Dicladia
|
publication ID |
https://doi.org/ 10.1371/journal.pone.0168887 |
|
DOI |
https://doi.org/10.5281/zenodo.12630686 |
|
persistent identifier |
https://treatment.plazi.org/id/E87C87F4-8345-FFF9-FDE6-78C5A811FE3E |
|
treatment provided by |
Felipe |
|
scientific name |
Dicladia |
| status |
|
Additional morphological characters in section Dicladia ?
A feature of C. laevisporus which occurs also in C. decipiens and C. elegans ( Figs 1G View Fig 1 and 4D View Fig 4 , arrowheads) is the presence of a non-silicified, V-shaped protrusion on the terminal valves ( Fig 8A View Fig 8 , arrowhead). Chaetoceros cf. lorenzianus from the Gulf of Panama shows the same feature [ 35]. This, together with the reduced external tube of rimoportula on the terminal valve (loc. cit. figs 77–80 in [ 35]) clearly places this material as belonging to C. laevisporus , The Vstructure was observed in C. decipiens by Rines & Hargraves [ 10] and Jensen & Moestrup [ 9], and may be present in more species of the section. Because of its non-silicified nature, the structure disappears in acid-cleaned material.
The ear-like structures at the marginal border of the apertures have been observed in all the studied strains, often in different shapes on the intercalary valves and terminal valves. In C. decipiens and C. mitra , the structures are very distinct, and they interconnect the edges of sibling valves on each side of the aperture ( Figs 3B, 3C View Fig 3 and 14F View Fig 14 ). In C. elegans , C. laevisporus and C. mannaii they are smaller, sometimes with overlapping parts ( Figs 6A, 6B View Fig 6 , 9A, 9B View Fig 9 , 11C and View Fig 11 11D). On the terminal valves, these structures vary in shape, as fringes in C. decipiens , C. laevisporus and C. mitra ( Figs 2F View Fig 2 , 9C View Fig 9 and 14G View Fig 14 ) and as slice-shaped structures in C. elegans and C. mannaii ( Figs 5D View Fig 5 and 11E View Fig 11 ). Based on the morphological variation observed, and the potential influence of environmental factors on the development of the structures, it is somewhat uncertain whether they can be used as a species-specific character.
Although our study was based on established strains, with the risk of culture condition artefacts affecting the morphology, we regard the present species delineation sound, due to the following: 1) strains were fixed soon after establishment and morphology is thus not very likely affected by artefacts, 2) several of the species are based on strains from separate locations showing the same morphology, 3) observations of field samples made it possible for us to identify the taxa based on the descriptions provided, 4) evaluations with previously published records of species belonging to Dicladia , for which electron micrographs are available (S3 Table) support our observations and 5) the study was performed over a long period, and subsequently established strains confirmed the species descriptions.
No known copyright restrictions apply. See Agosti, D., Egloff, W., 2009. Taxonomic information exchange and copyright: the Plazi approach. BMC Research Notes 2009, 2:53 for further explanation.