Hantzschia tokarczukiana M.Rybak, Kochman-Kędziora, 2022
publication ID |
https://doi.org/ 10.11646/phytotaxa.567.3.1 |
DOI |
https://doi.org/10.5281/zenodo.7182619 |
persistent identifier |
https://treatment.plazi.org/id/BF32D47F-F96B-FFBB-FF59-61CD8306F9C7 |
treatment provided by |
Plazi |
scientific name |
Hantzschia tokarczukiana M.Rybak, Kochman-Kędziora |
status |
sp. nov. |
Hantzschia tokarczukiana M.Rybak, Kochman-Kędziora , sp. nov. ( Figs 16–27 View FIGURES 1–27 , 53–60 View FIGURES 53–60 )
LM observations ( Figs 16–27 View FIGURES 1–27 ): — Valves clearly dorsiventral with convex ventral side, in some specimens almost straight in middle. A dorsal side distinctly concave in middle, but convex near apices. Valve apices clearly protracted, rostrate or sub-capitate. Valve dimensions (n=20): length 33.5–93.0 μm, width 5.5–8.0 μm. Width at widest part of valve face: 6.0–8.0 μm. Unequally spaced fibulae, 5–8 in 10 μm, middle two clearly more distant than others. Striae in middle part of valve slightly radiate, becoming parallel to slightly curved toward apices, 17–20 in 10 μm. Areolae not discernible.
SEM observations ( Figs 53–60 View FIGURES 53–60 ): — Valves on ventral side bordered by narrow keel ( Figs 53, 54 View FIGURES 53–60 ). Irregular ridges of silica present on dorsal side, near junction of valve face and mantle ( Figs 53, 56, 59 View FIGURES 53–60 ). Striae uniseriate, composed of round areolae occluded by individual hymens, situated in shallow, continuous groove ( Figs 53–54, 58–59 View FIGURES 53–60 ), 34–40 in 10 µm. Fibulae irregularly shaped. Transapically running grooves interrupted apically near keel ( Figs 53, 59 View FIGURES 53–60 ). External central raphe endings clearly bent, interruption in raphe slit not visible ( Figs 54, 58 View FIGURES 53–60 ). Distal raphe endings clearly hooked ( Figs 54, 56 View FIGURES 53–60 ). Internally, fibulae not equidistant ( Fig. 55 View FIGURES 53–60 ). Each fibulae connected to 1–4 transapically costae ( Fig. 55 View FIGURES 53–60 ). Central raphe endings deflected to same direction, close together ( Fig. 60 View FIGURES 53–60 ). Transapical striae forming narrow, deep, parallel grooves ( Figs 55, 60 View FIGURES 53–60 ).
Type:— Indonesia, Molouki, Kairatu, 3°21’46.5”S 128°22’19.48”E, coll. date. 28 June 2018, holo - slide no. SZCZ28484 View Materials ! and the unmounted material with the same number at the Szczecin Diatom Collection (University of Szczecin, Poland), iso - slide no. 2018/445 and the unmounted material with the same number at the University of Rzeszow, Poland. The type population is illustrated on Figs 16–27 View FIGURES 1–27 and 53–60 View FIGURES 53–60 GoogleMaps .
Etymology:— The species is named after Polish writer, laureate of the 2018 Nobel Prize in Literature Olga Tokarczuk to honour her work.
Distribution:— Observed in few moss samples from West Seram. It was found in moss samples collected from various substrates and habitats like soil on cropped fields, secondary shrublands and concrete wall in city in which they form the largest population (ca. 10% share in assemblage).
Associated diatom flora:— H. amphioxys (Ehrenberg) Grunow (in Cleve & Grunow 1880: 103), Hantzschia minima sp. nov., Humidophila contenta (Grunow) Lowe, Kociolek, Johansen, Van de Vijver, Lange-Bertalot & Kopalová (2014: 357) , H. lacunosa (Moser, Lange-Bertalot & Metzeltin) Lowe, Kociolek, Johansen, Van de Vijver, Lange-Bertalot & Kopalová (2014: 358) , H. subtropica (Metzeltin, Lange-Bertalot & Garcia-Rodriguez) Lowe, Kociolek, Johansen, Van de Vijver, Lange-Bertalot & Kopalová (2014: 354) , Luticola intermedia (Hustedt) Levkov, Metzeltin & Pavlov (2013: 138) , L. mitis Levkov, Metzeltin & Pavlov (2013: 161) and Pinnularia borealis Ehrenberg (1843: 420) .
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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