Eunotia churiensis Veselá, Bohunická & Kaštovský, 2016

Eunotia churiensis Veselá, Bohunická & Kaštovský , sp. nov. ( Figs 5–8 View FIGURE 5 View FIGURE 6 View FIGURE 7 View FIGURE 8 )

Frustules rectangular in girdle view from the ventral side ( Figs 6G–J View FIGURE 6 ), ca. 40–50 μm wide. Valves with moderately to strongly concave ventral margins and highly convex dorsal margins ( Figs 5A–L View FIGURE 5 , 6A–F View FIGURE 6 ), mostly with four wave crests on the dorsal margin (e. g., Figs 5A–E View FIGURE 5 , 6A–C View FIGURE 6 ), less commonly with three crests (in small valves, Figs 6D, F View FIGURE 6 ) or transition between three and four crests, i. e., one of the crests close to the valve apex melting with the apex ( Figs 5G, J, L View FIGURE 5 ). Valve crests bluntly pointed, the depressions between the crests wide and open ( Fig. 6A View FIGURE 6 ). Valves relatively large for the genus, 54.5–115.5 μm long, 31.5–58.0 μm wide in the widest part of the valve, to 29–51 μm in between the crests and the center of ventral margin. Valve length-to-width ratio mostly around 2.1 (1.8–2.7). Valve apices variable from narrowly rounded (e. g., Fig. 6C View FIGURE 6 ), truncated (e. g., Fig. 5E View FIGURE 5 ) to round (e.g., Figs 5C View FIGURE 5 , 6A View FIGURE 6 ). Terminal nodules on the ventral side of the valve, not far from the apices ( Figs 5 View FIGURE 5 , 6A–F View FIGURE 6 ). Terminal raphe fissures curving onto the valve face, and pointing towards the dorsal part of the apex ( Figs 6A View FIGURE 6 , 7B–D, F View FIGURE 7 ). Helictoglossa is massive and well visible in LM ( Figs 5 View FIGURE 5 , 6A–E View FIGURE 6 ). Number and arrangement of rimoportulae variable, one to four (most commonly two) rimoportulae per each valve apex ( Figs 8C–E, H, I View FIGURE 8 ), in total three to five per valve. Rimoportulae arranged individually ( Figs 8D, E View FIGURE 8 ), as a group ( Fig. 8C View FIGURE 8 ), or as a combination of both. External opening of each individual rimoportula (or a group of rimoportulae) mostly as an elongated pore ( Fig. 7B View FIGURE 7 ), sometimes as a small round pore, located at the apex on the mantle ( Fig. 7D View FIGURE 7 ) or on the junction of the valve face and mantle ( Fig. 7B View FIGURE 7 ). Valves densely striated ( Figs 5 View FIGURE 5 , 6A–F View FIGURE 6 , 7A, C View FIGURE 7 , 8A, F View FIGURE 8 ), 14–17 striae in 10 μm near the center of ventral part of the valve, up to 22 striae in 10 μm at the wave crests due to the inserted striae ( Fig. 8B View FIGURE 8 ), and 17–20 striae in 10 μm near the apices ( Figs 8E, H View FIGURE 8 ). External small ridges in between striae irregularly spaced, giving the valve surface appearance of a “rough cloth” ( Figs 6A View FIGURE 6 , 7A–H View FIGURE 7 ). At the valve edges the small ridges fused in a certain extent, sometimes forming a web-like structure ( Figs 7G, H View FIGURE 7 ). On the mantle, slightly below the valve edges, an elevated irregular siliceous rim-like structure present ( Figs 7B, C, E–G View FIGURE 7 ). Externally areolae open, small and embedded in between the ridges ( Figs 7B, E, F, H View FIGURE 7 ); internally areolae also unoccluded, well rounded and large ( Figs 8B, E, G View FIGURE 8 ); 18–26 in 10 μm.

Type:— VENEZUELA. Bolívar State: Guyana Highlands, Chimantá Massif, Churí-tepui–Charles Brewer Cave Base Camp, Bathroom Creek, 5º 14.952’ N, 62º 1.588’ W, 2200 m a.s.l., J. Kaštovský 107, 20 January 2012 (holotype: ANSP!, slide GC 26823, specimen 12.0 mm south by 23.3 mm east from the benchmark cross on the slide, here illustrated as Fig. 6A View FIGURE 6 . Isotype: CBFS!, slide A-053, specimen 6.7 mm south by 18.8 mm east from the benchmark cross on the slide, here illustrated as Fig. 5I View FIGURE 5 ).

Etymology:—From the Latin adjective churiensis (from the table mountain Churí-tepui), referring to the area where the species was discovered.

Ecology and distribution:—This taxon occurred only at a single site, i. e., Bathroom Creek near the Charles Brewer Cave Base Camp as an epiphyte on an unidentified red alga (Rhodophyta).

Comparison with similar taxa:—Without any doubt, the morphologically most similar taxon to E. churiensis is the here described E. multirimoportulata . They both share very similar valve outline and dimensions (valve length, width, striae and areolae density). Main features separating these two taxa are different number of rimoportulae, length-to-width ratios and striae density at apices (all higher in E. multirimoportulata , Table 4), softer arching of the valve crests in E. multirimoportulata (correlating with a smaller crest height, Fig. 10A View FIGURE 10 , Table 4B), and their different ecology (inhabiting a creek vs. a pool, although both growing epiphytically on red algae).

Eunotia churiensis is very similar in its valve outline to Eunotia tetraodon Ehrenberg (1838: 192) , having valves with moderately concave ventral margins and highly convex dorsal margins, and with four wave crest in most cases. However, Eunotia c huriensis possesses valves approximately two times larger as opposed to 22–70 μm long and 10– 24 μm wide valves of E. tetraodon ( Lange-Bertalot et al. 2011, Table 4A). Furthermore, valves of E. churiensis have a slightly denser striation compared to E. tetraodon (Table 4A). Unfortunately, Lange-Bertalot et al. (2011) and other authors did not provide any information about the presence of rimoportulae in E. tetraodon . A single picture known to us, i. e., plate 105, fig. 1 in Lange-Bertalot et al. (2011), indicates that this taxon might possess up to two rimoportulae at one apex and none on the other apex, unlike E. churiensis with at least three rimoportulae present on each valve. Additionally, the valve face of E. tetraodon is smooth (plate 103, fig. 3, 4, Lange-Bertalot et al. 2011) without any hint of ridges as observed in valves of E. churiensis .

Eunotia semicircularis ( Ehrenberg 1854: pl. 16, fig. 31a) Lange-Bertalot & Metzeltin in Lange-Bertalot et al. (2011: 216) also bears resemblance in the valve outline to E. churiensis , although can be easily distinguished based on its small size, lack of rimoportulae and geographic distribution (Scandinavia and the Arctic, Table 4B).

Small valves of E. churiensis could be potentially mistaken for E. triodon Ehrenberg (1837: 45) . However, valves of E. triodon have much smaller width, do not possess any rimoportulae and do not occur outside of Holarctic region (Table 4).