taxonID	type	format	identifier	references	title	description	created	creator	contributor	publisher	audience	source	license	rightsHolder	datasetID
03F40736FFE6FFFD184EF9EBFD6E541D.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/13189671/files/figure.png	https://doi.org/10.5281/zenodo.13189671	Fig. 2 Probolocupsis sarmeikensis nov. sp. (Holotype). The magnification from Fig. 4l shows the spine-like extended individual laterals (some of the internal pores: see arrows). Laterals are perpendicular to the thallus axis.	Fig. 2 Probolocupsis sarmeikensis nov. sp. (Holotype). The magnification from Fig. 4l shows the spine-like extended individual laterals (some of the internal pores: see arrows). Laterals are perpendicular to the thallus axis.	2014-09-29	Senowbari-Daryan, Baba		Zenodo	biologists	Senowbari-Daryan, Baba			
03F40736FFE6FFFD184EF9EBFD6E541D.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/13189675/files/figure.png	https://doi.org/10.5281/zenodo.13189675	Fig. 4 a to n Probolocupsis sarmeikensis nov. sp. from the reef carbonates near the town of Sarmeika, Peloponnes, Greece. a Cross section exhibiting the narrow axial cavity and the thick thallus wall. Laterals appear as white points in section through them. G058, x10. b Cross section through two poorly preserved specimens. G058, x8. c Oblique longitudinal section through an incomplete? specimen exhibits the laterals, which are oriented perpendicular to the axial cavity. G05C, x16. d Cross section of a specimen exhibiting the partly recrystallized laterals of the thallus. G05A, x16. e Cross section through an apparently poorly preserved specimen. Laterals appear as white points in section through them. G058, x16. f Cross section through an incomplete specimen. G050, x8. g Sections through a complete and an incomplete specimen. Laterals appear as white points around the incomplete specimen. G05B, x16. h Cross sections through two specimens. G05C, x12. i Cross section through a relatively well preserved specimen. G05C, x16. j Oblique section similar to Fig. i. G05C, x10. k Cross section exhibiting the pores (arrows) in the laterals. G05B, x16. l Longitudinal section through the holotype (for magnification see Fig. 2) and cross sections through two paratypes. G05C, x6. m Cross section through a recrystallized specimen. Arrows indicate the pores within the laterals. G05B, x16. n Cross section through a strongly recrystallized specimen causing the disappearance of the axial cavity. G025, x16.	Fig. 4 a to n Probolocupsis sarmeikensis nov. sp. from the reef carbonates near the town of Sarmeika, Peloponnes, Greece. a Cross section exhibiting the narrow axial cavity and the thick thallus wall. Laterals appear as white points in section through them. G058, x10. b Cross section through two poorly preserved specimens. G058, x8. c Oblique longitudinal section through an incomplete? specimen exhibits the laterals, which are oriented perpendicular to the axial cavity. G05C, x16. d Cross section of a specimen exhibiting the partly recrystallized laterals of the thallus. G05A, x16. e Cross section through an apparently poorly preserved specimen. Laterals appear as white points in section through them. G058, x16. f Cross section through an incomplete specimen. G050, x8. g Sections through a complete and an incomplete specimen. Laterals appear as white points around the incomplete specimen. G05B, x16. h Cross sections through two specimens. G05C, x12. i Cross section through a relatively well preserved specimen. G05C, x16. j Oblique section similar to Fig. i. G05C, x10. k Cross section exhibiting the pores (arrows) in the laterals. G05B, x16. l Longitudinal section through the holotype (for magnification see Fig. 2) and cross sections through two paratypes. G05C, x6. m Cross section through a recrystallized specimen. Arrows indicate the pores within the laterals. G05B, x16. n Cross section through a strongly recrystallized specimen causing the disappearance of the axial cavity. G025, x16.	2014-09-29	Senowbari-Daryan, Baba		Zenodo	biologists	Senowbari-Daryan, Baba			
03F40736FFE6FFFD184EF9EBFD6E541D.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/13189669/files/figure.png	https://doi.org/10.5281/zenodo.13189669	Fig. 1 Geographic position of the Norian-Rhaetian reef locality north of the town of Sarmeika, Peloponnes, Greece.	Fig. 1 Geographic position of the Norian-Rhaetian reef locality north of the town of Sarmeika, Peloponnes, Greece.	2014-09-29	Senowbari-Daryan, Baba		Zenodo	biologists	Senowbari-Daryan, Baba			
