Trachelophyllum brachypharynx Levander, 1894

Jang, Seok Won, Vďačný, Peter, Shazib, Shahed Uddin Ahmed & Shin, Mann Kyoon, 2015, Morphology, Ciliary Pattern and Molecular Phylogeny of Trachelophyllum brachypharynx Levander, 1894 (Litostomatea, Haptoria, Spathidiida), Acta Protozoologica 54 (2), pp. 123-135 : 125-127

publication ID

https://doi.org/ 10.4467/16890027AP.15.010.2735

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https://treatment.plazi.org/id/130087D7-3239-7D19-FFB3-FC1B2267F6BA

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Felipe

scientific name

Trachelophyllum brachypharynx Levander, 1894
status

 

Trachelophyllum brachypharynx Levander, 1894 View in CoL

1894 Trachelophyllum brachypharynx – Levander, Acta Soc. Fauna Flora fenn. 12: 66, Taf. III, Fig. 1 View Figs 1–20 [reproduced here as Fig. 35 View Fig ] (original description).

1930 Trachelophyllum brachypharynx Levander, 1894 View in CoL – Kahl, Tierwelt Dtl. 18: 115, Fig. S. 104, 5 [reproduced here as Fig. 36] (revision).

Improved diagnosis (Korean population): Size about 380 × 40 μm in vivo, slightly contractile. Shape very narrowly fusiform, with a slightly to distinctly narrowed neck, gradually merging into a broadened trunk. Two ellipsoidal macronuclear nodules usually connected by a fine strand, with two to three broadly ellipsoidal micronuclei close to or attached to macronuclear nodules. Contractile vacuole terminal and comparatively small. Extrusomes filiform, slightly curved and with pointed ends, 30 µm long in vivo. On average, 24 ciliary rows, two anteriorly differentiated into an isostichad dikinetidal dorsal brush: row 1 composed of 40 dikinetids on average, row 2 of 33 dikinetids on average. Lepidosomes hat-shaped and about 4 × 3.7 µm in vivo.

Type locality: Levander(1894) discovered T.brachypharynx in brackish water from the Finnish shore.

Voucher material: Three slides with protargol-impregnated Korean specimens have been deposited in the Natural Institute of Biological Resources ( NIBR), Incheon, South Korea with the following registration numbers NIBRPR0000105674. The relevant specimens are marked with ink circles on the backside of the slides .

Gene sequence: The 18S rRNA gene sequence of the Korean population has been deposited in GenBank with the accession number KJ680555. The sequence is 1543 nucleotides long and has a GC content of 43.1%.

Etymology: Not given in the original description. The name is a composite of the Greek prefix brachy - (βραχυ-; short) and the Latin noun pharynx, referring to the short cytopharynx of the species. Because the species epithet stands in apposition to the generic name [Article 11.9.1.2 of ICZN (1999)], its ending need not agree in gender with the generic name with which it is combined and must not be changed to agree in gender with the generic name [Article 34.2.1 of ICZN (1999)].

Description of Korean population: Size in vivo about 330–445 × 35–45 µm, usually near 380 × 40 μm; morphometric data from protargol-impregnated specimens indicate shrinkage of body length by about 12% and inflation of body width by about 20% ( Table 2). Body flexible, up to 2:1 flattened dorsoventrally, and slightly contractile especially in neck region; both con- traction and extension occur slowly, thus exact body shape and size difficult to determine. Shape very narrowly fusiform both in vivo and after protargol impregnation, but prepared specimens appear stouter on average due to length shrinkage and width inflation (see above), i.e., body length:width ratio 9.7: 1 in vivo while 8.3:1 after protargol impregnation. Anterior end rather conspicuous due to pin-shaped to conical oral bulge and slightly broadened neck region below it, forming a head-like structure ( Figs 2–4 View Figs 1–20 , 22, 24 View Figs 21–32 ). Neck distinctly narrowed and usually slightly curved in extended specimens, while more or less inconspicuous in contracted ones; gradually merges into broadened trunk. Posterior body end typically narrowly rounded, sometimes point- ed ( Figs 1, 5, 13–21, 27, 29, 30 View Figs 1–20 View Figs 21–32 ).

