Anteholosticha pseudomonilata, Li, Liqiong, Khan, Sadia Nawroz, Ji, Daode & Shin, Mann Kyoon, 2011
publication ID |
https://doi.org/ 10.5281/zenodo.201911 |
DOI |
https://doi.org/10.5281/zenodo.5663735 |
persistent identifier |
https://treatment.plazi.org/id/AA7387BC-D921-FF96-00DC-FAEF12961727 |
treatment provided by |
Plazi |
scientific name |
Anteholosticha pseudomonilata |
status |
sp. nov. |
Anteholosticha pseudomonilata n. sp.
( Figs 1–3 View FIGURE 1 View FIGURE 2 View FIGURE 3 ; Tables 1–3 View TABLE 1 )
Diagnosis. Grey coloured Anteholosticha , 110–190 µm × 40–80 µm in vivo; contractile vacuole mid-body positioned; 29–41 adoral membranelles; 1 buccal, 3 frontal, 2 frontoterminal, 2 pretransverse and 8–11 transverse cirri; midventral complex composed of 10–16 pairs of zigzagging midventral cirri, extending posteriorly to slightly ahead of pretransverse cirri; left and right marginal row with about 28 and 29 cirri, respectively; 4 entirely long dorsal kineties; cortical granules colourless and pigment-like, 0.5 µm across, longitudinally arranged in more or less short rows on whole cortex except along dorsal kineties and cirral rows; 8–12 macronuclear nodules located left of midline.
Type locality. Brackish water from the Taehwagang River (35°32ʹ56"N; 129°20ʹ11"E) near Ulsan Bay which flows into the East Sea, at Ulsan, South Korea.
Type slides. Two permanent slides of protargol-impregnated specimens are deposited as a holotype and a paratype in the collection of National Institute of Biological Resources ( NIBR), Incheon, South Korea and Department of Biology, University of Ulsan, Ulsan, South Korea and with registration numbers NIBRPR0000102719 and LLQ- 20091123 -05-02, respectively.
Etymology. The species-group name pseudomonilata is a composite of the Greek adjective pseudo- (wrong, lying) and the name of the most similar congener Anteholosticha monilata which resembles our form in having the macronucleus-nodules forming a chain (see details about etymology of monilata in Berger 2006). The ending of the species-group name is defined (fixed) via the genus.
Description. Size mostly 110–140 µm × 40–60 µm in vivo. Body shape slightly variable and elliptic-like, anterior portion conspicuously narrowed and forming a slightly cephalized appearance, while rear end broadly rounded; left margin more convex than right part ( Figs. 1 View FIGURE 1 A; 2A, 2B). Body flexible, only slightly contractile. Dorsoventrally flattened about 2:1. Pellicle thin and soft. Cortical granules colourless and spherical in shape, about 0.5 µm in diameter, basically arranged in more or less longitudinal short rows on whole cortex except along cirral rows and dorsal kineties with some single ones sparsely distributed throughout the cell surface ( Figs. 1 View FIGURE 1 C; 2C). Food vacuoles difficult to recognize except for many yellowish to brownish light-reflecting crystals scattered within transparent cytoplasm. Two groups of inclusions remarkably recognized, which are globular and concave like, respectively, 2–5 µm in diameter, consistently situated and give rise to darker colour in both ends of the cell ( Figs. 1 View FIGURE 1 A, 1B; 2E). 8–12 colourless macronuclear nodules globular to ellipsoidal shaped, serially distributed in mid-portion of body left of midline which can be easily observed under middle to high magnification in vivo; individual nodules, in impregnated specimens, 8–20 µm× 8–18 µm, containing small nucleoli ( Figs. 1 View FIGURE 1 E; 2D, 2F). Usually two micronuclei ovoid in shape located separately among the macronuclei, 5–10 µm × 3–8 µm across after fixation ( Figs. 1 View FIGURE 1 E; 2D, G). Single contractile vacuole positioned in mid-body near left margin with two long collecting canals ( Fig. 1 View FIGURE 1 A).
Locomotion relatively slow, but crawling without pause. Body apparently flexible, folded or twisted when crawling on bottom of Petri dish or drilling through debris.
Adoral zone of membranelles occupied 30.3–41.7% of body length in fixed specimens ( Table 1 View TABLE 1 ), base of longest membranelles about 9 µm long. Distal end of AZM terminated at right margin of cell and bending posteriad at about anterior 1/3 of buccal field ( Figs. 1 View FIGURE 1 D; 2F). Paroral and endoral membrane almost the same length, likely both composed of monokinetids, distinctly intersecting each other and terminating anteriorly at about 2/5 of buccal field ( Figs. 1 View FIGURE 1 D; 2H). Single buccal cirrus situated near the intersection of undulating membranes ( Figs. 1 View FIGURE 1 D; 2H). Three slightly enlarged frontal cirri lying in anterior frontal area with right one very close to the distal end of adoral zone of membranelles ( Fig. 2 View FIGURE 2 H). Consistently two frontoterminal cirri near and right to the distal end of adoral zone of membranelles ( Fig. 2 View FIGURE 2 H). 8–11 relatively undeveloped transverse cirri arranged in J-shaped row, ca. 15 µm long in vivo, slightly protruding beyond rear end of cell ( Figs. 1 View FIGURE 1 A, 1D; 2G). Always two pretransverse ventral cirri located close to the right transverse cirrus ( Fig. 1 View FIGURE 1 D). Midventral complex composed of 10–16 pairs of midventral cirri arranged in a typical zig-zag pattern, continuing with frontal cirri and terminated ahead of the level of the left-most transverse cirrus ( Figs. 1 View FIGURE 1 D; 2F, 2G). The last midventral cirri often dispersedly situated other than in a zigzagging pattern ( Fig. 1 View FIGURE 1 D). Two marginal rows distinctly separated posteriorly ahead of cell end, the cirri within which about 10 µm long and never protruding the margins in life; 23–33 cirri in left row, while 24–34 in right one ( Figs. 1 View FIGURE 1 A, 1D; 2A, 2F). Invariably four complete dorsal kineties with dorsal cilia about 3 µm long. Usually two “extra” dorsal bristles present on the anterior right margin of the body ( Figs. 1 View FIGURE 1 E; 2C).