03F40736FFE6FFFD184EF9EBFD6E541D.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/13189673/files/figure.png	https://doi.org/10.5281/zenodo.13189673	Fig. 3 Diplopora obliqusipora nov. sp. (Holotype). The magnification from Fig. 5c shows the relics of metaspondyle arrangement of the tufts (large arrows, also the cross sections of the laterals at the base of the thallus indicate the metaspondyle arrangement of the laterals). Small arrows indicate the tufts arising from the common base. The thin wall around the axial cavity is clearly recognizable.	Fig. 3 Diplopora obliqusipora nov. sp. (Holotype). The magnification from Fig. 5c shows the relics of metaspondyle arrangement of the tufts (large arrows, also the cross sections of the laterals at the base of the thallus indicate the metaspondyle arrangement of the laterals). Small arrows indicate the tufts arising from the common base. The thin wall around the axial cavity is clearly recognizable.	2014-09-29	Senowbari-Daryan, Baba		Zenodo	biologists	Senowbari-Daryan, Baba			
03F40736FFE4FFFD1857FB7BFF2C5793.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/13189677/files/figure.png	https://doi.org/10.5281/zenodo.13189677	Fig. 5 Diplopora obliguspora nov. sp. (a to d) and Probolocuspis tenuiparia nov. sp. (e to l) from the Norian-Rhaetian reef carbonates of Sarmeika, Peloponnes, Greece. a Specimen exhibits the thin wall around the axial cavity and the spine-like extended laterals. Thin section G1, x32. b Similar section as Fig. a showing the common base of oblique orientation of individual laterals. Thin section G89, x12. c (Holotype). Longitudinal section exhibiting the metaspondyle arrangement of the laterals, tuft of laterals and the thin wall around the axial cavity (for more information see Fig. 3). Thin section G75, x8. d Two cross sections exhibiting the spine-like extended individual laterals. G12, x20. e Cross sections through several specimens with thin thallus wall. Thin section G012, x20. f Sections through three specimens with relatively thick thallus wall but the individual laterals are recognizable. Thin section G08a, x25. g Oblique to longitudinal section. Thin section G08a, x20. h Holotype. The oblique section shows the individual laterals at the base. Thin section G08a, x20. i Sections through four specimens showing the laterals in part. Thin section G08a, x20. j Sections similar to Fig. i. Thin section G08a, x20. k Cross sections clearly showing the spine-like extended laterals. Thin section G08a, x40. l Similar to k. Thin section G40/1, x12.	Fig. 5 Diplopora obliguspora nov. sp. (a to d) and Probolocuspis tenuiparia nov. sp. (e to l) from the Norian-Rhaetian reef carbonates of Sarmeika, Peloponnes, Greece. a Specimen exhibits the thin wall around the axial cavity and the spine-like extended laterals. Thin section G1, x32. b Similar section as Fig. a showing the common base of oblique orientation of individual laterals. Thin section G89, x12. c (Holotype). Longitudinal section exhibiting the metaspondyle arrangement of the laterals, tuft of laterals and the thin wall around the axial cavity (for more information see Fig. 3). Thin section G75, x8. d Two cross sections exhibiting the spine-like extended individual laterals. G12, x20. e Cross sections through several specimens with thin thallus wall. Thin section G012, x20. f Sections through three specimens with relatively thick thallus wall but the individual laterals are recognizable. Thin section G08a, x25. g Oblique to longitudinal section. Thin section G08a, x20. h Holotype. The oblique section shows the individual laterals at the base. Thin section G08a, x20. i Sections through four specimens showing the laterals in part. Thin section G08a, x20. j Sections similar to Fig. i. Thin section G08a, x20. k Cross sections clearly showing the spine-like extended laterals. Thin section G08a, x40. l Similar to k. Thin section G40/1, x12.	2014-09-29	Senowbari-Daryan, Baba		Zenodo	biologists	Senowbari-Daryan, Baba			
03F40736FFE4FFFD1857FB7BFF2C5793.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/13189669/files/figure.png	https://doi.org/10.5281/zenodo.13189669	Fig. 1 Geographic position of the Norian-Rhaetian reef locality north of the town of Sarmeika, Peloponnes, Greece.	Fig. 1 Geographic position of the Norian-Rhaetian reef locality north of the town of Sarmeika, Peloponnes, Greece.	2014-09-29	Senowbari-Daryan, Baba		Zenodo	biologists	Senowbari-Daryan, Baba			
