Ancorinidae Schmidt, 1870

Łukowiak, Magdalena, 2015, Late Eocene siliceous sponge fauna of southern Australia: reconstruction based on loose spicules record, Zootaxa 3917 (1), pp. 1-65 : 20-21

publication ID	https://doi.org/10.11646/zootaxa.3917.1.1
publication LSID	lsid:zoobank.org:pub:D8CB263D-645B-46CE-B797-461B6A86A98A
DOI	https://doi.org/10.5281/zenodo.6108551
persistent identifier	https://treatment.plazi.org/id/2125D91F-1B33-296F-7ED9-C111F5F7FCD4
treatment provided by	Plazi (2016-04-18 11:19:33, last updated 2024-11-26 03:21:24)
scientific name	Ancorinidae Schmidt, 1870
status

Treatment

Family Ancorinidae Schmidt, 1870

Among the diversified and very frequent triaenes in the studied samples, there are some that may be assigned to the ancorinid genus Stelletta Schmidt, 1862 ( Figs. 7 View FIGURE 7 F–I). At least two different morphotypes of such triaenes clearly belong to this cosmopolitan genus. These are big (1000–3700 µm long), massive protriaenes with thick, squat rhabds ( Figs. 7 View FIGURE 7 H, I), as well as others with short clads at right angles to the rhabd ( Figs. 7 View FIGURE 7 F, G).

There are several species of the genus Stelletta recorded today from Australia: S. aeruginosa Carter, 1886 , S. brevis Hentschel, 1909 , S. centrotyla Lendenfeld, 1907 , S. clavosa Ridley, 1884 , S. communis ( Sollas, 1886) , S. conulosa Bergquist, 1968 , S. debilis Thiele, 1900 , S. mamilliformis Carter, 1886 , S. maori Dendy, 1924 , S. moseleyi ( Sollas, 1886) , S. pulchra ( Sollas, 1886) , S. purpurea Ridley, 1884 , S. pyriformis ( Sollas, 1886) , S. ridleyi ( Sollas, 1886) , S. sigmatriaena Lendenfeld, 1907 , S. splendens ( Tanita, 1965) , and S. tuberculata ( Carter, 1886) (Atlas of Living Australia). Unfortunately, having only loose spicules the problem of specific assignment exists, and thus they are determined here only as Stelletta sp. Also some other triaenes from my material (e.g., Figs. 9 View FIGURE 9 A, K, L, N) may belong to Stelletta but in this case, the assignment is highly intuitive. The triaenes that may belong to Stelletta are common in the fossil record. They have been described e.g., by Reif from the Jurassic of the Germany (1967, pl. 13, figs. 17–19).

Apart from the previously discussed Stelletta sp. spicules, other moderately frequent spicules representing family Ancorinidae occur in my samples. These are characteristic calthrops and dichotriaenes ( Figs. 5 View FIGURE 5 N, O) that resemble spicules of Dercitus Gray, 1867a (now Stoeba ). Some of these spicule types may also occur, however, in other Astrophorid families. For example, spicules illustrated in the Figure 4 View FIGURE 4 R (as well as Fig. 5 View FIGURE 5 N) may belong to a wide range of pachastrellid genera (e.g., Poecillastra , Pachastrella , Characella ), or to Vulcanella (family Vulcanellidae ), or even to Stelletta (family Ancorinidae ). Some sanidaster-ataxasters belong probably to Dercitus (now Stoeba ) ( Fig. 7 View FIGURE 7 O). The illustrated here anatriaenes ( Figs. 7 View FIGURE 7 A–E) may belong to the family Ancorinidae ; however, they also may belong to other taxa (e.g., family Geodiidae or Pachastrellidae ). Based on their shape, they have been assigned here to ancorinids. Both, the triaenes and the sanidaster-ataxasters, in my opinion, belong to Dercitus (Stoeba) -like sponge.

References

Bergquist, P. R. (1968) The Marine Fauna of New Zealand: Porifera, Demospongiae, Part 1. (Tetractinomorpha and Lithistida). New Zealand Department of Scientific and Industrial Research Bulletin (New Zealand Oceanographic Institute Memoir 37), 188, 1 - 105.

