Synedrosphenia gomphonema (Janisch & Rabenhorst) Hustedt, 1932 in Hustedt, 1931-1959
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https://dx.doi.org/10.3897/phytokeys.208.89913 |
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https://treatment.plazi.org/id/B17DD449-77D5-5434-8FAA-86E64856B68E |
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Synedrosphenia gomphonema (Janisch & Rabenhorst) Hustedt, 1932 in Hustedt, 1931-1959 |
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Synedrosphenia gomphonema (Janisch & Rabenhorst) Hustedt, 1932 in Hustedt, 1931-1959
Figs 4 View Figure 4 , 5 View Figure 5
References.
Janisch and Rabenhorst 1863, p. 13, pl. 2, fig. 6; Grunow 1877, p. 169, pl. 194, fig. 3a, b, c, d; Peragallo and Peragallo 1897-1908, p. 313, pl. 78, figs 1, 2 (as S. cuneata Grunow); Hustedt 1914 in Schmidt et al. (1874-1959), pl. 305, figs 32, 33; Hustedt 1931-1959, p. 231, fig. 723; Cheng and Gao 2011, figs 147, 148; Hein et al. 2008, pl. 14, fig. 3, pl. 15, fig. 1; Hernández-Almeida et al. 2013, figs 39-42 (as Synedrosphenia cuneata ).
Description from literature.
The valve shape as shown by both Grunow (1877) and Hustedt (1914, 1931-1959) has a basal part with nearly parallel sides that then tapers wider, flaring more abruptly near the apical pole. Hustedt gave length as 250-475 µm, maximum width 27-36 µm, basal and apical stria densities 12 and 14 in 10 µm, respectively. Striae change abruptly from parallel to radiate where the apical pole narrows. Transapical costae on the virgae often continuous across the valve and obscuring the midline; a longitudinal rib near each margin. Round et al. (1990: 444) noted that in Synedrosphenia stria density is higher on the girdle bands than on the valve (Fig. 10A View Figure 10 ), whereas in Climacosphenia it is lower on the girdle bands (Fig. 28A View Figure 28 ). This holds true for all our species.
Materials examined.
Guam GU44Y-13!, GU44BD-4!, GU44BH-5!, GU 44BJ-2!, GU44BJ-4!. Federated States of Micronesia: Chuuk: TK28!; Yap: Y42-1!. Marshall Islands: Jaluit, J5!.
Observations.
Frustules heteropolar, cuneate in both valve and girdle view, numerous small, oblong plastids (Fig. 4A-D View Figure 4 ). Valve margins parallel near basal pole, then gradually widening with slight flare below subrostrate apical pole (Fig. 4E, F View Figure 4 ). Length 255->414 µm, greatest width 27-29 µm, stria densities in 10 µm 13-14 basal, 14-16 apical. Striae parallel except changing abruptly to radial at apical pole with several interpolated short striae (Fig. 4B, E, G View Figure 4 ); areolae circular. Annulus near valve-mantle junction but clearly visible in both LM and SEM (Fig. 4B, E-I View Figure 4 ), continuous around the poles (Fig. 4E, H, J View Figure 4 ). Internal costae underlie annulus and virgae, except at the poles. Three girdle bands present (Figs 4F View Figure 4 , 5A View Figure 5 ). Valvocopula (Figs 4J, K View Figure 4 , 5B-E View Figure 5 ) with about 4 longitudinal rows of pores on pars exterior, decreasing to two near basal pole, pars interior with a fimbriate margin comprising a shelf with a single row of pores and a groove; poles with asymmetrical notch (Figs 4C, K View Figure 4 , 5A View Figure 5 ). Copula (Figs 4J, K View Figure 4 , 5A, F, G View Figure 5 ) pars interior with longitudinal line of pores along edge, the rest of pars interior plain with fringe of fimbriae, longer around apical and basal poles (Figs 4K View Figure 4 , 5G View Figure 5 ). Copula pars exterior abruptly narrowed at apical pole, pores arranged in ± decussate striae across the band reaching abvalvar margin and forming fimbriae; no pores around poles. Copulae in Guam specimens tending to form slits (Fig. 4D View Figure 4 and Fig. 5A View Figure 5 black arrows), not observed in Chuuk specimens (Fig. 5F, G View Figure 5 ). Pleura visible as apical cap (Fig. 4F View Figure 4 ), seemingly lost during cell division (Fig. 5A View Figure 5 ; compare Fig. 12E, F View Figure 12 ).
