Navicula volcanica Bahls & Potapova, 2015
publication ID |
https://doi.org/ 10.11646/phytotaxa.218.3.4 |
DOI |
https://doi.org/10.5281/zenodo.13635630 |
persistent identifier |
https://treatment.plazi.org/id/400EA80A-CA75-FFC9-FF60-84C66DA83CAB |
treatment provided by |
Felipe |
scientific name |
Navicula volcanica Bahls & Potapova |
status |
sp. nov. |
Navicula volcanica Bahls & Potapova , sp. nov. ( Figs 2–17 View FIGURES 2–10 View FIGURES 11–17 )
Valves broadly rhombic with rounded apices. Length 100–176 μm, width 30–37 μm. Axial and central areas moderately wide, one-third to one-half the valve width, together forming a narrow lanceolate shape with a tumid center. Central area rhombic, surrounded by alternately long and short striae. Raphe lateral and somewhat bowed, concave to the primary side of the valve. Proximal raphe ends inflated and tipped slightly to the secondary side. Terminal raphe fissures shaped like question marks. Striae curved, strongly radiate, structured internally as deep grooves, 6–8 in 10 μm. Areolae about 28 in 10 μm. Internally, areolae apically elongated, occluded by hymens. External areolae openings small and fused into a narrow slit on external valve surface. Cells solitary with two plate-like chloroplasts lying along the girdle on each side of the valve.
Type:— USA. Oregon, Douglas County: North Umpqua River, 43.311º N, 122.155º W, 1262 m a.s.l., A. Johnson , 5 August 2011 (holotype: circled specimen on ANSP! GC 65221, illustrated in Fig. 5 View FIGURES 2–10 . Isotypes: circled specimens on MONTU! 41-100, MDC! 126-94. Paratypes: MONTU! 11-51, MDC! T-3-14-18).
Etymology: —The specific epithet “ volcanica ” refers to the general environment of this species: among volcanoes.
Distribution: —Clearwater and North Umpqua Rivers, Oregon.
Observations:—When observed under LM, Navicula volcanica is most similar to N. ludloviana ( Figs 18–33 View FIGURES 18–29 View FIGURES 30–33 ), another large Navicula with a relatively wide axial area and strongly radiate striae, but with a much wider distribution ( Table 2). Patrick & Reimer (1966) reported that valves of N. ludloviana are 23–33 μm wide and 90–132 μm long. Valves of N. volcanica are larger than those of N. ludloviana , even considering the larger N. ludloviana valves that we observed ( Table 3). Our images also show that valves of N. ludloviana near the upper size limit have very narrow, attenuated apices ( Fig. 22 View FIGURES 18–29 ). In smaller specimens, valve apices in N. ludloviana are subrostrate, but they are not protracted at all in N. volcanica , even in the largest specimens ( Fig. 2 View FIGURES 2–10 ). Valves of N. volcanica are rhombic, while those of N. ludloviana are rhombic-lanceolate.
The similarity of these two species is superficial, however, as the ultrastructure of N. volcanica sets it apart from other known Navicula taxa. Our SEM images of N. ludloviana ( Figs 30–33 View FIGURES 30–33 ) show that its frustular morphology is typical of Navicula sensu stricto in that external and internal areolae openings are approximately the same size and shape and striae internally are rather shallow troughs. Internally, striae of N. volcanica are extremely deep troughs and the virgae between them are inflated, so that the internal openings of areolae are partially obscured ( Figs 15–17 View FIGURES 11–17 ). The internal openings of areolae are apically elongated and constricted in the middle. The median constriction of each areola corresponds to a median thickening of adjacent intercostal ribs ( Fig. 17 View FIGURES 11–17 ). The hymens that occlude the areolae internally bulge out slightly above the internal surface of the striae ( Figs 15, 17 View FIGURES 11–17 ). The external openings of areolae merge into a narrow slit ( Figs 11, 12 View FIGURES 11–17 ) running the length of each stria. The slit is often interrupted, especially near the central and axial areas, creating what appear to be individual transapically elongated to isodiametric external areolae openings ( Fig. 11 View FIGURES 11–17 ).
Internally, the raphe slit runs uninterrupted through an elevated central nodule ( Fig. 16 View FIGURES 11–17 ). The elevated rib subtending the raphe is positioned inside a longitudinal groove in the middle of the axial area and appears to be fused with the inflated part of the axial area on the primary side of the valve ( Fig. 13 View FIGURES 11–17 ), except in the middle part of the valve where it is positioned centrally. The axial area is slightly wider on the primary side.
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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