Pavlova Veron
- Dataset
- GBIF Backbone Taxonomy
- Rank
- GENUS
Classification
- kingdom
- Chromista
- phylum
- Haptophyta
- class
- Pavlovophyceae
- order
- Pavlovales
- family
- Pavlovaceae
- genus
- Pavlova
description
Figs 10 – 13 The unidentified strains of Pavlova (AC 248 and AC 250) were chosen for study because none had ever been examined within the sub-clade 3.2 (Bendif et al. 2011); both strains were found to have the same cytomorphological characteristics as the genus Pavlova. Description of strains AC 248 and AC 250 Non-motile cells are occasionally present in cultures, clustered to a few in a loose mucilage (Fig. 11 A) and showing a reduced flagellar appendage. Motile cells are slightly ovoid (5.9 µm ± 0.5 × 5.2 µm ± 0.4, n = 49), free swimming and highly metabolic (Fig. 10). Emergence of the appendages is from a narrow, shallow sub-apical pit (Fig. 12 A). Except at its base (Fig. 12 E), the AF (9.5 µm ± 3.8, n = 12) is coated with several layers of regularly spaced (Fig. 12 D) flat and ovoid KS (≈ 47 × 34 nm, n = 4) with a slight median constriction and with fine non-tubular hairs (Fig. 12 C). The smooth and short PF (1.9 µm ± 0.5, n = 6) is tapered distally (Fig. 12 B). The bipartite H (1.1 µm ± 0.2, n = 7) consists of a proximal part of constant diameter and a distal part of equal length and smaller diameter. The single cup-shaped parietal C (Fig. 11 B) contains bundles of thylakoids grouped in stacks three to five (Fig. 11 C). One end of the C, near the pit and F bases, contains a conspicuous orange E (Fig. 10 A – B) consisting of a cluster of osmiophilic globules located along its inner surface (Fig. 11 B, D). In the centre of the C, opposite the F base, is a PY forming an ovoid bulge at the cell surface (Figs 10 C, 11 B, 12 A). In transverse section, this protruding PY has the unusual aspect of a thick, wide utricle (Fig. 13 A – B, D) curving in on itself (Fig. 13 B – C) and entirely surrounded by the C-membrane bordered by the periplastic ER. Details of the pyrenoid of Pavlova spp. This particular form of PY, present in strains AC 248, AC 250 and also AC 33 (Fig. 13 D), had previously been observed in various species of Pavlova (i. e., P. pinguis, P. gyrans and P. granifera) but had not been retained as a marker of the genus. It turns out that with all strains of Pavlova for which we now have sections, this PY is a very distinctive feature of the genus. Indeed, at the time of the revision of the species P. pinguis, Green (1980) observed this pyrenoid very clearly in posterior position which he described as “ large and conspicuous, frequently being pushed into a bulge at the posterior end of the cell. ”. He also noted that this PY is “ ... frequently penetrated by a tubular invagination containing cytoplasmic material ... ”. In fact, his illustrations (see his figs 8, 44, 45) clearly show the curved shape of this PY in P. pinguis, as does fig. 7 F of Bendif et al. (2011). In their revision of P. gyrans, Green & Manton (1970) noted the central position of the PY within the C as well as its prominent bulging shape but did not examine thin-sections in TEM allowing them to see its curved shape. In their revision of the genus Pavlova they retained the fact that the C is bilobed with a prominent PY. Bendif et al. (2011) also showed this recurving PY in P. gyrans (see their fig. 6 G) but retained only the bulge it forms on the cell. For P. granifera, Green (1973) showed the same shape and organisation of the PY (see his fig. 4) with an extension this time towards the interior of the cell (see his fig. 35), a situation we also observed only in the case of Pavlova AC 250 (Fig. 13 C). Green (1973) did not retain the singular shape of this PY but reports in his revision of the P. granifera, that the PY is “ discretely bulging towards the interior of the cell ” (Green 1980). Bendif et al. (2011) also observe this pyrenoid in P. granifera but with less detail. The singular shape of this PY that we describe as campylotropous is indeed a distinctive feature of the species of the genus Pavlova since in Exanthemachrysis (the other genus of Pavlovophyceae with a bulging pyrenoid) the two species now described do not show such a recurving shape, but a simple sphero-ovoid PY (see for E. gayraliae: Gayral & Fresnel 1979: figs 11 – 12, 21 – 22 and Bendif et al. 2011: fig. 4 E; for E. fresneliae sp. nov.: Fig. 3). When Butcher (1952) erected the genus Pavlova, he noted the presence of “ leucosin bodies ” in the posterior part of the cells and his drawings (see Butcher 1952: pl. II, figs 35 – 37) clearly show what is now known to be this type of PY. He did not retain this character as distinctive of the genus, nor did Green (1967), as cited above, when describing P. pinguis and his subsequent revision of the genus Pavlova. Bendif et al. (2011) introduced a more detailed description of the single C in their revised description by stating that it had a “ posterior bulging pyrenoid and conspicuous eyespot on the inner surface near the flagellar pit ”. Taxonomic outcome: a revised description of Pavlova The particular and very characteristic shape of the pyrenoid in all species of Pavlova makes it a very distinctive feature that leads us to a revision of the genus description.
description
Fig. 13 Included species
description
Motile, free-swimming, highly metabolic cells with two unequal flagella and a short haptonema. Longer anterior flagellum with fine non-tubular hairs and tiny knob-scales (i. e., ʻdense bodiesʼ), which may or may not be present on the cell body. A pit or canal penetrating the cell near the long anterior flagellum. Chloroplast with a central, large and campylotropous pyrenoid bulging posteriorly and a conspicuous E located on the inner side near the flagellar bases. Non-motile cells in unstratified mucilage with incomplete appendages.
Name
- Homonyms
- Pavlova Butcher, 1952
- Pavlova Veron