Abbreviations: CV = coefficient of variation in %, Max = maximum, Mean = arithmetic mean, Median = median value, Min = minimum, n = number of individuals examined, SD = standard deviation, SE = standard error of arithmetic mean.
Comparison. Currently, over 40 morphotypes have been included in the genus Anteholosticha , most of which need further studies and redescription ( Berger 2006). As one of the most significant criteria for species circumscription, nuclear apparatus (number, arrangement) usually can be easily detected and described even in the cursory data, furthermore, the diversity of which is quite high in Anteholosticha , therefore the congeners resemble our form in having a series of macronuclear nodules should be compared here.
Morphologically, the most similar congener Anteholosticha monilata ( Kahl, 1928) Berger, 2003 (type species) resembles A. pseudomonilata n. sp. in several features (e.g. body shape, contractile vacuole, ciliary arrangement, the number of membranelles and transverse cirri), however, differs from the latter in having 6 or more dorsal kineties (vs. 4), 19–27 midventral pairs (vs. 10–16), 4–23 macronuclear nodules (vs. 8–12), extrusomes (vs. absent), and no cortical granules (vs. present) thus both forms can be distinctly separated (e. g. Augustin & Foissner 1992; Berger 2006).
Likewise, other similar Anteholosticha spp., namely, A. distyla ( Buitkamp, 1977) Berger, 2003 , A. xanthichroma ( Wirnsberger & Foissner, 1987) Berger, 2003 , A. australis ( Blatterer & Foissner, 1988) Berger, 2003 , A. mancoidea ( Hemberger, 1985) Berger, 2003 , A. randani ( Grolière, 1975) Berger, 2003 , A. sphagni ( Grolière, 1975) Berger, 2003 , A. sigmoidea ( Foissner, 1982) Berger, 2003 , and A. extensa ( Kahl, 1932) Berger, 2003 can be easily distinguished from A. pseudomonilata n. sp. by a number of features including habitat, body shape, size, the position of the contractile vacuole, cortical granules, and morphometric data (details see Table 2) ( Berger 2003, 2006; Blatterer & Foissner 1988; Borror & Wicklow 1983; Buitkamp 1977; Foissner 1982; Grolière 1975; Hemberger 1985; Kahl 1932; Wirnsberger & Foissner 1987).
SSU rRNA gene sequence analysis: The length of the complete SSU rRNA gene sequence of Anteholosticha pseudomonilata n. sp. is 1772 bp; the nucleotide sequence has been given the accession number HM568416 View Materials . The GC content is 44.75%, which is within the range of other ciliates. Among the dataset of 1795 total positions, a total of 244 mismatched nucleotides are revealed from the alignment of six Anteholosticha species ( Fig. 3 View FIGURE 3 ). Of these, 24 positions are unique to A. pseudomonilata . SSU rRNA gene sequence similarity among A. pseudomonilata and the other five species are listed in Table 3.
The SSU rRNA gene sequence comparison study clearly exhibits a considerable inconsistency of Anteholosticha pseudomonilata from other five congeners. Pairwise sequence similarities between A. pseudomonilata and its congeners range from 92.38% to 96.56% ( Table 3). The comparatively high sequence discrepancy (3.44%) with the most similar morphotype A. monilata strongly suggests our form as a distinct species. Anteholosticha monilata is the type species indicating that the new species is a true member of the genus. By contrast, some other species seem to be not congeneric as indicated by the high differences in the structural similarity ( Table 3). This supports the assumption by Berger (2003, 2006) that members of the genus Anteholosticha are likely not to be a monophyletic group. These higher ranges of molecular divergence also coincide with the statement of morphological analysis to establish A. pseudomonilata as an individual species of the genus Anteholosticha .
A. pseudomonilata A. monilata A. parawarreni A. scutellum A. multistilata A. monilata 96.56
A. parawarreni 93.07 93.12
A. scutellum 93.11 92.88 97.37
A. multistilata 94.67 94.55 94.09 94.58 A. manca 92.38 93.15 91.32 91.52 93.45
Character Body, length | Min 113 | Max 185 | Median 150.0 | Mean SD 147.7 15.4 | SE 2.8 | CV 10.4 | n 30 |
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Body, width Body length:width, ratio | 45 2.1 | 80 3.2 | 56.0 2.5 | 59.2 9.5 2.5 0.3 | 1.7 0.1 | 16.0 12.0 | 30 30 |
Length of adoral zone | 42 | 61 | 52.5 | 53.5 5.1 | 0.9 | 9.5 | 30 |
NIBR |
National Institute of Biological Resources |
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