Planothidium wetzelectorianum Kopalova, Zidarova & Van de Vijver 2016, sp. nov.

Planothidium wetzelectorianum Kopalová, Zidarova & Van de Vijver sp. nov. Figs 25–57 Etymology The species is named after our dear friends and colleagues Dr. Carlos Wetzel and Prof. Luc Ector [Luxembourg Institute of Science and Technology (LIST)] in recognition of the long and fruitful collabor...

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Bibliographic Details
Main Authors: Kopalová, Kateřina, Zidarova, Ralitsa, Vijver, Bart Van De
Format: Text
Language:unknown
Published: Zenodo 2016
Subjects:
Biodiversity
Taxonomy
Chromista
Bacillariophyta
Bacillariophyceae
Achnanthales
Achnanthidiaceae
Planothidium
Planothidium wetzelectorianum
Antarctic
Ross Island
Lowe
Johansen
Monolith
Holo
Ulu Peninsula
Monolith Lake
Antarc*
Antarctica
James Ross Island
Online Access:https://dx.doi.org/10.5281/zenodo.3853079
https://zenodo.org/record/3853079
Description
Summary:Planothidium wetzelectorianum Kopalová, Zidarova & Van de Vijver sp. nov. Figs 25–57 Etymology The species is named after our dear friends and colleagues Dr. Carlos Wetzel and Prof. Luc Ector [Luxembourg Institute of Science and Technology (LIST)] in recognition of the long and fruitful collaboration we had (and have) with these two excellent diatom scientists. Type Monolith Lake, James Ross Island, Antarctica, sample JRI-011 (63°53′52.3″S 57°57′29.0″W) (leg. L. Nedbalová), coll. date: 1 Feb. 2008 (holo-: slide no. BR–4437; iso-: slide PLP–293, University of Antwerp, Belgium). Description Light microscopy (Figs 25–52) Frustules in girdle view nearly straight to weakly curved (Fig. 25). Valves linear-elliptical becoming elliptical in smaller specimens. Valve margins convex with broadly rounded, never protracted apices. Neither cavum nor sinus present. Valve dimensions (n = 25): length 5.5–10.0 µm, width 2.6–3.2 µm. Raphe valve (Figs 26–38): axial area very narrow. Central area absent or weakly enlarged due to shortening of two central striae. Raphe straight, difficult to see in LM. Proximal raphe endings indistinct, straight. Distal endings not discernible. Transapical striae weakly radiate throughout the entire valve, clearly broader than the virgae, 14–15 in 10 µm. Areolae not discernible. Rapheless valve (Figs 39–52): axial area very narrow, linear. Central area asymmetrically enlarged due to shortening of one central stria, never forming fascia. Striae radiate throughout, more radiate near the apices, as broad as or broader than the virgae, 16–18 in 10 µm. Scanning electron microscopy (Figs 53–57) Raphe valve (Figs 53–55): raphe branches almost straight terminating in indistinct straight pores (Fig. 53). Distal fissures absent (Fig. 54). Raphe terminating immediately beyond the last stria (Fig. 54). Striae composed of 3–5 rows of small, rounded areolae (Figs 53, 54). Near the axial area, each stria composed of usually 4–5 rows of areolae, towards the valve margin only 3 rows of areolae present in the stria (Fig. 54). Virgae clearly narrower than the striae (Fig. 53). Striae only shortly continuing onto the mantle (Fig. 53). Internally areolae covered by star-shaped hymenes (Fig. 55). Virgae clearly thickened and raised. Proximal raphe endings short, deflected (Fig. 55). Distal endings terminating onto small helictoglossae (Fig. 55). Rapheless valve (Figs 56–57): axial area weakly lanceolate. Striae always composed of 3 rows of small, rounded areolae (Fig. 56). Towards the axial area, striae becoming narrower (Fig. 56). Virgae usually as broad or slightly narrower than the striae (Fig. 56). Asymmetric central area clearly observable. Internally areolae covered by hymenes (Fig. 57). Virgae clearly thickened (Fig. 57). Ecology and distribution Planothidium wetzelectorianum sp. nov. was only found on James Ross Island in the epilithon and epipelon of Monolith Lake on the Ulu Peninsula. This relatively large lake has an almost circumneutral pH (7.2), a rather lower conductivity value (120 µS/cm) and low nutrient and sulphate values. The samples are dominated by several taxa from the N. perminuta complex [ N. kleinteichiana Hamsher et al. (Hamsher et al. in press), N. velazqueziana Hamsher et al. (Hamsher et al. in press) and N. annewillemsiana Hamsher et al. (Hamsher et al. in press)], Humidophila australis (Van de Vijver & Sabbe) Lowe et al. (Lowe et al. 2014) and Achnanthidium australexiguum Van de Vijver in Taylor et al. (2014). Genus Psammothidium Bukht. & Round (Bukhtiyarova & Round 1996) : Published as part of Kopalová, Kateřina, Zidarova, Ralitsa & Vijver, Bart Van De, 2016, Four new monoraphid diatom species (Bacillariophyta, Achnanthaceae) from the Maritime Antarctic Region, pp. 1-19 in European Journal of Taxonomy 217 on pages 7-9, DOI: 10.5852/ejt.2016.217, http://zenodo.org/record/3840173 : {"references": ["Lowe R. L., Kociolek J. P., Johansen J. R., Van de Vijver B., Lange-Bertalot H. & Kopalova K. 2014. Humidophila gen. nov., a new genus for a group of diatoms (Bacillariophyta) formerly within the genus Diadesmis: species from Hawai'i, including one new species. Diatom Research 29: 351 - 360. http: // dx. doi. org / 10.1080 / 0269249 X. 2014.889039", "Taylor J. C., Cocquyt C., Karthick B. & Van de Vijver B. 2014. Analysis of the type of Achnanthes exigua Grunow (Bacillariophyta) with the description of a new Antarctic diatom species. Fottea 14: 43 - 51. http: // dx. doi. org / 10.5507 / fot. 2014.003", "Bukhtiyarova L. & Round F. E. 1996. Revision of the genus Achnanthes sensu lato. Psammothidium, a new genus based on A. marginulatum. Diatom Research 11: 1 - 30. http: // dx. doi. org / 10.1080 / 026924 9 X. 1996.9705361"]}

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