Olifantiella elisabethiana Van de Vijver, 2016
publication ID |
https://doi.org/ 10.11646/phytotaxa.261.3.4 |
DOI |
https://doi.org/10.5281/zenodo.13671755 |
persistent identifier |
https://treatment.plazi.org/id/0389D92D-D83A-FF93-2BD7-FAD7FDDAA9D8 |
treatment provided by |
Felipe |
scientific name |
Olifantiella elisabethiana Van de Vijver |
status |
sp. nov. |
Olifantiella elisabethiana Van de Vijver , sp. nov. ( Figs 1–31 View FIGURES 1–20 View FIGURES 21–25 View FIGURES 26–28 View FIGURES 29–31 )
Light microscopy ( Figs 1–15 View FIGURES 1–20 ): Valves almost linear, becoming more elliptic to elliptic-lanceolate in smaller specimens ( Figs 14, 15 View FIGURES 1–20 ) with parallel, straight margins and rostrate, clearly protracted, bluntly rounded, truncated apices. Valve dimensions (n=50): length 8–17μm, width 3.5–4.0 μm. Axial area very narrow, linear, not widening towards the central area. Central area almost nonexisting, asymmetrical due to the shortening of one stria. Raphe filiform located on a slightly raised sternum, widening near the central area ( Fig. 5 View FIGURES 1–20 ). Proximal raphe endings simple to very weakly enlarged, slightly unilaterally deflected. Distal raphe endings not visible in LM. Striae clearly visible, parallel throughout becoming occasionally weakly radiate near the apices, 31–32 in 10 μm. Areolae not discernible in LM. SEM ( Figs 16–25 View FIGURES 1–20 View FIGURES 21–25 ): valve face flat. External view: large hyaline zone running from apex to apex, parallel to the axial area ( Figs 16, 20 View FIGURES 1–20 ). Striae composed of one large slitlike macroareola, equidistant ( Figs 16, 18 View FIGURES 1–20 ). Part of the striae near the axial area covered in the areolar canal by a finely perforated hymen. Most outer part of the striae open ( Fig. 18 View FIGURES 1–20 ). Large, lanceolate zone visible on the valve face on both sides of the axial area corresponding to the underlying hymena ( Fig. 16 View FIGURES 1–20 ). ‘Fenestrulae’ (non-covered part of the areolae according to Riaux-Gobin (2015) though not formally defined) very small ( Fig. 18 View FIGURES 1–20 ). Central area asymmetrical due to one shortened vestigial stria, located close to the hyaline marginal zone ( Fig. 17 View FIGURES 1–20 ). Opening of the buciniportula narrow, transapically elongated, slitlike ( Fig. 17 View FIGURES 1–20 ), located on the secondary side. Raphe branches weakly undulating, placed between two very low ridges ( Fig. 16 View FIGURES 1–20 ). Proximal raphe endings very weakly droplike expanded, almost straight ( Fig. 17 View FIGURES 1–20 ). Distal raphe fissures very short, unilaterally deflected to the secondary side, terminating in simple endings ( Fig. 19 View FIGURES 1–20 ). Internal view: raphe branches straight. Proximal raphe endings indistinct, straight. Central nodule weakly raised. Small, raised siliceous rectangular wart located between the proximal raphe endings ( Figs 21, 24 View FIGURES 21–25 ). Distal endings terminating onto small raised helictoglossae ( Figs 21, 23 View FIGURES 21–25 ). Buciniportula solitary, weakly raised ( Figs 24, 25 View FIGURES 21–25 ), rounded, flattened, plugged by a sort of finely punctated hymen, similar to that of the areolae. Virgae thickened, clearly raised with the striae in between, clearly sunken ( Fig. 22 View FIGURES 21–25 ), covered by finely perforated hymenes. Marginally a large canal present, surrounding the entire valve. Internal and external layer of the valve split from the valve margin towards the axial area, fused again via perforated hymenes with the striae, almost halfway between the margins and the axial area ( Figs 21, 22 View FIGURES 21–25 ). Near the valve margin, small, rounded, perforated plates present at the end of each stria covering small bulbous structures at the valve margin ( Figs 21, 23 View FIGURES 21–25 ). Virgae terminating near the split of internal and external layer, continuing as a narrow ridge ( Fig. 28 View FIGURES 26–28 ). Frustules in girdle view not observed due to severe cleaning. Girdle composed of several, open copulae usually bearing a double perforation ( Figs 26, 27 View FIGURES 26–28 ). TEM ( Figs 29–31 View FIGURES 29–31 ): striae composed of one transapically elongated areola, extending from the axial area till almost halfway between axial area and valve margin ( Figs 29, 30 View FIGURES 29–31 ). Virgae with small ridges continuing towards the valve margins clearly visible ( Fig. 29 View FIGURES 29–31 ). Small, rounded plates near the valve margins clearly visible ( Figs 29, 30 View FIGURES 29–31 ). Bucinoportula clearly slitlike, covered by a rounded, siliceous plug ( Fig. 31 View FIGURES 29–31 ).
Type:— BELGIUM. Port of Antwerp : Kanaaldok B 2, sample 352846 (wharf 669), B. Van de Vijver, 20 May 2008 (holotype: BR! slide no. 4446; isotype: PLP! slide no. 301, University of Antwerp, Belgium) .
Etymology:—The new species is named after Miss. Elisabeth Wilfert, stepdaughter of the author, on the occasion of her 8 th birthday (20/06/2016).
Ecology and associated diatom taxa:— Olifantiella elisabethiana was recorded in several samples from the Kanaaldok in the Antwerp harbor. The samples were characterized by a fairly high Cl- level (2.6 g /l), high conductivity levels (627 mS/m), an almost circumneutral pH (7.8) and moderate nutrient values (TN 5.0 g/l, TP 0.17 g /l) (all values from Van Dam et al. 2008). The flora in the samples was dominated by brackish and marine species such as Nitzschia filiformis var. conferta ( Richter 1879: 65) Lange-Bertalot in Lange-Bertalot & Krammer (1987: 18), Psammothidium punctulatum ( Simonsen 1959: 75) Bukhtiyarova & Round (1996: 14) , Tabularia fasciculata ( Agardh 1812: 35) Williams & Round (1986: 326) and Berkeleya spp. Unfortunately, no raw material is kept making observation of the lifeform of the new species not possible.
BR |
Embrapa Agrobiology Diazothrophic Microbial Culture Collection |
PLP |
Institute of Himalayan Bioresource Technology |
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.