taxonID	type	format	identifier	references	title	description	created	creator	contributor	publisher	audience	source	license	rightsHolder	datasetID
276987D211383A5DFF72FE74FC590CC8.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/5099887/files/figure.png	https://doi.org/10.5281/zenodo.5099887	FIGURES 2–9. Syvertsenia iberica. LM images. Figs 3–9: Specimens from the holotype slide. Figs 6, 7: Holotype specimen photographed in various techniques, note the presence of the tubular process on a mantle (arrow) Figs 8, 9: Same specimen photographed in various techniques. Figs 4–6 and 8: Phase contrast. Figs 7 and 9: Differential Interference Contrast. All scale bars = 10 µm.	FIGURES 2–9. Syvertsenia iberica. LM images. Figs 3–9: Specimens from the holotype slide. Figs 6, 7: Holotype specimen photographed in various techniques, note the presence of the tubular process on a mantle (arrow) Figs 8, 9: Same specimen photographed in various techniques. Figs 4–6 and 8: Phase contrast. Figs 7 and 9: Differential Interference Contrast. All scale bars = 10 µm.	2013-11-01	Gomes, Ana;Witkowski, Andrzej;Dąbek, Przemysław;Boski, Tomasz;Moura, Delminda;Szkornik, Katie;Kurzydłowski, Krzysztof		Zenodo	biologists	Gomes, Ana;Witkowski, Andrzej;Dąbek, Przemysław;Boski, Tomasz;Moura, Delminda;Szkornik, Katie;Kurzydłowski, Krzysztof			
276987D211383A5DFF72FE74FC590CC8.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/5099889/files/figure.png	https://doi.org/10.5281/zenodo.5099889	FIGURES 10–19. Syvertsenia iberica. SEM images from the holotype sample (GS1) from Guadiana Estuary, Spain. Fig. 10: General view of the interior of the process valve. Note the tubular process (white arrow) and the presence of two linearly opposed ocelluli. Fig. 11: Close up to the valve internal view. Fig. 12: Close up of the middle part of the valve. Note the areolae occlusions, tubular process (black arrowhead) and mantle expansion with an areolae (white arrow). Fig. 13: Close up of the tubular process and areolae in the mantle expansion. Fig 14: Close up to the marginal spines. Fig. 15: Close up to the valve face areolae, which present an approximated linear and equidistant distribution. Figs 16, 17: Close up to the ocellulus, external (black arrowhead, Fig. 16) and internal (white arrow, Fig. 16) showing the presence of porelli (note the presence of spines in an external view). Figs 18, 19: Close up to the opposite apex ocellulus external view, note the presence of spines within ocellulus (black arrowhead, Fig. 18). Fig. 10: Scale bar = 10 µm. Fig. 11: Scale bar = 5 µm. Figs 12, 15 and 19: Scale bar = 500 nm. Fig. 13: Scale bar = 250 nm. Fig. 14: Scale bar = 200 nm. Fig. 16: Scale bar = 2 µm. Figs 17, 18: Scale bar = 1 µm.	FIGURES 10–19. Syvertsenia iberica. SEM images from the holotype sample (GS1) from Guadiana Estuary, Spain. Fig. 10: General view of the interior of the process valve. Note the tubular process (white arrow) and the presence of two linearly opposed ocelluli. Fig. 11: Close up to the valve internal view. Fig. 12: Close up of the middle part of the valve. Note the areolae occlusions, tubular process (black arrowhead) and mantle expansion with an areolae (white arrow). Fig. 13: Close up of the tubular process and areolae in the mantle expansion. Fig 14: Close up to the marginal spines. Fig. 15: Close up to the valve face areolae, which present an approximated linear and equidistant distribution. Figs 16, 17: Close up to the ocellulus, external (black arrowhead, Fig. 16) and internal (white arrow, Fig. 16) showing the presence of porelli (note the presence of spines in an external view). Figs 18, 19: Close up to the opposite apex ocellulus external view, note the presence of spines within ocellulus (black arrowhead, Fig. 18). Fig. 10: Scale bar = 10 µm. Fig. 11: Scale bar = 5 µm. Figs 12, 15 and 19: Scale bar = 500 nm. Fig. 13: Scale bar = 250 nm. Fig. 14: Scale bar = 200 nm. Fig. 16: Scale bar = 2 µm. Figs 17, 18: Scale bar = 1 µm.	2013-11-01	Gomes, Ana;Witkowski, Andrzej;Dąbek, Przemysław;Boski, Tomasz;Moura, Delminda;Szkornik, Katie;Kurzydłowski, Krzysztof		Zenodo	biologists	Gomes, Ana;Witkowski, Andrzej;Dąbek, Przemysław;Boski, Tomasz;Moura, Delminda;Szkornik, Katie;Kurzydłowski, Krzysztof			
