Navicula daochengensis W. Zhang, Chudaev & T. Wang, 2020
publication ID |
https://doi.org/ 10.11646/phytotaxa.439.2.6 |
DOI |
https://doi.org/10.5281/zenodo.13873194 |
persistent identifier |
https://treatment.plazi.org/id/03FB6168-FFDB-E618-8294-2A41FF0EF89F |
treatment provided by |
Felipe |
scientific name |
Navicula daochengensis W. Zhang, Chudaev & T. Wang |
status |
sp. nov. |
Navicula daochengensis W. Zhang, Chudaev & T. Wang sp. nov. ( Figs 1–18 View FIGURES 1–6 View FIGURES 7–13 View FIGURES 14–18 )
LM: Valves narrowly-lanceolate, with subcapitate to broadly rounded ends ( Figs 1–6 View FIGURES 1–6 ). Length 76.1–100.2 µm, width 10.2–12.7 µm, length to breadth ratio 7.0–8.6 (n= 35). Raphe weakly lateral with distinct external proximal raphe ends, external distal raphe ends deflected onto the mantle. Striae radiate in the central region, becoming parallel round the Voigt discordance, finally convergent towards the apices ( Figs 1–6 View FIGURES 1–6 ). Striae with apically elongated punctuation, 8–9/ 10 μm in the middle, becoming up to 13/10 μm towards the apices. Axial area very narrow. Central area small, rhombic and slightly asymmetric.
SEM: External valve surface. Raphe fissure straight ( Fig. 7 View FIGURES 7–13 ). Central raphe endings strongly unilaterally hooked towards secondary valve side ( Figs 8–10 View FIGURES 7–13 ). Distal raphe endings curved to the secondary side of valve, with ends positioned on valve mantle ( Figs 12, 13 View FIGURES 7–13 ). Raphe sternum not elevated above the rest of the valve. Axial area very narrow, linear, central area rhombic, slightly asymmetrical. Lineolae connected with narrow, shallow grooves on the interstriae ( Figs 7, 8, 13 View FIGURES 7–13 ). The poroids and the frets separating them are aligned longitudinally so that there appear to be longitudinal as well as transverse striae ( Figs 10, 11 View FIGURES 7–13 ). Furthermore, the longitudinal elements formed by the aligned frets are often thickened, so that externally the valve appears as covered by longitudinal ribs of silica ( Fig. 7 View FIGURES 7–13 ). Lineolae density ca. 35 in 10 µm. Internal valve surface. Raphe fissure straight, slightly inclined to the secondary valve side ( Figs 14, 15 View FIGURES 14–18 ), shortly interrupted in valve center, central endings straight ( Figs 14–16 View FIGURES 14–18 ). Accessory rib well developed on the primary valve side, unilaterally widened in the centre, forming asymmetrical central nodule visible in LM ( Fig. 15, 16 View FIGURES 14–18 ). On the opposite to this central nodule side of raphe sternum also presents longitudinal semilanceolate thickening ( Figs 15, 16 View FIGURES 14–18 ). Distal raphe endings are well developed helictoglossae ( Figs 17, 18 View FIGURES 14–18 ). Striae lie in shallow transapical depressions ( Figs 14–18 View FIGURES 14–18 ). Areolae closed with hymenes ( Fig. 15 View FIGURES 14–18 ).
Type: — CHINA. Sichuan Province: Tibetan Autonomous Prefecture of Garzi, Daocheng County, Haizishan Nature Reserve , Lake Congqiancuo , 29°21′58″ N, 100°04′51″ E, elevation 4389 m a.s.l., samples collected by Q. C. ZHOU, 20 Sep. 2018. Holotype CQC2#, SHOU! Herbarium of Hydrobiological Department , Shanghai Ocean University ( SHOU), Shanghai. GoogleMaps
Etymology: —The specific epithet ‘ daochengensis ’ refers to the locality from which the new species was described.
No known copyright restrictions apply. See Agosti, D., Egloff, W., 2009. Taxonomic information exchange and copyright: the Plazi approach. BMC Research Notes 2009, 2:53 for further explanation.
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