Heterothallic auxosporulation, incunabula and perizonium in<i>Pinnularia</i>(Bacillariophyceae)

Poulíčková, Aloisie; Mayama, Shigeki; Chepurnov, Victor A.; Mann, David G.

doi:10.1080/09670260701476087

Cited by 47 publications

(45 citation statements)

References 43 publications

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“…This sequence of events is similar to what has been reported for some other diatoms, including the benthic raphid diatoms Seminavis robusta (Chepurnov et al, 2002) and Pinnularia cf. gibba (Poulíčková et al, 2007), but different patterns have been reported within raphid diatoms (reviewed by Chepurnov et al, 2004). As an example, only one uninucleate gamete is formed in each gametangium of the benthic freshwater genus Sellaphora (Mann, 1989), while two uninucleate gametes are produced in each gametangium of Pseudo-nitzschia pungens (Chepurnov et al, 2005).…”

Section: Transition From the Vegetative To The Sexual Phase And Formamentioning

confidence: 99%

Genetic characterization and life cycle of the diatomFragilariopsis kerguelensis

Fuchs

Scalco

Kooistra

et al. 2013

European Journal of Phycology

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The planktonic diatom Fragilariopsis kerguelensis plays an important role in the biogeochemical cycles of the Southern Ocean, where remains of its frustules form the largest deposit of biogenic silica anywhere in the world. We assessed the genetic identity of 26 strains, from cells collected at various sites in the Southern Ocean, using three molecular markers, LSU and ITS rDNA and rbcL. The LSU sequences were identical among the tested strains, ITS sequences were highly similar, and only one base pair difference was detected among the rbcL sequences. These results, together with a large number of successful mating experiments demonstrated that the strains belong to a single biological species. We investigated the mating system and life cycle traits of F. kerguelensis. Cell size diminished gradually in clonal strains. Gamete formation only occurred when strains of opposite mating type -within a cell size range of 7-36 µm -were mixed together. Two binucleate gametes were formed in each gametangium and gamete conjugation produced a zygote that had four nuclei and was surrounded by thin siliceous scales. Two out of the four nuclei subsequently degenerated and the zygote expanded to form an auxospore surrounded by a transverse and a longitudinal perizonium. Staining with the fluorochrome PDMPO provided for the first time a clear demonstration that the longitudinal perizonium is formed after auxospore expansion is complete. Initial cells produced within the mature auxospores were 78-101 µm in length. Various authors have shown that the average valve size of F. kerguelensis varies in sediment samples collected in regions and seasons with different primary production regimes and this parameter has thus been proposed as a biological proxy for palaeoproductivity. A better understanding of the life cycle of F. kerguelensis should help the design of future investigations aimed at testing the link between cell size distribution in the natural environment and the role that environmental factors might have in the regulation of population cell size.

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Section: Transition From the Vegetative To The Sexual Phase And Formamentioning

confidence: 99%

Genetic characterization and life cycle of the diatomFragilariopsis kerguelensis

Fuchs

Scalco

Kooistra

et al. 2013

European Journal of Phycology

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“…Thus, the polarity shown in the development of the incunabula, from the poles inwards, is opposite to that of the transverse perizonium. No polarity was detected in the other incunabula studied recently by SEM, in Nitzschia fonticola (trobajo et al 2006) and Pinnularia (Poulíčková et al 2007), though it would be more difficult to detect the direction of overlaps in the systems of narrow strips found in these diatoms. Mann (1984) considered that, because the caps of Neidium bore the same spatial and temporal relationship to the auxospore and perizonium as the scales of Rhabdonema, the caps were probably "homologous with the scales of Rhabdonema and centric auxospores", but that "electron microscopy will be necessary to determine to what extent the homology is reflected in structure as well as position."…”