276987D211393A5CFF72FC1BFCE20C17.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/5099887/files/figure.png	https://doi.org/10.5281/zenodo.5099887	FIGURES 2–9. Syvertsenia iberica. LM images. Figs 3–9: Specimens from the holotype slide. Figs 6, 7: Holotype specimen photographed in various techniques, note the presence of the tubular process on a mantle (arrow) Figs 8, 9: Same specimen photographed in various techniques. Figs 4–6 and 8: Phase contrast. Figs 7 and 9: Differential Interference Contrast. All scale bars = 10 µm.	FIGURES 2–9. Syvertsenia iberica. LM images. Figs 3–9: Specimens from the holotype slide. Figs 6, 7: Holotype specimen photographed in various techniques, note the presence of the tubular process on a mantle (arrow) Figs 8, 9: Same specimen photographed in various techniques. Figs 4–6 and 8: Phase contrast. Figs 7 and 9: Differential Interference Contrast. All scale bars = 10 µm.	2013-11-01	Gomes, Ana;Witkowski, Andrzej;Dąbek, Przemysław;Boski, Tomasz;Moura, Delminda;Szkornik, Katie;Kurzydłowski, Krzysztof		Zenodo	biologists	Gomes, Ana;Witkowski, Andrzej;Dąbek, Przemysław;Boski, Tomasz;Moura, Delminda;Szkornik, Katie;Kurzydłowski, Krzysztof			
276987D211393A5CFF72FC1BFCE20C17.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/5099889/files/figure.png	https://doi.org/10.5281/zenodo.5099889	FIGURES 10–19. Syvertsenia iberica. SEM images from the holotype sample (GS1) from Guadiana Estuary, Spain. Fig. 10: General view of the interior of the process valve. Note the tubular process (white arrow) and the presence of two linearly opposed ocelluli. Fig. 11: Close up to the valve internal view. Fig. 12: Close up of the middle part of the valve. Note the areolae occlusions, tubular process (black arrowhead) and mantle expansion with an areolae (white arrow). Fig. 13: Close up of the tubular process and areolae in the mantle expansion. Fig 14: Close up to the marginal spines. Fig. 15: Close up to the valve face areolae, which present an approximated linear and equidistant distribution. Figs 16, 17: Close up to the ocellulus, external (black arrowhead, Fig. 16) and internal (white arrow, Fig. 16) showing the presence of porelli (note the presence of spines in an external view). Figs 18, 19: Close up to the opposite apex ocellulus external view, note the presence of spines within ocellulus (black arrowhead, Fig. 18). Fig. 10: Scale bar = 10 µm. Fig. 11: Scale bar = 5 µm. Figs 12, 15 and 19: Scale bar = 500 nm. Fig. 13: Scale bar = 250 nm. Fig. 14: Scale bar = 200 nm. Fig. 16: Scale bar = 2 µm. Figs 17, 18: Scale bar = 1 µm.	FIGURES 10–19. Syvertsenia iberica. SEM images from the holotype sample (GS1) from Guadiana Estuary, Spain. Fig. 10: General view of the interior of the process valve. Note the tubular process (white arrow) and the presence of two linearly opposed ocelluli. Fig. 11: Close up to the valve internal view. Fig. 12: Close up of the middle part of the valve. Note the areolae occlusions, tubular process (black arrowhead) and mantle expansion with an areolae (white arrow). Fig. 13: Close up of the tubular process and areolae in the mantle expansion. Fig 14: Close up to the marginal spines. Fig. 15: Close up to the valve face areolae, which present an approximated linear and equidistant distribution. Figs 16, 17: Close up to the ocellulus, external (black arrowhead, Fig. 16) and internal (white arrow, Fig. 16) showing the presence of porelli (note the presence of spines in an external view). Figs 18, 19: Close up to the opposite apex ocellulus external view, note the presence of spines within ocellulus (black arrowhead, Fig. 18). Fig. 10: Scale bar = 10 µm. Fig. 11: Scale bar = 5 µm. Figs 12, 15 and 19: Scale bar = 500 nm. Fig. 13: Scale bar = 250 nm. Fig. 14: Scale bar = 200 nm. Fig. 16: Scale bar = 2 µm. Figs 17, 18: Scale bar = 1 µm.	2013-11-01	Gomes, Ana;Witkowski, Andrzej;Dąbek, Przemysław;Boski, Tomasz;Moura, Delminda;Szkornik, Katie;Kurzydłowski, Krzysztof		Zenodo	biologists	Gomes, Ana;Witkowski, Andrzej;Dąbek, Przemysław;Boski, Tomasz;Moura, Delminda;Szkornik, Katie;Kurzydłowski, Krzysztof			
276987D211393A5CFF72FC1BFCE20C17.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/5099885/files/figure.png	https://doi.org/10.5281/zenodo.5099885	FIGURE 1. Study area: (A) Location in Iberia Peninsula, (B) Location in the lower area of the Guadiana Estuary and (C) Schematic representation of the sampling transect (elevation relative to the mean sea-level). Illustrations of Sarcocornia perennis (Miller) A. J. Scott (1977: 367) & Halimione portulacoides (L.) Aellen (1938: 126) by Tracey (2010) and Spartina maritima (Curtis) Fernald (1916: 180) by Saxby (2010).	FIGURE 1. Study area: (A) Location in Iberia Peninsula, (B) Location in the lower area of the Guadiana Estuary and (C) Schematic representation of the sampling transect (elevation relative to the mean sea-level). Illustrations of Sarcocornia perennis (Miller) A. J. Scott (1977: 367) & Halimione portulacoides (L.) Aellen (1938: 126) by Tracey (2010) and Spartina maritima (Curtis) Fernald (1916: 180) by Saxby (2010).	2013-11-01	Gomes, Ana;Witkowski, Andrzej;Dąbek, Przemysław;Boski, Tomasz;Moura, Delminda;Szkornik, Katie;Kurzydłowski, Krzysztof		Zenodo	biologists	Gomes, Ana;Witkowski, Andrzej;Dąbek, Przemysław;Boski, Tomasz;Moura, Delminda;Szkornik, Katie;Kurzydłowski, Krzysztof			
