Orthopyxis norvegiae Broch 1948

Orthopyxis norvegiae (Broch, 1948) (Pl. 1 T, Fig. 3 R–T, Z 2) Campanularia (Orthopyxis) norvegiae Broch, 1948: 16, fig. 5. Orthopyxis norvegiae — Branch & Williams, 1993: 9, fig. Campanularia norvegiae — Millard, 1977: 18, figs 5 A–E. —Peña Cantero, 2006 ( pro parte ): 944, fig. 5 B, C (not fig....

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Main Authors: Galea, Horia R., Schories, Dirk
Format: Text
Language:unknown
Published: Zenodo 2012
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Online Access:https://dx.doi.org/10.5281/zenodo.4630866
https://zenodo.org/record/4630866
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Summary:Orthopyxis norvegiae (Broch, 1948) (Pl. 1 T, Fig. 3 R–T, Z 2) Campanularia (Orthopyxis) norvegiae Broch, 1948: 16, fig. 5. Orthopyxis norvegiae — Branch & Williams, 1993: 9, fig. Campanularia norvegiae — Millard, 1977: 18, figs 5 A–E. —Peña Cantero, 2006 ( pro parte ): 944, fig. 5 B, C (not fig. 5 D =? Campanularia sp.). not Campanularia norvegiae — Stepanjants, 1979: 30, pl. 5, figs 2 A, B (= Campanularia sp.). Material examined . Stn. PNS — 07.ii. 2011, Ant. 13 / 2011 (10 m): fertile female colony on seaweed (MHNG- INVE- 79780). Stn. RAS — 21.ii. 2011, Ant. 12 / 2011 (15–20 m): small colony composed of several hydrothecae and immature gonothecae, epizoic on Sertularella gaudichaudi Ant. 14 / 2011 (20–30 m): male and female colonies on seaweed (MHNG-INVE- 79663). Description . Colonies arising from creeping, branching, anastomozing hydrorhiza. Pedicels 1.0– 4.5 mm high, 85–95 µm wide, distinctly spirally twisted throughout, occasionally spiral furrow less distinct. Hydrotheca deep (585–820 µm), campanulate, rounded to slightly ovoid in transverse section, 365–440 µm wide, with much thickened perisarc, especially basally where it forms a prominent diaphragm delimiting an ovoid subhydrothecal chamber, as well as just below the aperture; rim prolonged by a thinner perisarc sheet (50–80 µm high), margin even, slightly everted; aperture diameter 330–460 µm. Between hydrotheca and pedicel, a subhydrothecal spherule. Colonies dioecious. Gonothecae borne on distinct, spirally ringed pedicels; bottle shaped to fusiform, perisarc conspicuously thickened; aperture distal, circular; female 2070–2275 µm long, 690–815 µm wide, pedicel 195–275 µm long; male 1380–1920 µm long, 495–715 µm wide, pedicel 275–330 µm long. Gonophores, medusoids with four radial canals and perradiar gonads, with no mouth; sense organs (statocysts) could not be observed in fixed material. Nematocysts: possibly microbasic mastigophores (though none was observed discharged) in two size classes, with large (13.1–14.4) × (3.4–3.7) µm and small (6.0– 6.3) × (1.8 –2.0) µm capsules. Remarks . Millard (1977) found planulae in the female gonothecae of her material and concluded that this species does not produce medusoids. However, our observations falsify this assertion. Unlike the females, morphology of male medusoids is more easily understood in the available fixed material, due to their more homogenous tissues and differences in color between the gonads (whitish) and the four radial canals (comparatively darker). Internal structure is clearly seen in transverse sections, even in unstained material (Fig. 3 T). It is not surprising to note that embryonic development takes places within the female gonotheca. A similar situation was equally observed in both Campanularia sp. and Silicularia pedunculata (Jäderholm, 1904), possibly as a survival strategy when facing severe environmental conditions. The gonothecae described and figured by Peña Cantero (2006) possibly do not belong to the present species, and recall instead those of Campanularia sp. In our material, both species often co-occur on the same substrates and their luxuriant colonies are generally well individualized, though in some cases they could be mixed, as illustrated in sample Ant. 14 / 2011. Geographical distribution . South Georgia (Broch 1948), Kerguelen Shelf (Millard 1977), Marion and Prince Edward islands (Branch & Williams 1993), South Shetland islands (Peña Cantero 2006, present study). : Published as part of Galea, Horia R. & Schories, Dirk, 2012, Some hydrozoans (Cnidaria) from King George Island, Antarctica, pp. 1-21 in Zootaxa 3321 on pages 16-17, DOI: 10.5281/zenodo.213236 : {"references": ["Broch, H. (1948) Antarctic hydroids. Scientific Results of the Norwegian Antarctic Expedition 1927 - 1928, 28, 1 - 23.", "Branch, M. L. & Williams, G. C. (1993) The Hydrozoa, Octocorallia and Scleractinia of subantarctic Marion and Prince Edwards Islands: illustrated keys to the species and results of the 1982 - 1989 University of Cape Town surveys. South African Journal of Antarctic Research, 23 (1 - 2), 3 - 24.", "Millard, N. A. H. (1977) Hydroids from the Kerguelen and Crozet shelves, collected by the cruise MD. 0 3 of the Marion- Dufresne. Annals of the South African Museum, 73 (1), 1 - 47.", "Stepanjants, S. D. (1979) Gidroidy vod antarktiki i subantarktiki. In: Rezul'taty biologicheskikh issledovanii sovetskikh antarkticheskikh ekspeditsii, 6. Issledovaniya Fauny Morei, 22 (30), 1 - 99.", "Jaderholm, E. (1904) Mitteilungen ueber einige von der Schwedischen Antarctic-Expedition 1901 - 1903 eingesammelte Hydroiden. Archives de Zoologie Experimentale et Generale, 4 (3), 1 - 14."]}