamulose thallus in white to whitish gray color D-E apothecia in vertical section F-G well-developed thalline margin H large crystals present in the thalline margin, not dissolving in KOH I clavate ascus J ascospores constantly simple and ellipsoid, often biguttulate in the beginning. Scale bars: 1 mm (A-C); 200 μm (D-E); 100 μm (F-G); 50 μm (H); 10 μm (I-J).	2021-11-12	Lee, Beeyoung Gun;Hur, Jae-Seoun		Zenodo	biologists	Lee, Beeyoung Gun;Hur, Jae-Seoun			
5EE7451BE6BE59378A82EAD240ADDC78.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/610345	https://doi.org/10.3897/mycokeys.84.70798.figure4	Figure 4. Phylogenetic relationships amongst available species in the genus Protoparmeliopsis based on a Maximum Likelihood analysis of the dataset of ITS sequences. The tree was rooted with five sequences of the genus Polyozosia. Maximum Likelihood bootstrap values ≥ 70 % and posterior probabilities ≥ 95 % are shown above internal branches. Branches with bootstrap values ≥ 90 % are shown in bold. The new species Protoparmeliopsis crystalliniformis is presented in bold, and all species names are followed by the GenBank accession numbers. Reference Table 1 provides the species related to the specific GenBank accession numbers and voucher information.	Figure 4. Phylogenetic relationships amongst available species in the genus Protoparmeliopsis based on a Maximum Likelihood analysis of the dataset of ITS sequences. The tree was rooted with five sequences of the genus Polyozosia. Maximum Likelihood bootstrap values ≥ 70 % and posterior probabilities ≥ 95 % are shown above internal branches. Branches with bootstrap values ≥ 90 % are shown in bold. The new species Protoparmeliopsis crystalliniformis is presented in bold, and all species names are followed by the GenBank accession numbers. Reference Table 1 provides the species related to the specific GenBank accession numbers and voucher information.	2021-11-12	Lee, Beeyoung Gun;Hur, Jae-Seoun		Zenodo	biologists	Lee, Beeyoung Gun;Hur, Jae-Seoun			
5EE7451BE6BE59378A82EAD240ADDC78.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/610346	https://doi.org/10.3897/mycokeys.84.70798.figure5	Figure 5. Phylogenetic relationships amongst available species in the genus Protoparmeliopsis based on a Maximum Likelihood analysis of the dataset of the mitochondrial small subunit (mtSSU) sequences. The tree was rooted with three sequences of the genus Polyozosia. Maximum Likelihood bootstrap values ≥ 70 % and posterior probabilities ≥ 95 % are shown above internal branches. Branches with bootstrap values ≥ 90 % are shown in bold. The new species Protoparmeliopsis crystalliniformis is presented in bold, and all species names are followed by the GenBank accession numbers. Reference Table 1 provides the species related to the specific GenBank accession numbers and voucher information.	Figure 5. Phylogenetic relationships amongst available species in the genus Protoparmeliopsis based on a Maximum Likelihood analysis of the dataset of the mitochondrial small subunit (mtSSU) sequences. The tree was rooted with three sequences of the genus Polyozosia. Maximum Likelihood bootstrap values ≥ 70 % and posterior probabilities ≥ 95 % are shown above internal branches. Branches with bootstrap values ≥ 90 % are shown in bold. The new species Protoparmeliopsis crystalliniformis is presented in bold, and all species names are followed by the GenBank accession numbers. Reference Table 1 provides the species related to the specific GenBank accession numbers and voucher information.	2021-11-12	Lee, Beeyoung Gun;Hur, Jae-Seoun		Zenodo	biologists	Lee, Beeyoung Gun;Hur, Jae-Seoun			
