Leucandra ornata, Klautau & Lopes & Tavares & Pérez, 2022

Klautau, Michelle, Lopes, Matheus Vieira, Tavares, Gabriela & Pérez, Thierry, 2022, Integrative taxonomy of calcareous sponges (Porifera: Calcarea) from Réunion Island, Indian Ocean, Zoological Journal of the Linnean Society 194, pp. 671-725 : 710

publication ID	https://doi.org/ 10.1093/zoolinnean/zlab014
publication LSID	lsid:zoobank.org:pub:3E370CBF-7DD1-4E73-BC37-81BF12EDFEED
DOI	https://doi.org/10.5281/zenodo.6352004
persistent identifier	https://treatment.plazi.org/id/2F2F2C38-A216-4B1F-8A04-7CAA93B8F0EC
taxon LSID	lsid:zoobank.org:act:2F2F2C38-A216-4B1F-8A04-7CAA93B8F0EC
treatment provided by	Plazi
scientific name	Leucandra ornata
status	sp. nov.

Treatment

LEUCANDRA ORNATA View in CoL SP. NOV.

( FIGS 22–25 View Figure 22 View Figure 23 View Figure 24 View Figure 25 ; TABLE 11)

Z o o b a n k r e g i s t r a t i o n: u r n: l s i d: z o o b a n k. org:act: 2F2F2C38-A216-4B1F-8A04-7CAA93B8F0EC.

Diagnosis: Leucandra with spined microdiactines in the cortical and in the atrial skeletons. The cortical microdiactines are frequently organized forming bouquets. Large cortical diactines are also present, along with cortical triactines. The choanosome contains regular triactines and sagittal triactines and tetractines. The atrial skeleton has microdiactines with spines and tetractines.

Etymology: From the Latin ornatum, ornate or decorated, for the presence of many diactines on the surface of this species.

Type locality: Cap La Houssaye Reef , La Réunion, Indian Ocean .

Ty p e m a t e r i a l: H o l o t y p e – U F R J P O R 8 9 2 8 (= 171108- CAH2 -TP2, Photos: TP5973–5975). Cap La Houssaye Reef , La Réunion, Indian Ocean, coll. T. Pérez, 8 November 2017, 10 m depth .

Colour: White alive ( Fig. 22A View Figure 22 ) and after fixation ( Fig. 22B View Figure 22 ).

Morphology and anatomy: Sponge vase-shaped with apical osculum surrounded by a crown of trichoxeas ( Figs 22A, B View Figure 22 , 24A View Figure 24 ) supported by sagittal triactines and tetractines ( Fig. 23A View Figure 23 ). Surface hispid because of several large diactines protruding through the surface ( Figs 22A, B View Figure 22 , 23C View Figure 23 , 24B View Figure 24 ). The aquiferous system is leuconoid. The cortical skeleton is composed of tangential triactines, large diactines and microdiactines protruding through the surface ( Figs 22A, B View Figure 22 , 23C, D View Figure 23 , 24C View Figure 24 ). The cortical microdiactines form bouquets or lie tangentially to the cortex ( Figs 23D View Figure 23 , 24C View Figure 24 ). The choanosome contains large and small triactines. These small triactines are found spread in the choanosome or surrounding the canals, although tetractines are the main spicules in the canals ( Fig. 23E View Figure 23 ). The atrial skeleton is composed of tetractines and microdiactines tangential to the atrium ( Figs 23F View Figure 23 , 24D View Figure 24 ).