Ute insulagemmae, Van & De, 2018

Van, Rob W. M. & De, Nicole J., 2018, Calcareous sponges of the Western Indian Ocean and Red Sea, Zootaxa 4426 (1), pp. 1-160 : 92-95

publication ID

https://doi.org/ 10.11646/zootaxa.4426.1.1

publication LSID

lsid:zoobank.org:pub:18929E20-5296-4458-8A8A-4F5316A290FD

DOI

https://doi.org/10.5281/zenodo.5966734

persistent identifier

https://treatment.plazi.org/id/87C9B7D8-55B0-4C8F-9355-A5F0A791EBAA

taxon LSID

lsid:zoobank.org:act:87C9B7D8-55B0-4C8F-9355-A5F0A791EBAA

treatment provided by

Plazi

scientific name

Ute insulagemmae
status

sp. nov.

Ute insulagemmae View in CoL sp.nov.

Figs 54a–e View FIGURE 54 , 55a–g View FIGURE 55

Material examined. Holotype, ZMA Por. 11562, Seychelles, Amirantes, St. François Atoll, Île Bijoutier, reef, 7.0833°S 52.7333°E, depth 6–18 m, scuba, coll. R.W.M. van Soest, field nr GoogleMaps . NIOP-E stat. 792/ 03, 5 January 1993.

Description. Twin urn-shaped individuals ( Fig. 54a View FIGURE 54 ) joint at the base, with a narrow oscule each provided with a short naked collar. Color in life pale orange, in preservation shiny white. Length 1.3 cm, diameter of an individual 5 mm. Surface smooth. Consistency firm.

Aquiferous system. Syconoid.

Skeleton. ( Figs 54b–e View FIGURE 54 ) A thin cortical skeleton of very small triactines ( Figs 54b,d View FIGURE 54 ) forming small meshes of 50–70 µm diameter covers a subcortical layer of lengthwise arranged giant diactines ( Figs 54b–d View FIGURE 54 ). This in turn overlies an articulated skeleton ( Figs. 54c,e View FIGURE 54 ) of larger triactines. Subatrial skeleton of tetractines and triactines, overlying the atrial skeleton ( Fig. 54e View FIGURE 54 ) of tetractines with their apical actines protruding in the atrial lumen.

Spicules. ( Figs 55a–g View FIGURE 55 ) Giant diactines, cortical small triactines, tubar triactines, (sub)atrial triactines, (sub-)atrial tetractines, trichoxeas.

Giant diactines ( Fig. 55a View FIGURE 55 ), fusiform, slightly curved or straight, equiended, 256– 1509 – 2520 x 13 – 68.1 –116 µm.

Cortical triactines ( Figs 55b View FIGURE 55 ), sagittal, with strongly irregular paired actines and conical unpaired actines, occasionally reduced to conical tyle, unpaired actines 5– 9.4 – 18 x 2 – 4.1 –6 µm, paired actines 21– 35 – 51 x 2.5– 3.6 –4 µm.

Tubar triactines ( Figs 55c View FIGURE 55 ), sagittal, but unpaired and paired actines usually not much different in lengths, paired actines straight or slightly curved, (overlapping in shape and size with subatrial triactines); possibly divisible in subcortical (larger) triactines and genuine (smaller) tubar triactines, but this was not readily visible; unpaired actines 52– 79.5 –112 x 8 – 10.2 –13 µm, paired actines 69– 85.1 –117 x 7 – 8.8 –13 µm.

Subatrial triactines ( Fig. 55d View FIGURE 55 ), strongly sagittal with unpaired actines distinctly longer than paired actines; unpaired actines 91– 168 –203 x 9 – 12.4 –15 µm, paired actines 78– 97 –112 x 9 – 12.2 –14 µm.

Subatrial tetractines ( Fig. 55e View FIGURE 55 ), recognizable by a long thinly tapering unpaired actine, which may occasionally have a distal swelling; unpaired actines 171–202–241 x 8 –10.2–11 µm, paired actines 76– 109 –126 x 10 – 11.3 –12 µm, apical actines curved 49– 60.4 – 71 x 6 – 7.1 –8 µm.

Atrial tetractines ( Figs 55f View FIGURE 55 ), sagittal, with prominent curved apical actines; unpaired actines 61– 107.6 –165 x 7 –8.6–11 µm, paired actines 68– 104 –126 x 6 – 8.3 –10 µm, apical actines 40– 115 –201 x 6 – 8.4 –11 µm.

Trichoxeas ( Fig. 55g View FIGURE 55 ), from the short oscular collar, invariably broken, fragments measure 180–650 x 2 µm.

Distribution and ecology. Known only from the type locality on the outer reef of Île Bijoutier, at 6–18 m depth.

Etymology. The name is a noun composed of insula (L.) = island, gemma (L.) = jewelry, referring to the type locality Île Bijoutier (‘jewelry island’).

Remarks. Wörheide & Hooper (2003) described Ute ampullacea from the Great Barrier Reef, NE Australia. This has similar habitus and spiculation, but the cortical skeleton consists of microdiactines, whereas in the new species these are replaced by irregular small triactines ( Fig. 55b View FIGURE 55 ). We obtained molecular data for the new species and compared these with GenBank sequences of Ute and Synute . Remarkably, in our Calcaronea phylogeny ( Fig. 3 View FIGURE 3 ) Ute ampullacea and our new species do not show close relationship, as the former ended up in a group of Lelapiidae . The nearest species to Ute insulagemmae sp.nov. appear to be Australian Ute aff. syconoides ( Carter, 1886) and Australian Synute pulchella ( Dendy, 1892) , which grouped in a well-supported clade (86% bootstrap value) with our new species. Separate inspection of a trimmed alignment of 404 sites of these three species, showed 19 non-conserved sites indicating that the species are probably not closely related. No other Ute species have been reported from the tropical Indo-West Pacific.

The Ute group appeared in our Calcaronea phylogeby ( Fig. 3 View FIGURE 3 ) in the midst of a group of Heteropiidae and Jenkinidae . We interprete this result as evidence of insufficient taxon support for our Calcaronea phylogeny.

ZMA

Universiteit van Amsterdam, Zoologisch Museum

Kingdom

Animalia

Phylum

Porifera

Class

Calcarea

Order

Leucosolenida

Family

Grantiidae

Genus

Ute

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