Tethya simi, Sarà & Bavestrello & Calcinai, 2000
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publication ID |
https://doi.org/ 10.5281/zenodo.5402001 |
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persistent identifier |
https://treatment.plazi.org/id/246CF300-FFF0-1734-FEC5-2063FC11FB4C |
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treatment provided by |
Marcus |
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scientific name |
Tethya simi |
| status |
sp. nov. |
Tethya simi View in CoL n. sp.
TYPE MATERIAL. — Holotype ( MSNG 49676 ).
ETYMOLOGY. — After C. J. Sim, the Korean spongologist who collected the specimens.
OTHER MATERIAL. — Paratype (MSNG 49677).
TYPE LOCALITY. — Songsampo (Korea). 30.VI.1984, coll. C. J Sim.
DESCRIPTION
Morphology
Body globose, 2.5 cm in diameter, consistency firm, yellow ochre in alcohol ( Fig. 3A View FIG ). Tubercles flattened and little evident, 1.5 mm wide.
Skeleton ( Fig. 4 View FIG )
Megasclere bundles with large terminal fans. Megasters through entire cortex ( Fig. 3C View FIG ) but not in the choanosome. Micrasters represented by two different categories in the cortex and choanosome. Sponge surface covered by cortical micrasters ( Fig. 3D View FIG ).
Spicules
Strongyloxeas. ( Fig. 3B View FIG ) Main strongyloxeas, with a thin proximal rounded end, 1200-1800 × 10-20 µm. Auxiliary megascleres 300-700 × 3-11 µm. The two categories have however many intermediates.
Megasters. ( Fig. 3E, F View FIG ) Spherasters 40-80 µm in diameter, R/C = 0.2-0.5. Rays often apically bent or forked ( Fig. 3F View FIG ), about 20.
Micrasters. Cortical micrasters are generally tylasters ( Fig. 3G View FIG ) with indistinct knobs on their ray tips, being spines diffused along the ray. Several tylasters have a more or less developed centrum and shortened rays, 8-12 µm in diameter, ray number 8-14, generally 14. Choanosomal micrasters are oxyasters with conical rays, sometimes without spines ( Fig. 3J View FIG ) but generally more or less spined ( Fig. 3H, I View FIG ). Some oxyasters are spiny at the ray tips, 15-20 µm in diameter, generally 20 µm. Ray number eight to fourteen, commonly twelve to fourteen.
REMARKS
T. simi specimens were originally labelled T. aurantium . There are in fact some traits in common between the two species, both living in the northern temperate seas, as the existence of two micraster categories in the cortex and choanosome and the features of the oxyaster choanosomal category. But T. simi is distinguished clearly by the tylaster features of its cortical micrasters and by the megaster distribution in the cortex. In addition, in T. simi , the fibrous cortical inner layer, which is well developed in T. aurantium , is absent.
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.