taxonID	type	format	identifier	references	title	description	created	creator	contributor	publisher	audience	source	license	rightsHolder	datasetID
03D8878EFFA3C57C522FFE9A7999FA62.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/12638296/files/figure.png	https://doi.org/10.5281/zenodo.12638296	Figs 3–8. Trigonaspis diskoensis. TEM whole mounts from NE Greenland (NEW). 3 – whole cell with flagella and a curled up haptonema. Tower-shaped large coccoliths encircle the flagellar pole; 4 – body coccoliths (detail from Fig. 3) with triangular crystallites arranged in a single layer on top of the visibly rimmed organic base plate. Unmineralized under layer scales are pointed out; 5 – complete cell display- ing a range of coccolith shapes, viz. tower-shaped (t), hat-shaped (h) and flat discs (d); 6 – complete cell with appendages and a distinct tuft of tower-shaped flagellar pole coccoliths; 7 – high magnification of flat body coccoliths from the cell shown in Fig. 6; 8 – detail of flagellar pole coccolith from the cell shown in Fig. 3.	Figs 3–8. Trigonaspis diskoensis. TEM whole mounts from NE Greenland (NEW). 3 – whole cell with flagella and a curled up haptonema. Tower-shaped large coccoliths encircle the flagellar pole; 4 – body coccoliths (detail from Fig. 3) with triangular crystallites arranged in a single layer on top of the visibly rimmed organic base plate. Unmineralized under layer scales are pointed out; 5 – complete cell display- ing a range of coccolith shapes, viz. tower-shaped (t), hat-shaped (h) and flat discs (d); 6 – complete cell with appendages and a distinct tuft of tower-shaped flagellar pole coccoliths; 7 – high magnification of flat body coccoliths from the cell shown in Fig. 6; 8 – detail of flagellar pole coccolith from the cell shown in Fig. 3.	2015-12-31	Thomsen, Helge A.;Østergaard, Jette B.		Zenodo	biologists	Thomsen, Helge A.;Østergaard, Jette B.			
03D8878EFFA3C57C522FFE9A7999FA62.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/12638298/files/figure.png	https://doi.org/10.5281/zenodo.12638298	Figs 9–11. Trigonaspis diskoensis. TEM whole mounts from NE Greenland (NEW) (Fig. 9), and West Greenland (Arctic Station) (Figs 10–11). 9 – high magnification of tower-shaped flagellar pole coccoliths (from Fig. 5) showing the helical placement of triangular crystallite groups; 10 – high magnification of hat-shaped coccolith detached from the cell shown in Fig. 11. Notice that the triangular crystallites are arranged in highly organized tiers; 11 – Whole cell with extended flagella and haptonema.	Figs 9–11. Trigonaspis diskoensis. TEM whole mounts from NE Greenland (NEW) (Fig. 9), and West Greenland (Arctic Station) (Figs 10–11). 9 – high magnification of tower-shaped flagellar pole coccoliths (from Fig. 5) showing the helical placement of triangular crystallite groups; 10 – high magnification of hat-shaped coccolith detached from the cell shown in Fig. 11. Notice that the triangular crystallites are arranged in highly organized tiers; 11 – Whole cell with extended flagella and haptonema.	2015-12-31	Thomsen, Helge A.;Østergaard, Jette B.		Zenodo	biologists	Thomsen, Helge A.;Østergaard, Jette B.			
03D8878EFFA4C57F5236FED77991FDDD.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/12638300/files/figure.png	https://doi.org/10.5281/zenodo.12638300	Figs 12–16. Trigonaspis minutissima. TEM whole mounts from West Greenland (Arctic Station). 12 – whole cell with partly detached coccoliths; 13 – detail from Fig. 12 of flagellar pole coccoliths showing triangular crystallite groups and slender towers wreathed with 4–5 of these in a random transect; 14 – detail of body coccolith from the cell shown in Fig. 12; 15 – detail of coccoliths from the cell shown in Fig. 16; 16 – whole cell with flagella and curled up haptonema.	Figs 12–16. Trigonaspis minutissima. TEM whole mounts from West Greenland (Arctic Station). 12 – whole cell with partly detached coccoliths; 13 – detail from Fig. 12 of flagellar pole coccoliths showing triangular crystallite groups and slender towers wreathed with 4–5 of these in a random transect; 14 – detail of body coccolith from the cell shown in Fig. 12; 15 – detail of coccoliths from the cell shown in Fig. 16; 16 – whole cell with flagella and curled up haptonema.	2015-12-31	Thomsen, Helge A.;Østergaard, Jette B.		Zenodo	biologists	Thomsen, Helge A.;Østergaard, Jette B.			
03D8878EFFA7C570522FF9587AE7FE5F.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/12638302/files/figure.png	https://doi.org/10.5281/zenodo.12638302	Figs 17–23. Trigonaspis melvillea. TEM whole mounts from the Weddell Sea, Antarctica. 17 – whole cell with flagella and a curled up haptonema positioned inside a corona of distinct flagellar pole coccoliths; 18 – complete cell with flagella and partly extended haptonema; 19 – detail of the distal termination of a flagellar pole coccolith (from Fig. 18); 20 – rimmed body coccoliths supporting densely packed layers of crystallite groups (from Fig. 18). Unmineralized under layer scales are pointed out; 21 – detail of unmineralized termination of flagellar pole coccolith. The still remaining organic matrix clearly reveals the triangular shape of a crystallite group; 22 – detail of body coccolith calcification. Notice that the triangles are united to form hexagonal rings; 23 – uncalcified specimen showing body coccolith base plates and under layer scales (arrows).	Figs 17–23. Trigonaspis melvillea. TEM whole mounts from the Weddell Sea, Antarctica. 17 – whole cell with flagella and a curled up haptonema positioned inside a corona of distinct flagellar pole coccoliths; 18 – complete cell with flagella and partly extended haptonema; 19 – detail of the distal termination of a flagellar pole coccolith (from Fig. 18); 20 – rimmed body coccoliths supporting densely packed layers of crystallite groups (from Fig. 18). Unmineralized under layer scales are pointed out; 21 – detail of unmineralized termination of flagellar pole coccolith. The still remaining organic matrix clearly reveals the triangular shape of a crystallite group; 22 – detail of body coccolith calcification. Notice that the triangles are united to form hexagonal rings; 23 – uncalcified specimen showing body coccolith base plates and under layer scales (arrows).	2015-12-31	Thomsen, Helge A.;Østergaard, Jette B.		Zenodo	biologists	Thomsen, Helge A.;Østergaard, Jette B.			