Section: Discussionmentioning

confidence: 95%

“…Grun. (trobajo et al 2006) and Pinnularia (Poulíčková et al 2007) suggests that Rhoicosphenia and Caloneis should be reinvestigated. kaczMarSka et al (2000) showed the presence of small circular scales during auxosporulation in Pseudonitzschia multiseries (haSlE) Hasle and claimed that they were present before plasmogamy on the passive (female) gamete.…”

Section: Discussionmentioning

confidence: 99%

“…Both the caps and the plates have fimbriate edges, thus resembling not only the perizonial bands of various pennate diatoms (e.g. Mann 1982, Sato et al 2004, 2008aPoulíčková & Mann 2006, Poulíčková et al 2007) but also the incunabular scales of some other pennate diatoms (e.g. Sato et al 2004Sato et al , 2008a, and the scales and properizonial bands of centric diatoms (von StoSch 1982).…”

Section: Discussionmentioning

confidence: 99%

“…These silica elements are parts of the 'incunabula', a term (from the Latin for 'swaddling clothes') introduced by trobajo et al (2006) for the "organic and inorganic components (including silicified elements) of the auxospore wall that surround, cover, or invest the perizonium or properizonium as the auxospore expands". In Rhabdonema and Gephyria, the incunabula contain approximately circular scales, consisting of a central annulus subtending an irregular system of branching ribs (von StoSch 1982;Sato et al 2004), whereas in Nitzschia (trobajo et al 2006 and Pinnularia (Poulíčková et al 2007) there are narrow plain strips of silica, orientated approximately at right angles to the axis of the auxospore.…”

Section: Introductionmentioning

confidence: 99%

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Incunabula and perizonium of Neidium (Bacillariophyta).

Mann

Poulíčková²

2009

Fottea

Self Cite

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Abstract:The incunabula and perizonium of a paedogamous Neidium deme (in the N. ampliatum species complex) are described in detail using light and scanning electron microscopy. The incunabula contain two types of element, both heavily silicified. At each pole of the ellipsoidal zygote there is a large cap, which almost abuts its twin on either side of the zygote, beneath the gametangial valves. The caps are deeply and widely notched on their 'girdle' sides (i.e. on the sides of the zygote that underlie the gametangial girdle) and the space created by the notches is filled by large, almost triangular incunabular plates. Thus, on each side of the equator of the zygote there is one cap element and two plate elements. The caps overlap the plates and must precede them ontogenetically, creating a polarity opposite to that of the transverse perizonium. Both elements are sparsely and irregularly porous and have fimbriate margins. During auxospore expansion, the two sets of incunabular elements separate at the equator of the cell and the transverse perizonium is formed beneath, the incunabula continuing to form a tight seal around the perizonium and apparently constraining development to form a linear tube. All transverse perizonial bands possess delicate fimbriae and are open, even the primary band, which is slightly wider than the bands on either side and bears a median ridge. The open ends of the secondary bands sweep strongly towards the centre of the auxospore, producing a very obvious and wide suture. In expanded auxospores, a robust longitudinal band is found beneath the suture, which has coarser fimbriae than the transverse bands. Possible interpretations of the incunabular elements are discussed: no structures similar to the incunabular plates have been described in other diatoms, but it is known that related genera (Biremis, Muelleria) also have large cap-like elements in their incunabula. The open nature of the primary transverse perizonial band is unusual in raphid diatoms, but auxospore coverings have been investigated ultrastructurally in too few diatoms to permit detection of evolutionary trends.

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Diatom Sexual Reproduction and Life Cycles

Poulíčková

Mann

2019

Diatoms: Fundamentals and Applications

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Heterothallic auxosporulation, incunabula and perizonium inPinnularia(Bacillariophyceae)

Cited by 47 publications

References 43 publications

Genetic characterization and life cycle of the diatomFragilariopsis kerguelensis

Genetic characterization and life cycle of the diatomFragilariopsis kerguelensis

Incunabula and perizonium of Neidium (Bacillariophyta).

Diatom Sexual Reproduction and Life Cycles

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