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Demosponge

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Demosponge
Temporal range: Cryogenian – present, 650–0 Ma[1]
Included are the yellow tube sponge, Aplysina fistularis, the purple vase sponge, Niphates digitalis, the red encrusting sponge, Spiratrella coccinea, and the gray rope sponge, Callyspongia sp.
Scientific classification Edit this classification
Domain: Eukaryota
Kingdom: Animalia
Phylum: Porifera
Class: Demospongiae
Sollas, 1885
Subclasses
The carnivorous ping-pong tree sponge, Chondrocladia lampadiglobus [2][3]
Monanchora arbuscula (Poecilosclerida)
Geodia barretti (Tetractinellida)
Chondrosia reniformis (Chondrosiida)
Spongia officinalis (Dictyoceratida)
Spongilla lacustris (Spongillida)

Demosponges (Demospongiae) are the most diverse class in the phylum Porifera. They include greater than 90% of all species of sponges with nearly 8,800 species worldwide (World Porifera Database).[4] They are sponges with a soft body that covers a hard, often massive skeleton made of calcium carbonate, either aragonite or calcite. They are predominantly leuconoid in structure. Their "skeletons" are made of spicules consisting of fibers of the protein spongin, the mineral silica, or both. Where spicules of silica are present, they have a different shape from those in the otherwise similar glass sponges.[5] Some species, in particular from the Antarctic, obtain the silica for spicule building from the ingestion of siliceous diatoms.[6]

The many diverse orders in this class include all of the large sponges. About 311 million years ago, in the Late Carboniferous, the order Spongillida split from the marine sponges, and is the only sponges to live in freshwater environments.[7] Some species are brightly colored, with great variety in body shape; the largest species are over 1 m (3.3 ft) across.[5] They reproduce both sexually and asexually. They are the only extant organisms that methylate sterols at the 26-position, a fact used to identify the presence of demosponges before their first known unambiguous fossils.[8][1]

Because of many species' long life span (500–1,000 years) it is thought that analysis of the aragonite skeletons of these sponges could extend data regarding ocean temperature, salinity, and other variables farther into the past than has been previously possible. Their dense skeletons are deposited in an organized chronological manner, in concentric layers or bands. The layered skeletons look similar to reef corals. Therefore, demosponges are also called coralline sponges.

Classification and systematics

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The Demospongiae have an ancient history. The first demosponges may have appeared during the Precambrian deposits at the end of the Cryogenian "Snowball Earth" period. Their presence has been indirectly detected by fossilized steroids, called steranes, hydrocarbon markers characteristic of the cell membranes of the sponges, rather than from direct fossils of the sponges themselves. They represent a continuous chemical fossil record of demosponges through the end of the Neoproterozoic.[1] The earliest Demospongiae fossil was discovered in the lower Cambrian (Series 2, Stage 3; approximately 515 Ma) of the Sirius Passet Biota of North Greenland:[9] this single specimen had a spicule assemblage similar to that found in the subclass Heteroscleromorpha. The earliest sponge-bearing reefs date to the Early Cambrian (they are the earliest known reef structure built by animals), exemplified by a small bioherm constructed by archaeocyathids and calcified microbes at the start of the Tommotian stage about 530 Ma, found in southeast Siberia.[10] A major radiation occurred in the Lower Cambrian and further major radiations in the Ordovician possibly from the middle Cambrian.[11]

The Systema Porifera (2002) book (2 volumes) was the result of a collaboration of 45 researchers from 17 countries led by editors J. N. A. Hooper and R. W. M. van Soest.[12] This milestone publication provided an updated comprehensive overview of sponge systematics, the largest revision of this group (from genera, subfamilies, families, suborders, orders and class) since the start of spongiology in the mid-19th century. In this large revision, the extant Demospongiae were organized into 14 orders that encompassed 88 families and 500 genera. Hooper and van Soest (2002) gave the following classification of demosponges into orders:

However, molecular and morphological evidence show that the Homoscleromorpha do not belong in this class. The Homoscleromorpha was therefore officially taken out of the Demospongiae in 2012, and became the fourth class of phylum Porifera.[13]

Nevadacoelia wistae, a fossil anthaspidellid demosponge from the early Ordovician of Nevada.

Morrow & Cárdenas (2015)[14] propose a revision of the Demospongiae higher taxa classification, essentially based on molecular data of the last ten years. Some demosponge subclasses and orders are actually polyphyletic or should be included in other orders, so that Morrow and Cárdenas (2015) officially propose to abandon certain names: these are the Ceractinomorpha, Tetractinomorpha, Halisarcida, Verticillitida, Lithistida, Halichondrida and Hadromerida. Instead, they recommend the use of three subclasses: Verongimorpha, Keratosa and Heteroscleromorpha. They retain seven (Agelasida, Chondrosiida, Dendroceratida, Dictyoceratida, Haplosclerida, Poecilosclerida, Verongiida) of the 13 orders from Systema Porifera. They recommend to resurrect or upgrade six order names (Axinellida, Merliida, Spongillida, Sphaerocladina, Suberitida, Tetractinellida). Finally, they create seven new orders (Bubarida, Desmacellida, Polymastiida, Scopalinida, Clionaida, Tethyida, Trachycladida). These added to the recently created orders (Biemnida and Chondrillida) make a total of 22 orders in the revised classification. These changes are now implemented in the World Porifera Database[15] part of the World Register of Marine Species.

