Rhabdopleura grimaldii Jullien, 1890
publication ID |
https://doi.org/ 10.11646/zootaxa.5424.3.3 |
publication LSID |
lsid:zoobank.org:pub:524CF65D-F877-42E1-B983-EDC7D3ED1623 |
DOI |
https://doi.org/10.5281/zenodo.10821337 |
persistent identifier |
https://treatment.plazi.org/id/0381104D-FFCE-B95B-EAF0-FAC2F0E9FE52 |
treatment provided by |
Plazi |
scientific name |
Rhabdopleura grimaldii Jullien, 1890 |
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Rhabdopleura grimaldii Jullien, 1890 View in CoL ( Figs 4C, D View FIGURE 4 ; 6A‒D View FIGURE 6 )
Type locality. Off the southeastern tip of Pico Island, Azores, 318 m, on dead shell and bryozoans [38.4000° N, 28.0239° W in Stebbing (1970a, p. 211), the original Paris meridian corrected to Greenwich] GoogleMaps .
Key features. Inception of ringed erect tubes is indirect. Jullien (1890) described the 1‒2 cm-long colony as consisting of a primary bifurcating creeping tube (‘stolon’) containing the pectocaulus (‘filet chitineux’), with short blind side branches on either side, each comprising an adherent portion (‘zooecium’) with zigzag sutures, terminating in an erect ‘péristomie’, with annular fusellar collars. This arrangement corresponds to that in R. normani View in CoL , i.e. zooidcontaining side tubes are proximally adherent before bending at an angle upwards. ‘Zooecia’ are said to be a little wider than the stolon. The main distinguishing character of this species was described as two very thin tubes (‘tubes très fins’) in the adherent proximal parts of the blind side branches, reflected externally as two dark-brown lines (‘lignes brun foncé), the distal ends of which converge without meeting at the proximal end of the ‘péristomie’ ( Fig. 6C, D View FIGURE 6 ). Oblique sutures with zigzag angles were described as restricted to the ‘zooecium’; the primary creeping tube itself was ‘dépourvue de stries’ (free of streaks), with zooids retracting into the adherent portion of the side branches as in R. normani View in CoL . Annulated erect tubes were mostly missing from his material; some are broken and only one appears intact in his drawing ( Fig. 4C View FIGURE 4 , rt).
Comment. The Muséum National d’Histoire Naturelle (MNHN), Paris, was contacted in the hope that photos could be made of the species (MNHN-IB-2014-386). Dr Pierre Lozuet of the Collections Department ( Direction des Collections ) sent reflected-light images, which included two high-resolution close-ups, with scale bars. The unique syntype is on a worm tube. It is dry and the overall colony seems to bear little resemblance to Jullien’s original illustration. Additionally, most of the creeping tubes are highly transparent and reflective, rendering details like fusellar sutures problematic. Notwithstanding, the images yielded enough information to discern key features and to make some measurements .
Primary creeping tubes (convexity) are 146‒167 (158) μm wide (n = 5), with pectocaulus width 21‒44 (31) μm (n = 8). Contra Jullien, primary creeping tubes have surface fusellar sutures; a sequence of nine point-to-point zigzag angles was measured, ranging from 63‒76°, with mean 70° and mode 65°. In contrast, the adherent parts of blind side branches have a higher mean convexity width [134‒201 (177 μm), n = 5]. The most striking character, which is unique to this species, is the pectocaulus of an adherent side branch. It is defined by a pair of thin brown lines (its side walls) that converge toward the base of the erect ringed tube ( Fig. 6C, D View FIGURE 6 ). Because the central part is thin-walled and clear, Jullien (1890) and Jullien & Calvet (1903) interpreted the thin brown lines as very fine tubes. These authors correctly illustrated an apparent ‘gap’ ( Fig. 4D View FIGURE 4 ) at the point where the brown pectocaulus diverges from the creeping tube into a side branch. At this point, the pectocaulus apparently becomes thinner, wider, and nearly transparent as it transitions into the side branch, with only its side walls clearly showing. Schepotieff’s (1907, pl. 33, figs 5, 9) cross sections of the pectocaulus in R. normani show side walls thickening at their base; this would account for the frontal appearance, in R. grimaldii , of the paired thin lines, each being a side wall. In this species, pectocaulus width prior to distal narrowing is 51‒74 (63) μm; the side walls (the so-called ‘tubes très fins’) are 12‒14 (13) μm (n = 4), too narrow for them to constitute converging paired pectocauli (an alternative interpretation). Presumably the distal tapering of the pectocaulus allows it to converge into the gymnocaulus of the zooid. [Actual zooids were not seen, however.] Erect ringed tubes are 92‒117 (104) μm diameter between fusellar collars (n = 8) and fusellus height is c. 19‒22 μm (n = 2).
Surface fusellar sutures of the adherent parts of side branches differ from those on primary creeping tubes, being closer together and having smaller zigzag angles. Two sequences of nine zigzag angles were measured, collectively ranging from 33‒60°, mean 46°, mode 35°. [In Jullien’s drawings, zigzag angles on side-branches are 40‒54°, mean 47°, mode 50° (n = 18), suggesting that his depictions of zigzag angles were pretty reliable.]
Our conclusion is that R. grimaldii is a highly distinctive species that cannot be synonymized with any other.
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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Graptolithina |
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