Spongia (Spongia) sweeti ( Kirkpatrick, 1900 )
publication ID |
https://doi.org/ 10.5281/zenodo.320220 |
DOI |
https://doi.org/10.5281/zenodo.5623683 |
persistent identifier |
https://treatment.plazi.org/id/0D0987D3-FFC0-FFE1-20A6-1683E992FE19 |
treatment provided by |
Plazi |
scientific name |
Spongia (Spongia) sweeti ( Kirkpatrick, 1900 ) |
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Spongia (Spongia) sweeti ( Kirkpatrick, 1900) View in CoL
( Figs 15 View FIGURE 15 A–D)
Polyfibrospongia sweeti Kirkpatrick, 1900: 359 , pl. XV figs 2a–c.
? Spongia virgultosa sensu Desqueyroux-Faúndez 1990 View in CoL : (not: Euspongia virgultosa Schmidt, 1868 )
Material examined. ZMA Por. 13987, Clipperton Island Expedition 1994, 10 °18’N 109°13’W, 9–18 m, coll. K. Kaiser, 14–26 April 1994, 1 specimen ( Fig. 15 View FIGURE 15 A).
ZMA Por. 13989, same data, 1 specimen.
ZMA Por. 13990, same data, 1 specimen.
ZMA Por. 13991, same data, 1 specimen.
CASIZ 180256 (see below under Clathrina passionensis n. sp.).
MNHN DCL 4045–B, Jean-Louis Etienne Expédition Clipperton 2005, station 13, 32 m, on dead corals, 18– 01–2005, 5 specimens.
MNHN DCL 4048–C, Jean-Louis Etienne Expédition Clipperton 2005, station 42, 8 m, on dead corals, 31–01– 2005, 10 specimens.
MNHN DCL 4048–D, Jean-Louis Etienne Expédition Clipperton 2005, station 42, 8 m, on dead corals, 31–01– 2005, 6 specimens ( Fig. 15 View FIGURE 15 B).
MNHN DCL 4050–B, Jean-Louis Etienne Expédition Clipperton 2005, station 42, 8 m, on dead corals, 31–01– 2005, 3 specimens.
MNHN DCL 4051, Jean-Louis Etienne Expédition Clipperton 2005, station 43, 8 m, on dead corals, 31–01– 2005, 1 specimen.
MNHN DCL 4052–B, Jean-Louis Etienne Expédition Clipperton 2005, station 42, 8 m, on dead corals, 6–01– 2005, 5 specimens.
MNHN DCL 4053–E, Jean-Louis Etienne Expédition Clipperton 2005, station and depth not recorded, on dead corals, 2 specimens.
Description. Repent ramose ( Figs 15 View FIGURE 15 A–B), with thin irregular branches sometimes anastomosing into low growing masses; surface irregular, finely conulose, with frequent fistular outgrowths. Several individuals have ingrown hydroids. Size up to 4 cm long, individual branches 0.4–0.5 cm in diameter. Color pale beige (alcohol).
Skeleton. Ectosome bears a thin sand coat ( Fig. 15 View FIGURE 15 C), which appears more or less continuous. The fiber skeleton ( Fig. 15 View FIGURE 15 D) is typical Spongia -like with a predominance of uncored secondary fibers of uniform diameter throughout the sponge, 10–30 µm. Meshes variable in size, 50–200 µm. Primary fibers cored by sand grains, lying at 700–1000 µm distance, their diameter is 35–90 µm. They are readily recognized near the surface ( Fig. 15 View FIGURE 15 D) but become rarer inwards. The surface fistules are characteristically supported by fascicles of primary fibres ( Fig. 15 View FIGURE 15 E).
Soft tissue. As evidenced by histology choanocyte chambers are uniformly sized and rounded, diameter 24–33 µm. The center areas of many fistules are occupied by numerous embryos in various stages of development, largest embryos 400 µm in diameter.
Ecology and distribution. Encrusting dead corals in shallow reef environment down to 32 m; known from Île Clipperton and Funfuti, Tuvalu.
Remarks. The shape of the new species is similar to the sponge described as Polyfibrospongia sweeti by Kirkpatrick, 1900 from Funafuti, Tuvalu, Central Pacific, which was assigned to Carteriospongia by Bergquist (1980). Although she did not explain this assignment, it is likely she based this on the structure of the ectosomal skeleton with a reticulation of prominent primary fibers. Also, Kirkpatrick likened P. sweeti to Polyfibrospongia flabellifera Bowerbank, 1877 which is a Carteriospongia . The drawing of Kirkpatrick’s sponge is essentially like our own in dimensions and in the reticulated pattern of primary fibers in the walls of the fistules ( Fig. 15 View FIGURE 15 E). Kirkpatrick’s specimen had much longer fistules, and that appears to be the only difference with our material. Kirkpatrick’s (1900) description of the skeleton is misleading where he emphasized bundles of secondary fibers, which occur only in the walls of the fistules. In the main body, the secondary fibers form a continuous anastomosing mass which is characteristic for the genus Spongia . The drawing of his Fig. 2a View FIGURE 2. A is, in fact, a good representation of the secondary fiber arrangement.
This species is assigned to the subgenus Spongia because the secondary fibers are of uniform thickness. The species has an uncommon shape and size for a member of the genus Spongia which is predominantly massive, globular or flabellate, in any case usually much larger and more elaborate. The sponge described as Spongia virgultosa by Desqueyroux-Faúndez (1990) from Easter Island is similar in shape and size to our material and the overall skeletal features are also like our specimen with the exception of the finer surface network recorded by Desqueyroux-Faúndez. It is unlikely that the Mediterranean species Spongia virgultosa ( Schmidt, 1868 as Euspongia ), although likewise unusual in being low-growing and possesssing fistular outgrowths, would occur in the Indo- Pacific. Thus, regardless whether the Easter Island sponge is the same species as ours, the present material clearly belongs to a so far unnamed species. There are no further Spongia species recorded from Pacific waters with similar habit.
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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Spongia |
Spongia (Spongia) sweeti ( Kirkpatrick, 1900 )
Van, Rob W. M., Kaiser, Kirstie L. & Syoc, Robert Van 2011 |
Polyfibrospongia sweeti
Kirkpatrick 1900: 359 |