Rebecca billardiae Véron, 2023

Rebecca billardiae Véron sp. nov.

PhycoBank: 103627

Figs 7–9 View Fig View Fig View Fig

Diagnosis

In addition to the very pronounced angular or even cubic and non-metabolic shape that the new species can take, Rebecca billardiae sp. nov. is also distinguished by knob-scales with only one constriction instead of two, and a slightly shorter AF.

Etymology

The epithet given to the species is dedicated in honour of Professor Chantal Billard who, from the 70s to the 2010s, worked at the Université de Caen Normandie. Chantal Billard described 29 taxa including many haptophytes and she notably described D. virescens (Billard) Bendif & Véron.

Type material

Holotype FRANCE • Normandy, Baie des Veys, Canal de Carentan à la mer; 49°21′ N, 1°10′ W; alt. 0 m; 16 Feb. 2002; Fabien Jouenne leg.; Jacqueline Fresnel isol.; AC537; GenBank nos: JF714245 , JF718773 ; CN[537- 1NM] . GoogleMaps

Description

Motile cells not phototactic often ovate, some with strongly marked angular, even cubic forms. Less angular cells highly metabolic. Cell surface irregularly covered with stalked club-shaped knob-scales with a single constriction. Single golden-brown bilobed chloroplast with parallel and helicoidal stacks of three thylakoids; pyrenoid and eyespot absent. Posterior filipodia branched and beaded. Sinusoidal anterior flagellum covered with a tomentum of knob-scales, proximal part remaining naked. Reduced posterior flagellum bearing few knob-scales. Naked bipartite haptonema with a proximal part of constant diameter and a string of pearl-like structures on distal part. Non-swimming cells gather with twisting anterior flagellum.

Microscopy and related analysis

After nearly two months of culture on agar plates, no colonies developed. Apparently only the flagellate stage exists in this species and consists of freely swimming cells. Often ovate (7.5 µm ± 0.6 × 6.1 µm ± 0.6, n = 50), cells can display very variable shapes, including cubic forms but mainly cells have flat unequal sides forming acute or obtuse angles at the circumference ( Fig. 7A View Fig ). When cells stop swimming, they gather, seeming to nestle together as closely as possible while keeping their long flagella beating ( Fig. 7A View Fig ). The appendages emerge from a sub-apical ventral pit ( Figs 7E View Fig , 9A–E View Fig ) surrounded at its base by a membrane sheath containing cytoplasm ( Fig. 8C View Fig ). There is a very clear difference between the three appendages present: the long wavy sinusoidal AF measures between 9 and 17 µm (13.6 µm ± 3.7, n = 17) and is covered, except at its base, by a thick fluff of mono-constricted KS (45 nm × 22 nm, n = 2) ( Fig. 9F–G View Fig ), at the tip it is tapered. The PF is atrophied forming a ≈ 200 nm high hump ( Figs 8H View Fig , 9B, D View Fig ). The H is well developed (3.0 µm ± 0.6, n = 8) and consists of two sections of almost equal length, the proximal part being of constant diameter, in the shape of a twisted hook ( Fig. 9A–E View Fig ), while the distal part, smaller in diameter, presents regular constrictions with the appearance of a pearl necklace ( Fig. 9B, E View Fig ). The two flagella as well as the cell body ( Fig. 9C, E–G View Fig ), but unlike the H, are covered with knobscales in the form of pedunculated and clavate structure with a single median constriction ( Figs 8E–F View Fig , 9G View Fig ). The scales are sporadically distributed on the plasmic membrane and on the diminutive PF while on the long AF they may form a thick tomentum of several layers of lines oriented perpendicular to the flagellum axis and forming regular rows ( Fig. 9F–G View Fig ). On their posterior end, the cells develop beaded and branched filipodia often of great length, as long as the cells or the AF, and appearing to trail behind the cells ( Fig. 7B–D, F View Fig ).

Taxonomic outcome: a revised description of the genus Rebecca

Although retaining the basic characters of the genus Rebecca , the species described here, Rebecca billardiae Véron sp. nov., requires emendation of the description given by J.C. Green in Edvardsen et al. (2000).