STUPENDIDAE, Kelly & Cárdenas, 2016

FAMILY STUPENDIDAE View in CoL FAM. NOV.

Type species

Stupenda singularis gen. et sp. nov.

Diagnosis

Tetractinellida with s pherical growth form. Skeleton strictly radial with bundles of huge oxeas spiralling outwards from a centrum. Cortex thick and armoured with brushes of packed oxeas and orthotriaenes, the cladomes of which project beyond the surface. Orthotriaenes are huge with typically clubbed clads and a long conical rhabdome, the upper third of which is acanthose. Microscleres are contorted microspined sigmaspires.

Remarks

The partially acanthose clubbed orthotriaenes of this species are unprecedented in the Recent and fossil lit- erature in terms of their large size and morphology, and the single specimen and holotype displays characteristics of both tetillid and astrophorine taxa. Tetillid characters include a spherical external form, a strictly radiating skeleton with huge attenuated oxeas and triaenes spiralling from a siliceous centrum, and microspined sigmaspire microscleres. The long, robust orthotriaenes are reminiscent of the triaenes in the astrophorine family Ancorinidae but are unlike the frequently delicate hair-like pro- and anatriaenes typical of tetillid species. Finally, the orthotriaenes are acanthose with clubbed clads, two features that have not been recorded in any other triaene-bearing taxa except Yucatania sphaeroidocladus ( Hartman & Hubbard, 1999) (family Thrombidae Sollas, 1888 ). However, in this species the triaenes are very small by comparison ( Y. sphaeroidocladus acanthotriaene rhabdome length 248–480 μm, cladome width 10– 24 μm; S. singularis gen. et sp. nov. rhabdome length 2075–3075 μm, cladome width 140–240 μm) and the rhabdome and cladome are sparsely microspined along the entire length of the megasclere; in S. singularis gen. et sp. nov. the triaenes are acanthose only in the proximal third. Both Yucatania Gómez, 2006 and

† and the last 110 bp

‡ of the same intron and so they are merged here

COI, cytochrome c oxidase subunit I. CDS, coding sequence.

Thrombus Sollas, 1886 View in CoL , also possess unique ‘trichotriaene’ microscleres in addition to unique minute pseudobirotulate rhabds; these are also microspined. Both taxa belong to the Thrombidae View in CoL , currently considered to be in the suborder Astrophorina View in CoL ( Uriz, 2002; Cárdenas et al., 2011). The astrophorine genus Acanthotriaena Vacelet, Vasseur & Lévi, 1976 View in CoL (family Pachastrellidae Carter, 1875 View in CoL ) has anatriaenes that are sparsely basally spined but these are very different from those of S. singularis View in CoL gen. et sp. nov.

Stupendidae View in CoL fam. nov. is monogeneric, forming a sister group to the desma-bearing Scleritodermidae View in CoL / Siphonidiidae View in CoL / Azoricidae View in CoL in the 18S tree ( Fig. 2 View Figure 2 ). Genetically however, these two sister groups seem quite distant: if we compare only the short V4–V5 region (494 bp) of S. singularis View in CoL gen. et sp. nov. with, respectively, Leiodermatium lynceus Schmidt, 1870 (Azoricidae) View in CoL , Scleritoderma sp. (Scleritodermidae) , and Siphonidium ramosum ( Schmidt, 1870) (Siphonidiidae) View in CoL , we find 11– 15 bp differences. As a comparison, we find smaller genetic differences when we compare the same V4– V5 region between Neophrissospongia microstylifera ( Lévi & Lévi, 1983) (Corallistidae) View in CoL and Theonella atlantica van Soest & Stentoft, 1988 (Theonellidae) View in CoL (1 bp) or between Geodia barretti Bowerbank, 1858 (Geodiidae) View in CoL and Pachastrella sp. (Pachastrellidae) (4 bp). In the morphological taxonomic sense Stupendidae View in CoL fam. nov. and Scleritodermidae View in CoL / Siphonidiidae View in CoL / Azoricidae View in CoL form a strongly supported and separate clade at the same taxonomic level as the astrophorine and tetillid clades. Based on morphology, we place this new family in the suborder Spirophorina View in CoL because it possesses sigmaspires and triaene megascleres but molecular results may suggest otherwise (see Discussion).