Achnanthidium sinense, Liu & Blanco & Long & Xu & Jiang, 2016

Achnanthidium sinense Bing Liu et S. Blanco ( Figs 2–41 View FIGURES 2–21 View FIGURES 22–29 View FIGURES 30–33 View FIGURES 34–41 )

LM: Valves narrowly lanceolate with round, acute ends, 17.5–31.7 (median 28.3) μm long and 4.1–6.0 (median 5.1) μm wide (n = 50). Raphe valve possessing a narrow, lanceolate axial area, which widens slightly from the poles to the middle portion of the valve ( Figs 2–11 View FIGURES 2–21 ). Proximal raphe ends distinct, teardrop-shaped ( Figs 2–11 View FIGURES 2–21 ). Striae on the raphe valves not discernible except in the middle part of valve, where a few stria rows become resolvable due to a wider spacing ( Figs 2–11 View FIGURES 2–21 ). Rapheless valve with a linear-lanceolate axial area widening slightly in the middle ( Figs 12–20 View FIGURES 2–21 ). Striae on the rapheless valves not countable except in the middle part of valve, where a few stria rows become resolvable due to a wider spacing ( Figs 12–20 View FIGURES 2–21 ). Frustules in girdle view shallow v-shaped ( Fig. 21 View FIGURES 2–21 ).

SEM: Outline of raphe valve narrowly lanceolate, with a narrow lanceolate axial area and a rhombic-lanceolate central area ( Figs 22–29 View FIGURES 22–29 ). Outline of rapheless valve also narrowly lanceolate, with a linear-lanceolate axial area and an elliptic-lanceolate central area ( Figs 30–31 View FIGURES 30–33 ). Externally, terminal raphe fissures hooked towards the same side of the valve, central raphe endings teardrop-shaped ( Figs 22, 24–26 View FIGURES 22–29 ). Internally, distal raphe endings terminating in small helictoglossae, proximal raphe endings curved towards opposite sides ( Figs 27–29 View FIGURES 22–29 ). Striae slightly radiate throughout both valves except at the apices of the raphe valve, where they become parallel or slightly convergent ( Figs 22–31 View FIGURES 22–29 View FIGURES 30–33 ). Stria density 21–28 in 10 μm at the valve center and up to 40 in 10 μm near apices of raphe valve, 21–27 in 10 μm at the valve center and up to 34 in 10 μm near apices in the rapheless valve. Areolae external openings are small, round, or transapically elongated, whereas internal openings are transversely elliptical ( Figs 24–29 View FIGURES 22–29 ). Each stria in the middle part of the raphe valve is composed of 1–6, usually 5–6 areolae ( Figs 22, 25 View FIGURES 22–29 , 34–37 View FIGURES 34–41 ). Each stria in the middle part of the rapheless valve is composed of 1–7, usually 6–7 areolae ( Figs 30 View FIGURES 30–33 , 38–41 View FIGURES 34–41 ). Around the central areas of both valves, the striae are more widely spaced and shortened; sometimes very short marginal striae (composed of 1–3 areolae) are present ( Figs 34–41 View FIGURES 34–41 ). Frustules in girdle view shallow v-shaped, each valve mantle with a row of slit-like areolae and 2–3 notches ( Figs 32–33 View FIGURES 30–33 ).

Type: — CHINA. Guizhou: Fanjing Mountain National Nature Reserve, the river course at the gate of Shengtai Zhiwu Yuan, 27° 49’ 48” N, 108° 45’ 53” E, 500 m a.s.l., Bing Liu , 31 December 2015, (holotype BM! 101841, illustrated in Figs 11, 14 View FIGURES 2–21 ; isotype JIU! G201601 About JIU , illustrated in Figs 2, 12 View FIGURES 2–21 ) GoogleMaps .

Etymology: —Named after China, the country where the species was found.

Ecology: —The following environmental parameters were measured in the field. Electric conductivity was 41.9 ± 0.2 μS/cm, pH was 7.6 ± 0.1, and water temperature was 9.7 ± 0.2 °C. Since the diatom sample was scraped off the surfaces of stones and the water electric conductivity is below 50 μS/cm, Achnanthidium sinense can be considered an epilithic diatom characteristic of low electrolyte content freshwaters.