03F40736FFE4FFF81AFBFCA2FEEE52C8.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/13189673/files/figure.png	https://doi.org/10.5281/zenodo.13189673	Fig. 3 Diplopora obliqusipora nov. sp. (Holotype). The magnification from Fig. 5c shows the relics of metaspondyle arrangement of the tufts (large arrows, also the cross sections of the laterals at the base of the thallus indicate the metaspondyle arrangement of the laterals). Small arrows indicate the tufts arising from the common base. The thin wall around the axial cavity is clearly recognizable.	Fig. 3 Diplopora obliqusipora nov. sp. (Holotype). The magnification from Fig. 5c shows the relics of metaspondyle arrangement of the tufts (large arrows, also the cross sections of the laterals at the base of the thallus indicate the metaspondyle arrangement of the laterals). Small arrows indicate the tufts arising from the common base. The thin wall around the axial cavity is clearly recognizable.	2014-09-29	Senowbari-Daryan, Baba		Zenodo	biologists	Senowbari-Daryan, Baba			
03F40736FFE4FFF81AFBFCA2FEEE52C8.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/13189677/files/figure.png	https://doi.org/10.5281/zenodo.13189677	Fig. 5 Diplopora obliguspora nov. sp. (a to d) and Probolocuspis tenuiparia nov. sp. (e to l) from the Norian-Rhaetian reef carbonates of Sarmeika, Peloponnes, Greece. a Specimen exhibits the thin wall around the axial cavity and the spine-like extended laterals. Thin section G1, x32. b Similar section as Fig. a showing the common base of oblique orientation of individual laterals. Thin section G89, x12. c (Holotype). Longitudinal section exhibiting the metaspondyle arrangement of the laterals, tuft of laterals and the thin wall around the axial cavity (for more information see Fig. 3). Thin section G75, x8. d Two cross sections exhibiting the spine-like extended individual laterals. G12, x20. e Cross sections through several specimens with thin thallus wall. Thin section G012, x20. f Sections through three specimens with relatively thick thallus wall but the individual laterals are recognizable. Thin section G08a, x25. g Oblique to longitudinal section. Thin section G08a, x20. h Holotype. The oblique section shows the individual laterals at the base. Thin section G08a, x20. i Sections through four specimens showing the laterals in part. Thin section G08a, x20. j Sections similar to Fig. i. Thin section G08a, x20. k Cross sections clearly showing the spine-like extended laterals. Thin section G08a, x40. l Similar to k. Thin section G40/1, x12.	Fig. 5 Diplopora obliguspora nov. sp. (a to d) and Probolocuspis tenuiparia nov. sp. (e to l) from the Norian-Rhaetian reef carbonates of Sarmeika, Peloponnes, Greece. a Specimen exhibits the thin wall around the axial cavity and the spine-like extended laterals. Thin section G1, x32. b Similar section as Fig. a showing the common base of oblique orientation of individual laterals. Thin section G89, x12. c (Holotype). Longitudinal section exhibiting the metaspondyle arrangement of the laterals, tuft of laterals and the thin wall around the axial cavity (for more information see Fig. 3). Thin section G75, x8. d Two cross sections exhibiting the spine-like extended individual laterals. G12, x20. e Cross sections through several specimens with thin thallus wall. Thin section G012, x20. f Sections through three specimens with relatively thick thallus wall but the individual laterals are recognizable. Thin section G08a, x25. g Oblique to longitudinal section. Thin section G08a, x20. h Holotype. The oblique section shows the individual laterals at the base. Thin section G08a, x20. i Sections through four specimens showing the laterals in part. Thin section G08a, x20. j Sections similar to Fig. i. Thin section G08a, x20. k Cross sections clearly showing the spine-like extended laterals. Thin section G08a, x40. l Similar to k. Thin section G40/1, x12.	2014-09-29	Senowbari-Daryan, Baba		Zenodo	biologists	Senowbari-Daryan, Baba			
03F40736FFE4FFF81AFBFCA2FEEE52C8.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/13189669/files/figure.png	https://doi.org/10.5281/zenodo.13189669	Fig. 1 Geographic position of the Norian-Rhaetian reef locality north of the town of Sarmeika, Peloponnes, Greece.	Fig. 1 Geographic position of the Norian-Rhaetian reef locality north of the town of Sarmeika, Peloponnes, Greece.	2014-09-29	Senowbari-Daryan, Baba		Zenodo	biologists	Senowbari-Daryan, Baba			
