Arturia (sponge) explained

Arturia is a genus of calcareous sponge in the family Clathrinidae which contains 14 species. It is named after Arthur Dendy, a prominent researcher of calcareous sponges.[1] It was renamed Arturia in 2017 because the name Arthuria was already assigned to a genus of molluscs.[2]

Description and biology

Calcinea in which the cormus comprised a typical clathroid body. A stalk may be present. The skeleton contains regular (equiangular and equiradiate) triactines and tetractines. However, tetractines are more rare. Diactines may be added. Asconoid aquiferous system.[1]

Arturia canariensis, for example, is a filter feeder, sieving plankton and other organic material out of the current of water as it passes through the ostia. Both asexual reproduction by budding and sexual reproduction take place in Arturia canariensis. As in other species, each sponge is a hermaphrodite. Sperm is liberated into the sea and some is drawn into other sponges with the water current that passes through them. Fertilisation is then internal and the eggs are brooded in the ascon tubes of the sponge until they hatch. The free-swimming larvae are expelled through the osculi and disperse with the currents. After a few days they settle on the seabed and develop into juvenile sponges.[3]

Species

There are 14 species in the Arturia genus.

NameImageDistributionDescription
Arturia adusta
(Wörheide & Hooper, 1999)
Great Barrier Reef in Australia
Arturia africana
(Klautau & Valentine, 2003)
South AfricaThe cormus is formed of thin, irregular and loosely anastomosed tubes. No water-collecting tubes or cells with granules have been observed. The skeleton has no special organisation, comprising triactines and tetractines that are at equal angles to each other and radiate equally. Actines are conical, slightly undulated at the distal part, and with a sharp tip. The apical actine of the tetractines is shorter, smooth, conical, straight and sharp, and it is always projected into the tubes.[4]
Arturia alcatraziensis
(Lanna, Rossi, Cavalcanti, Hajdu & Klautau, 2007)
BrazilLiving specimens are white and preserved ones are beige. The cormus is spherical, composed of thin, regular and tightly anastomosed tubes including water-collecting tubes. External tubes have narrower cavities than internal ones. Surface is covered minute spines because of the large amount of diactines (spicule with two pointed arms).

The skeleton is composed primarily of straight, conical and sharp spicule with two or three pointed arms but in rare instances may have four. The spicules with three and four pointed arms have no special organisation (they have equal angles and radiate equally) but the apical spicule (of the three pointed arms) is projected inside the tubes. The spicules with two sharp pointed arms are slightly spindle-shaped, and have the spines perpendicular to the surface. The size of the diactines is very variable. Several three-pronged oxeas are present on the surface.[5]

Arturia canariensis
(Miklucho-Maclay, 1868)
Canary Islands, Cape Verde, Adriatic Sea, Caribbean Sea (Gulf of Mexico, Bahamas, Dry Tortugas, Florida, Bermuda)Has a small, lacy structure and is a bright lemon yellow colour. It is an asconoid with many tiny flask-like tubes. Water is drawn in through fine holes near their base, the ostia, moved along by flagella and expelled from the osculi at the top, each osculum being a single exit formed from many fused ascon tubes. The skeleton is composed of large calcareous spicules called megascleres, made predominantly of calcite, forming a soft, fragile, supporting network. The whole sponge can grow to in diameter. Small individuals form tufts but larger ones have gentle folds, with osculi along their ridges.[6]

It is usually found at depths between 8and.[7] It grows on shady rock substrates and in caves but its preferred location is the underside of ledges formed by horizontal, plate-like layers of coral. It is often found growing in these locations with coralline algae and bryozoans in a rich, diverse community. In a 2007 survey of sponges off the coast of Georgia, Arturia canariensis was discovered in cryptic locations under rocks, in crevices and overgrown by other organisms. This was an extension of its previous known range.[8]

Arturia compacta
(Schuffner, 1877)
Indonesia
Arturia darwinii
(Haeckel, 1870)
Western Indian Ocean
Arturia dubia
(Dendy, 1891)
AustraliaCormus formed of irregular and loosely anastomosed tubes. There is no cortex but sometimes it appears that some of the tubes could be forming one. The wall of the tubes is thick, up to 100 μm. In some areas the tubes are hispid.

Cells with yellow granules are present in the mesohyl, as are embryos, which are always found near choanocytes. The cells with yellow granules are distributed homogeneously, throughout the mesohyl.

The skeleton consists of equiangular and equiradiate triactines. Tetractines are also present, but they are rare. Actines are conical or cylindrical, but they always have sharp tips. Sometimes, they are slightly undulated. Diactines are abundant on the external tubes; they are curved or straight, vary in size and have sharp tips, one of which is club-shaped. The largest diactines are curved at the tip. They project through the surface in some parts of the cormus only, and the club-shaped portion of the spicule lies inside the tube.[9]