A frustule of Sceptroneis cuneata in remnants of Grunow 639 (Fig. 6 View Figure 6 ), showed the valve and copula. Valve stria densities were lower than in our material: basal 12, apical 13 in 10 µm. The copula differed in having a hyaline abvalvar border with no tendency to form fimbriae (Fig. 6D, E View Figure 6 ) and a longer hyaline area at the basal pole (Fig. 6E View Figure 6 vs Fig. 4F View Figure 4 ). The apical cap of the pleura may be smaller than in our specimens. A valve apical pole with part of the valvocopula (Fig. 6F, G View Figure 6 ) had 11 striae in 10 µm and there were no pores in the exterior, in contrast to Guam specimens.
Taxonomic comments.
There are too many differences from Grunow’s specimens to identify our species as Sceptroneis cuneata . We also cannot confirm whether our specimens match Synedrosphenia gomphonema without SEM of authentic specimens. The taxonomy of Synedrosphenia is convoluted. As explained by Fourtanier and Kociolek (1999):
" Originally described (and validly published) as a subgenus of Synedra : Synedra subgenus Synedrosphenia H. Peragallo in H. and M. Peragallo 1900 [ Peragallo and Peragallo 1897-1908], p. 308, 312. Three species were included, Sceptroneis [ Synedra ] Synedra cuneata Grun., S. clavata Grev. and S. dubia Grun. and no type was designated. Although Azpeitia 1911, p. 220 introduces the name as "El genero ó subgenero Synedrosphenia " (the genus or subgenus Synedrosphenia ), he treats it as a genus when describing his new species Synedrosphenia giennensis . Although S. giennensis Azpeitia is the only species formed as binomial with Synedrosphenia in Azpeitia 1911, Azpeitia, in his treatment of Synedrosphenia also clearly included the 3 species that constituted Peragallo’s subgenus (but did not make transfers to genus Synedrosphenia ). No type was designated by Azpeitia. The generic name cannot be attributed directly to Azpeitia because he did not provide a generic description. The authorship of Synedrosphenia is therefore "(H. Peragallo in H. Perag. and M. Perag.) Azpeitia," and the type has to be chosen among the species originally included in the subgenus by Peragallo. The choice of S. giennensis as the type species by Round, Crawford and Mann (1990) p. 444 and 704 is therefore untenable. "
Hustedt (1931-1959) very clearly synonymized Sceptroneis cuneata into Synedrosphenia gomphonema (1931-1959, fig. 723, pp. 220-221 in Jensen’s (1985) translation, pp. 241-242 in orig.). The drawing in Janisch and Rabenhorst (1863) is, as Hustedt (1931-1959) said, "very schematic and erroneous to be sure," showing a prominent sternum, but Hustedt based his synonymy on examination of many specimens from both Janisch and Grunow, both of whom worked on collections from Honduras. The other two species, S. clavata and S. dubia , are poorly known, perhaps not seen since their original descriptions, both characterized as very rare, and perhaps not even attributable to this genus. We thus propose Sceptroneis cuneata Grunow as the lectotype, below, recognizing the synonymy with S. gomphonema as the current name for the Honduras species, but pending evidence from Janisch and Rabehnorst’s materials to test whether our species is the same. Synedrosphenia giennensis Azpeitia (1911, p. 219, pl. 6, figs 1, 2) was based on LM of a single clavate valve, maximum width ¼ of the way from one end, costae between striae not always continuous across the valve. Azpeitia made no mention of longitudinal costae. The dimensions were 195 × 35 µm, 12 striae in 10 µm, areolae 19-20 in 10 µm. This does appear to belong in Synedrosphenia but certainly needs further study.
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.
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