Carter, H. J. (1886) Descriptions of Sponges from the Neighbourhood of Port Phillip Heads, South Australia, continued. Annals and Magazine of Natural History, Series 5, 17 (97, 98, 101, 102), 40 - 53, 112 - 127, 431 - 441, 502 - 516. http: // dx. doi. org / 10.1080 / 00222938609460181

Dendy, A. (1924) Porifera. Part I. Non-Antarctic sponges. Natural History Report. British Antarctic (Terra Nova) Expedition, 1910 (Zoology), 6 (3), 269 - 392.

Gray, J. E. (1867 a) Notes on the Arrangement of Sponges, with the Descriptions of some New Genera. Proceedings of the Zoological Society of London, 1867 (2), 492 - 558.

Hentschel, E. (1909) Tetraxonida. I. Teil. In: Michaelsen, W. & Hartmeyer, R. (Eds.), Die Fauna Sudwest-Australiens. Ergebnisse der Hamburger sudwest-australischen Forschungsreise 1905, 2, pp. 347 - 402. http: // dx. doi. org / 10.5962 / bhl. title. 7416

Lendenfeld, R. Von (1907) Die Tetraxonia. Wissenschaftliche Ergebnisse der Deutschen Tiefsee-Expedition auf der Dampfer Valdivia 1898 - 1899, 11 (1 - 2), 59 - 374.

Ridley, S. O. (1884) Spongiida. In: Report on the Zoological Collections made in the Indo-Pacific Ocean during the Voyage of H. M. S. ' Alert', 1881 - 2. British Museum (Natural History), London, pp. 366 - 482, 582 - 630. http: // dx. doi. org / 10.5962 / bhl. title. 22498

Schmidt, O. (1862) Die Spongien des adriatischen Meeres. Wilhelm Engelmann, Leipzig, 88 pp.

Schmidt, O. (1870) Grundzuge einer Spongien-Fauna des atlantischen Gebietes. Wilhelm Engelmann, Leipzig, 88 pp.

Sollas, W. J. (1886) Preliminary account of the Tetractinellid sponges Dredged by H. M. S. ' Challenger' 1872 - 76. Part I. The Choristida. Scientific Proceedings of the Royal Dublin Society, New Series, 5, pp. 177 - 199.

Tanita, S. (1965) Report on the sponges obtained from the adjacent waters of the Sado Island, Japan Sea. Bulletin Japan Sea Regional Fisheries Research Laboratory, 14, 43 - 66.

Thiele, J. (1900) Kieselschwamme von Ternate. I. Abhandlungen herausgegeben von der Senckenbergischen naturforschenden Gesellschaft, Frankfurt, 25, 19 - 80.

Figures

FIGURE 4. Spicules of sponges of the order Astrophorida; A – E—Sterraster microscleres of Geodia sp. 1, family Geodiidae; F – I—Sterraster microscleres of Geodia sp. 2, family Geodiidae; J – P—Different types of pynakids of the hypothetical species Dactylocalycites callodiscus, family? Geodiidae; Q – T—Spicules of the family Geodiidae; U – W—Triaenes of Penares cf. sclerobesa, family Geodiidae (subfamily Erylinae); X—Triaenes of Penares sp., family Geodiidae.

FIGURE 5. Spicules of sponges of the order Astrophorida; A—Mesodichotriaene, family Pachastrellidae; B—Dichotriaene, family Pachastrellidae; C – G—Mesotriaenes of Pachastrella - like sponge, family Pachastrellidae; H – J—Calthrops of Calthropella sp., family Calthropellidae; K—Spicule of the order Astrophorida; L—Triaene of Brachiaster cf. claudlevii, family Pachastrellidae; M—Triaene of Triptolemma cladosum, family Pachastrellidae; N – O—Calthrop and dichotriaene of Dercitus (Stoeba) - like sponge, family Ancorinidae.

FIGURE 7. Spicules of sponges of the order Astrophorida; A – E—Anatriaenes of Dercitus (Stoeba) - like sponge, family Ancorinidae; F – I—Different types of triaenes of Stelletta sp., family Ancorinidae; J – N—Different types of acanthoxeas of Alectona millari, family Thoosidae; O—Sanidaster-ataxaster of Dercitus (Stoeba) - like sponge, family Ancorinidae.

FIGURE 9. Undetermined astrophorid triaenes; A – D, L, M—Protriaenes of order the Astrophorida; E, F, J, K, N—Orthotriaenes of the order Astrophorida; G – I—Prodichotriaenes of the order Astrophorida.