Arturia hirsuta (Klautau & Valentine, 2003)South AfricaCormus composed of large, irregular and loosely anastomosed tubes. Water-collecting tubes converge to form conical projections with an osculum. The surface of the tubes is hispid because of the presence of diactines and trichoxea. Cells with granules have not been observed. The skeleton comprises equiangular and equiradiate triactines and very few tetractines. Actines are conical and straight, with a sharp tip. Diactines and fusiform and slightly curved. They are projected towards the exterior of the tubes. Trichoxeas are also present, perpendicular to the surface of the tubes.
Arturia spirallata
Azevedo, Cóndor-Luján, Willenz, Hajdu, Hooker & Klautau, 2015
Peru
Arturia sueziana
(Klautau & Valentine, 2003)
EgyptCormus of the holotype formed of thin, irregular and loosely anastomosed tubes. A large tube functioning as an osculum is physically connected to thinner water-connecting tubes, receiving the excurrent water from them. The skeleton has no special organization, comprising equiangular and equiradiate triactines and tetractines in roughly the same proportions. They are similar in size. Their actines are cylindrical or conical, with a blunt tip. Some of them are larger in the middle. The apical actine of the tetractines has almost the same diameter at the base as the facial actines. It is conical, shorter, straight,smooth and sharp. Trichoxeas are also present but there are very few.[10]
Arturia tenuipilosa
(Dendy, 1905)
Sri LankaSponge forming massive reticulate colonies of asconoid tubes, closely resembling Clathrina ceylonensis but somewhat coarser. Here and there on the surface of the colony the tubes converge to unite in small, prominent true vents. The tubes themselves are about 0.5 mm in diameter and they form a close reticulation without any pseudoderm. The colour in alcohol is pale grey. There are three kinds of spicules: regular triradiates, quadriradiates and very slender, hair-like oxea.

The regular triradiates have rather stout, slightly fusiform rays, bluntly and rather abruptly pointed at the apex, which is often somewhat irregular. The rays measure about 0.1 mm in length by 0.012 mm in diameter at the thickest part.

The quadriradiates are abundant and resemble the triradiates, but with an apical ray projecting at right angles into the gastral cavity. This ray is somewhat variable in form and size; typically it is long and slender, gradually and sharply pointed, and slightly undulated towards the extremity; in the type specimen it attains a length of about 0.14 mm.

The very slender, hair-like oxea sparsely hispidate the surface of the tubes. These may attain a length of more than 0.4 mm, with an average diameter of only about 0.002 mm. They taper very gradually from the proximal extremity, which is somewhat hastately sharp-pointed and may be as much as 0.004 mm thick, to the distal, which is hair-like and apparently nearly always broken off.[11]

Arturia trindadensis
Azevedo, Padua, Moraes, Rossi, Muricy & Klautau, 2017
Brazil
Arturia tubuloreticulosa
Van Soest & De Voogd, 2015
Indonesia
Arturia vansoesti
Cóndor-Luján, Louzada, Hajdu & Klautau, 2018
Western Indian Ocean

Notes and References

  1. Klautau. M.. Azevedo, F. . Condor-Lujan, B. . Rapp, H. T. . Collins, A. . Russo, C. A. d. M. . A Molecular Phylogeny for the Order Clathrinida Rekindles and Refines Haeckel's Taxonomic Proposal for Calcareous Sponges. Integrative and Comparative Biology. 23 May 2013. 53. 3. 447–461. 10.1093/icb/ict039 . 23704365. free.
  2. Azevedo, F. . Padua, A. . Moraes, F. . Rossi, A. . Muricy, G. . Klautau, M.. Taxonomy and phylogeny of calcareous sponges (Porifera: Calcarea: Calcinea) from Brazilian mid-shelf and oceanic islands. Zootaxa. 2017. 4311. 3 . 301–344. 10.11646/zootaxa.4311.3.1 .
  3. Book: Dorit, R. L. . Zoology . registration . Walker, W. F. . Barnes, R. D. . 1991 . Saunders College Publishing . 978-0-03-030504-7 . 590 - 591 .
  4. Klautau. M.. Valentine, C.. Revision of the genus Clathrina (Porifera, Calcarea). Zoological Journal of the Linnean Society. 2003. 139. 1–62. 10.1046/j.0024-4082.2003.00063.x. free.
  5. Lanna. E.. Rossi, A. . Cavalcanti F. . Hajdu, E. . Klautau, M. . amp . Calcareous Sponges from Sao Paulo state, Brazil (Porifera: Calcarea: Calcinea) with the description of two new species. Journal of the Marine Association of the United Kingdom. 2007. 87. 5687. 1–9.
  6. Book: Colin, Patrick L. . Marine Invertebrates and Plants of the Living Reef . 1978 . T.F.H. Publications . 978-0-86622-875-6 . 66 . registration .
  7. Web site: Yellow calcareous sponge . Florent's Guide to the Florida, Bahamas and Caribbean Reefs . 2012-11-18.
  8. Freeman, Christopher J. . Gleason, Daniel F. . Ruzicka, Rob . van Soest, Rob W. M. . Harvey, Alan W. . McFall, Greg . 2007 . A biogeographic comparison of sponge fauna from Gray's Reef National Marine Sanctuary and other hard-bottom reefs of coastal Georgia, U.S.A. . Porifera Research: Biodiversity, Innovation and Sustainability . 319 - 325 .
  9. Klautau . Valentine . 2003 . Revision of the genus Clathrina (Porifera, Calcarea) . Zoological Journal of the Linnean Society . 139 . 1–62 . 10.1046/j.0024-4082.2003.00063.x. free .
  10. Klautau. Michelle. Valentine. Clare. Revision of the genus Clathrina (Porifera, Calcarea). Zoological Journal of the Linnean Society. 139. 1. 1–62. 10.1046/j.0024-4082.2003.00063.x. 2003. free.
  11. Dendy. Arthur. Report on the sponges collected by Professor Herdman,at Ceylon, in 1902. Report to the Government of Ceylon on the Pearl Oyster Fisheries of the Gulf of Manaar. 1905. 3. Supplement 18. 57–246.