Afrocymbella delphinea, Stone & Wilson & Jovanovska, 2022

Afrocymbella delphinea sp. nov. (LM Figs 60–80 View FIGURES 60–80 , SEM Figs 81–86 View FIGURES 81–83 View FIGURES 84–86 )

Description:— Valve length 27–45 μm, valve breadth 10.5–13.5 μm. Length to breadth ratio: 3.8. Valves distinctly dorsiventral, and strongly heteropolar, semirhomboid-lanceolate ( Figs 60–86 View FIGURES 60–80 View FIGURES 81–83 View FIGURES 84–86 ). Dorsal margin distinctly arched, ventral margin tumescent ( Figs 60–80 View FIGURES 60–80 ). Valve apices apiculate-rostrate, with rostrate headpole and protracted footpole, particularly in smaller specimens ( Figs 60–80 View FIGURES 60–80 ). Internally, valve apices with small to indistinguishable pseudosepta ( Figs 84, 86 View FIGURES 84–86 ). APF of round poroids present at footpole ( Fig. 83 View FIGURES 81–83 ), covered internally by knobby jointed ridge of silica ( Fig. 86 View FIGURES 84–86 ). Axial area narrow, curved, slightly displaced ventrally ( Figs 60–80 View FIGURES 60–80 ). Central area small, oval-shaped, notably wider on dorsal side and often minimal on ventral side ( Fig. 82 View FIGURES 81–83 ). Single (rarely 2) distinct stigmoid present on dorsal side of central nodule ( Figs 82 View FIGURES 81–83 , 84 View FIGURES 84–86 ), appearing slightly elongated in LM ( Fig. 61 View FIGURES 60–80 ). From inside, stigmoid opening with elongated slit ( Fig. 85 View FIGURES 84–86 ). Raphe curved and slightly sinusoidal ( Fig. 81 View FIGURES 81–83 ). External proximal raphe ends expanded into small pores ( Fig. 82 View FIGURES 81–83 ). External distal raphe terminal fissures ventrally deflected ( Figs 81, 83 View FIGURES 81–83 ). Internal proximal raphe ends covered by nodular or flap-like silica development formed by primary side of valve ( Figs 84, 85 View FIGURES 84–86 ). Internal distal raphe terminal fissures slightly elevated into small lobed helictoglossa at some distance from valve apices ( Fig. 86 View FIGURES 84–86 ). Striae radiate throughout, but can be slightly radiate-curved in central area, 16–20 in 10 μm. Striae continue uninterrupted onto valve mantle ( Fig. 81 View FIGURES 81–83 ), composed of 26–32 areolae in 10 μm. External areolae slit-like poroids ( Figs 81, 83 View FIGURES 81–83 ). Internal areolae ellipsoid without velum ( Fig. 84 View FIGURES 84–86 ).

Type:— REPUBLIC OF ZAMBIA. Lake Tanganyika , Isanga Bay, at 767 m elevation, rock scrape, 8°39’15.9” S 31°11’31.6” E, E.Jovanovska & P.Hamilton, 7 th September 2018, (holotype designated here, circled specimen ANSGC17196 ! = Fig. 74 View FIGURES 60–80 , isotypes circled specimens ANS-GC17197!, BM-101979!). Cleaned type materials: ANS-GCM 33027 GoogleMaps .

Registration: https://zoobank.org/NomenclaturalActs/6d108e31-d99a-4a74-b574-02f8fbc27ed9

Etymology:— The specific epithet ‘ delphinea ’ relates to the delphine (dolphin-like) outline that characterizes this species.

Distribution:— To date, Afrocymbella delphinea sp. nov. has been observed most commonly as an epilithic species attached on rocks in the littoral zones in the southern sub-basin of Lake Tanganyika. We observed this species at sites from Mpulungu (Mp), Chituta (Ch/Cb), Isanga (Is), and near the Kalambo Falls. We also found this species occurring in samples from Chembe (Cm) in the southern sub-basin of Lake Malawi ( Fig. 1 View FIGURE 1 ).