Nuclear apparatus in middle trunk region; typically composed of two macronuclear nodules and several micronuclei. Macronuclear nodules broadly to narrowly ellipsoidal, on average ellipsoidal, with a length width ratio of 1.3–3.6:1, with an average near 2:1 both in vivo and after protargol impregnation; size about 32 × 17 µm in vivo, while 48 × 25 µm after impregnation; usually distinctly apart and connected by a fine strand, very rarely abutting (in one out of 30 specimens analyzed). Nucleoli numerous, small to medium-sized, rounded to narrowly ellipsoidal, evenly distributed over macronuclear nodules, well recognizable after protargol impregnation. Two to three micronuclei attached to macronuclear nodules at varying positions, rarely slightly distant from them, broadly ellipsoidal, i.e., approximately 4 × 3 µm in size after protargol impregnation ( Table 2; Figs 1, 5, 14–20 View Figs 1–20 , 26–28, 30 View Figs 21–32 ).

Contractile vacuole in rear end, comparatively small with respect to body size, i.e., about 14 µm across dur- ing diastole; sometimes a defecation vacuole near by ( Figs 1, 13–17, 19, 20 View Figs 1–20 , 27, 29, 30 View Figs 21–32 ). Extrusomes about 30 × 0.7 µm long in vivo, filiform with pointed and slightly curved ends, attached to oral bulge and scattered throughout cytoplasm, usually heavily impregnated with the protargol method used, rarely with small darker granules in weakly impregnated specimens ( Figs 5, 8, 9, 11 View Figs 1–20 , 22, 23, 25 View Figs 21–32 ). Cortex about 1 µm thick and flexible, without granules, covered by mucilaginous layer difficult to recognize in vivo and almost indistinguishable in protargol preparations; lepidosomes hat-shaped and about 4 × 3.7 µm in size ( Figs 10 View Figs 1–20 , 29 View Figs 21–32 ), no other lepidosome types were recognized due to the lack of SEM observations. Cytoplasm colourless, usually turbid, packed with lipid droplets about 1–10 µm in diameter ( Figs 21, 27, 28 View Figs 21–32 ). The organism glides slowly on the surface of microscope slide and swims by rotation about the main body axis.

Cilia about 13 µm long in vivo; arranged in an average of 24 meridional, equidistantly spaced rows; anterior end of somatic kineties not curved in oral region and thus forming an enchelyodonid pattern; some rows shortened anteriorly or posteriorly ( Table 2; Fig. 5 View Figs 1–20 ). Dorsal brush three-rowed and isostichad, i.e., row length difference <30%. Brush rows 1 and 2 dikinetidal; about 95 µm and 80 µm long, respectively, after protargol impregnation; composed of an average of 40 and 33 dikinetids, respectively; dikinetids more densely spaced in anterior brush portion than in posterior portion; associated with 5 µm long, slightly inflated bristles becoming rod-like in protargol preparations. Brush row 3 monokinetidal throughout, bearing about 1 µm long stumps; with a short anterior dikinetidal tail in a single malformed specimen ( Table 2; Figs 6, 7, 12 View Figs 1–20 , 31, 32 View Figs 21–32 ).

Oral bulge rather conspicuous because distinctly set off from body proper; pin-shaped in extended specimens, while conical in contracted cells; not covered by lepidosomes ( Figs 2–4, 11 View Figs 1–20 , 21, 22, 24, 27, 28, 30 View Figs 21–32 ). Pharyngeal basket not recognizable in vivo and in protargol preparations. Circumoral kinety at base of oral bulge, composed of comparatively widely spaced, more or less oblique dikinetids situated on top of somatic ciliary rows ( Figs 6, 7 View Figs 1–20 , 25, 32 View Figs 21–32 ).

NIBR

National Institute of Biological Resources

GC

Goucher College

Kingdom

Chromista

Phylum

Ciliophora

Class

Gymnostomatea

Order

Spathidiida

Family

Trachelophyllidae

Genus

Trachelophyllum

Kingdom

Chromista

Phylum

Ciliophora

Class

Gymnostomatea

Order

Spathidiida

Family

Trachelophyllidae

Genus

Trachelophyllum

Loc

Trachelophyllum brachypharynx Levander, 1894

Jang, Seok Won, Vďačný, Peter, Shazib, Shahed Uddin Ahmed & Shin, Mann Kyoon 2015
2015
Loc

Trachelophyllum brachypharynx

Levander 1894
1894
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