Williamsella iraqiensis Al-Handal et Kociolek, 2016
publication ID |
https://doi.org/ 10.11646/phytotaxa.244.3.5 |
persistent identifier |
https://treatment.plazi.org/id/B23787E6-5822-FFFC-FF70-E1ECFCADFF03 |
treatment provided by |
Felipe |
scientific name |
Williamsella iraqiensis Al-Handal et Kociolek |
status |
sp. nov. |
Williamsella iraqiensis Al-Handal et Kociolek , sp. nov. (LM Figs 2–7 View FIGURES 2–7 , SEM Figs 8–21 View FIGURES 8–14 View FIGURES 15–22 )
Cells solitary with four plate-like plastids distributed in the middle third of the valve ( Fig. 7 View FIGURES 2–7 ). Valves linear, narrow, with slightly flattened rounded apices ( Figs 8, 9, 12 View FIGURES 8–14 , 22 View FIGURES 15–22 ), 40–60 μm long, 2–3 μm wide at the center and 1.0–1.5 μm at the apices (n = 50). External valve face flat. Sternum distinct in the middle but becoming very narrow towards the apices ( Figs 8, 12 View FIGURES 8–14 , 18 View FIGURES 15–22 ). Sternum is wider on the internal side of the valve and not narrowing near the apices ( Figs 9, 10, 11 View FIGURES 8–14 ). Striae uniseriate, opposite, parallel, 24–30 in 10 μm, composed of 4–6 areolae in the middle and 2–3 areolae near the apices ( Fig. 8 View FIGURES 8–14 ). Striae do not reach valve margins externally. Areolae round and poroid. Areolae are covered with a velum ( Fig. 13 View FIGURES 8–14 ). An apical pore field is present on each apex, lying in a very shallow ocellimbus and composed of three rows (rarely four) of porelli, 5–8 in each row ( Figs 13, 14 View FIGURES 8–14 , 17 View FIGURES 15–22 ). Rimoportula single, located transapically at the central axis of the valve at a distance of two straie from valve apex, externally as a rectangular opening (very rarely oblique) and as a slit surrounded by convex, dome-like labiate processes internally ( Figs 10, 12 View FIGURES 8–14 , 16 View FIGURES 15–22 ). Cingulum composed of one band with fine pores, 16–20 in 10 μm ( Figs 19, 20, 21 View FIGURES 15–22 ).
Type:— IRAQ. Sawa Lake, 31º 18’ N, 45º 00’ E, 2 m a.s.l., Al-Handal, 13 May 2013 (holotype: BM!, individual on slide 101/809, deposited in the Natural History Museum, London, UK, here illustrated as Fig. 2 View FIGURES 2–7 . Isotype: slide no. SL52020, Department of Marine Biology, Marine Science Center, Basra, Iraq).
Etymology:—The epithet iraqiensis refers to the geographic location where this second Williamsella species was found.
Differential diagnosis: — Williamsella iraqiensis is similar to W. angusta but can be readily distinguished from it under LM by the relatively wide sternum which results from shorter striae along valve margin. In the later species the axial area is very narrow and linear. Transapical striae are denser in W. iraqiensis as compared to W. angusta (24–30 in 10 μm versus 17–20 in 10 μm, respectively). Areola number in each stria is much lower in W. iraqiensis than in W. angusta . The apical pore field in both species appears similar in the shape of the pores but their number is different. It is wider in W. iraqiensis and is not located deep inside the ocellimbus as in W. angusta . Shape and structure of the copulae look also similar.
Under light microscope, W. iraqiensis may look similar to some taxa belonging to Fragilaria , particularly in valve outline and striae organization. Examination of live material of this species showed absence of any colonial mode of life, a criterion that is currently accepted for recognizing the species of Fragilaria ( Round et al. 1990) . SEM images of many specimens did not show any spines or other structures to support chains or other colonial forms.
Williamsella , in general, shares morphological similarities under LM such as valve outline and striation pattern with several other genera, such as Tabularia , Ulnaria or Synedropsis . However, large differences in ultrastructure between Williamsella and these genera can be seen under SEM; including the fine structure and arrangement of striae, the apical pore field and the structure and position of the ocellimbus, the number and shape of the rimoportula, and the number and structure of the cingulum bands. In their description of Williamsella, Graeff et al. (2013) detailed some ultrastructural features which set this genus apart from other allied general. Most important in distinguishing this genus from those listed here is the external occlusions on the areolae, a feature absent in these other taxa. Table 1 summarizes the main characteristics of these genera in comparison to Williamsella .
Ecology: — Williamsella iraqiensis was common on the sediment of Sawa Lake, Iraq. Salinity of the lake water during sampling was 34 psu indicating highly saline conditions of an inland water impoundment. In addition to high salinity, the lake water is characterized by high concentrations of gypsum (CaSO 4) which almost reached saturation levels (6952 ppm, Al-Handal et al. 2014). Some healthy frustules of W. iraqiensis were also found as epiphytes on Chara sp. , a submerged macrophyte widely distributed in the lake.
BM |
Bristol Museum |
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