Sclerosponges

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Sclerosponges were first proposed as a class of sponges, Sclerospongiae, in 1970 by Hartman and Goreau.[16] However, it was later found by Vacelet that sclerosponges occur in different classes of Porifera.[17] That means that sclerosponges are not a closely related (taxonomic) group of sponges and are considered to be a polyphyletic grouping and contained within the Demospongiae. Like bats and birds that independently developed the ability to fly, different sponges developed the ability to build a calcareous skeleton independently and at different times in Earth's history. Fossil sclerosponges are already known from the Cambrian period.[18]

Chaetetids

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Chaetetids, more formally called "chaetetid hyper-calcified demosponges" (West, 2011), are common calcareous fossils composed of fused tubules. They were previously classified as extinct corals, bryozoans, algae, stromatoporoids and sclerosponges. The chaetetid skeleton has now been shown to be of polyphyletic origin and with little systematic value. Extant chaetetids are also described. This skeleton is now known from three demosponge orders (Hadromerida, Poecilosclerida, and Agelasida). Fossil chaetetid hyper-calcified demosponges can only be classified with information on their spicule forms and the original mineralogy of their skeletons (West, 2011).

Reproduction

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Red volcano sponge (Acarnus erithacus, Poecilosclerida).

Spermatocytes develop from the transformation of choanocytes and oocytes arise from archeocytes. Repeated cleavage of the zygote egg takes place in the mesohyl and forms a parenchymella larva with a mass of larger internal cells surrounded by small, externally flagellated cells. The resulting swimming larva enters a canal of the central cavity and is expelled with the exhalant current.

Methods of asexual reproduction include both budding and the formation of gemmules. In budding, aggregates of cells differentiate into small sponges that are released superficially or expelled through the oscula. Gemmules are found in the freshwater family Spongillidae. They are produced in the mesohyl as clumps of archeocytes, are surrounded with a hard layer secreted by other amoebocytes. Gemmules are released when the parent body breaks down, and are capable of surviving harsh conditions. In a favorable situation, an opening called the micropyle appears and releases amoebocytes, which differentiate into cells of all the other types.

Meiosis and recombination

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The cytological progression of porifera oogenesis and spermatogenesis (gametogenesis) shows great similarity to other metazoa.[19] Most of the genes from the classic set of meiotic genes conserved in eukaryotes are upregulated in the sponges Geodia hentscheli and Geodia phlegraei including genes for DNA recombination.[19] Since porifera are the earliest divergent animals, these findings indicate that the basic toolkit of meiosis and recombination were present early in eukaryote evolution.[19]

Economic importance

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The most economically important group of demospongians to human are the bath sponges. These are harvested by divers and can also be grown commercially. They are bleached and marketed; the spongin gives the sponge its softness.

Citations

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  1. ^ a b c Love, Gordon D.; Grosjean, Emmanuelle; Stalvies, Charlotte; Fike, David A.; Grotzinger, John P.; Bradley, Alexander S.; Kelly, Amy E.; Bhatia, Maya; Meredith, William (2009). "Fossil steroids record the appearance of Demospongiae during the Cryogenian period" (PDF). Nature. 457 (7230): 718–721. Bibcode:2009Natur.457..718L. doi:10.1038/nature07673. PMID 19194449. S2CID 4314662. Archived from the original (PDF) on 2018-07-24. Retrieved 2019-01-27.
  2. ^ Vacelet, J. (2006). "New carnivorous sponges (Porifera, Poecilosclerida) collected from manned submersibles in the deep Pacific". Zoological Journal of the Linnean Society. 148 (4): 553–584. Figure 17. doi:10.1111/j.1096-3642.2006.00234.x.
  3. ^ Van Soest, Rob W. M.; Boury-Esnault, Nicole; Vacelet, Jean; Dohrmann, Martin; Erpenbeck, Dirk; De Voogd, Nicole J.; Santodomingo, Nadiezhda; Vanhoorne, Bart; Kelly, Michelle; Hooper, John N. A. (2012). "Global Diversity of Sponges (Porifera)". PLOS ONE. 7 (4): e35105. Bibcode:2012PLoSO...735105V. doi:10.1371/journal.pone.0035105. PMC 3338747. PMID 22558119.
  4. ^ "World Porifera Database". marinespecies.org. Retrieved 21 October 2015.
  5. ^ a b Barnes, Robert D. (1982). Invertebrate Zoology. Philadelphia, PA: Holt-Saunders International. pp. 105–6. ISBN 978-0-03-056747-6.
  6. ^ Riesgo, Ana; Taboada, Sergi; Kenny, Nathan J.; Santodomingo, Nadia; Moles, Juan; Leiva, Carlos; Cox, Eileen; Avila, Conxita; Cardona, Luis; Maldonado, Manuel (2021). "Recycling resources: silica of diatom frustules as a source for spicule building in Antarctic siliceous demosponges". Zoological Journal of the Linnean Society. 192 (2): 259–276. doi:10.1093/zoolinnean/zlaa058.
  7. ^ Schuster A, Vargas S, Knapp IS, Pomponi SA, Toonen RJ, Erpenbeck D, Wörheide G (July 2018). "Divergence times in demosponges (Porifera): first insights from new mitogenomes and the inclusion of fossils in a birth-death clock model". BMC Evol Biol. 18 (1): 114. Bibcode:2018BMCEE..18..114S. doi:10.1186/s12862-018-1230-1. PMC 6052604. PMID 30021516.
  8. ^ Brocks, J. J.; Jarrett, A. J. M.; Sirantoine, E.; Kenig, F.; Moczydłowska, M.; Porter, S.; Hope, J. (2016-03-01). "Early sponges and toxic protists: possible sources of cryostane, an age diagnostic biomarker antedating Sturtian Snowball Earth". Geobiology. 14 (2): 129–149. Bibcode:2016Gbio...14..129B. doi:10.1111/gbi.12165. ISSN 1472-4669. PMID 26507690.
  9. ^ Botting J.P.; Cárdenas P.; Peel J.S. (January 2015). "A crown-group demosponge from the early Cambrian Sirius Passet Biota, North Greenland". Palaeontology. 58 (1): 35–43. Bibcode:2015Palgy..58...35B. doi:10.1111/pala.12133.
  10. ^ Riding Robert; Andrey Yu. Zhuravlev (1995). "Structure and 5 thousand years diversity of oldest sponge-microbe reefs: Lower Cambrian, Aldan River, Siberia". Geology. 23 (7): 649–52. doi:10.1130/0091-7613(1995)023<0649:SADOOS>2.3.CO;2.
  11. ^ Finks, R.M. (1970). "The evolution and ecologic history of sponges during Palaeozoic times". In Fry, W.G. (ed.). Biology of the porifera. Symposium of the Zoological Society of London. Vol. 25. Academic Press. pp. 3–22. ISBN 0-12-613325-5. OCLC 1409104310.
  12. ^ Hooper, J.N.A.; Van Soest, R.W.M. (2002). "Class Demospongiae Sollas, 1885". In Hooper, J.N.A.; Van Soest, R.W.M.; Willenz, P. (eds.). Systema Porifera. A guide to the classification of sponges. Springer. pp. 15–51. doi:10.1007/978-1-4615-0747-5_3. ISBN 978-1-4615-0747-5.
  13. ^ Gazave E.; Lapébie P.; Ereskovsky A.; Vacelet J.; Renard E.; Cárdenas P.; Borchiellini C. (2012). "No longer Demospongiae: Homoscleromorpha formal nomination as a fourth class of Porifera" (PDF). Hydrobiologia. 687 (1): 3–10. Bibcode:2012HyBio.687....3G. doi:10.1007/s10750-011-0842-x. S2CID 14468684.
  14. ^ Morrow Christine; Cárdenas Paco (2015). "Proposal for a revised classification of the Demospongiae (Porifera)". Frontiers in Zoology. 12: 1–27. doi:10.1186/s12983-015-0099-8. PMC 4404696. PMID 25901176.
  15. ^ "World Porifera Database".
  16. ^ Hartman, W.D.; Goreau, T.F. (1970). "Jamaican coralline sponges: Their morphology, ecology and fossil relatives". In Fry, W.G. (ed.). Biology of the porifera. Symposium of the Zoological Society of London. Vol. 25. Academic Press. pp. 205–243. ISBN 0-12-613325-5. OCLC 1409104310. (Cited by "Notes of the Sclerosponge Workshop". Stable Isotope Laboratory, Rosenstiel School of Marine and Atmospheric Science. Miami, FL: University of Miami. 21–23 March 1998. Archived from the original on 18 August 2018. Retrieved 19 December 2018.)
  17. ^ Vacelet, J. (1985). "Coralline sponges and the evolution of the Porifera". The origins and relationships of lower invertebrates : Proceedings of an International symposium held in London, September 1983. Systematics Association. Vol. 28. Clarendon Press. pp. 1–13. ISBN 0-19-857181-X. OCLC 220503346.
  18. ^ Reitner, J. (1992). "Coralline Spongien — Der Versuch einer phylogenetisch-taxonomischen Analyse". Berliner geowissenschaftliche Abhandlungen. Reihe e, Paläobiologie. 1. doi:10.23689/fidgeo-5876.
  19. ^ a b c Koutsouveli V, Cárdenas P, Santodomingo N, Marina A, Morato E, Rapp HT, Riesgo A (December 2020). "The Molecular Machinery of Gametogenesis in Geodia Demosponges (Porifera): Evolutionary Origins of a Conserved Toolkit across Animals". Mol Biol Evol. 37 (12): 3485–3506. doi:10.1093/molbev/msaa183. PMC 7743902. PMID 32929503.

General references

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