Tubastraea tagusensis

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Tubastraea tagusensis
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Scientific classification OOjs UI icon edit-ltr.svg
Domain: Eukaryota
Kingdom: Animalia
Phylum: Cnidaria
Class: Hexacorallia
Order: Scleractinia
Family: Dendrophylliidae
Genus: Tubastraea
Species:
T. tagusensis
Binomial name
Tubastraea tagusensis
Wells, 1982

Tubastraea tagusensis is a hard coral species in the family Dendrophylliidae. [1] The species is azooxanthellate, thus does not need sunlight for development, and does not form reefs. It is native to the Galapagos Islands but has become invasive along the Atlantic coast of South America.

Contents

Distribution

Tubastraea tagusensis was first described from the Galapagos Archipelago. Later it was also found in the Nicobar Islands, in Palau and Kuwait. It was first found to be invasive on the Brazilian coast in the 1980s on oil platforms north of Rio de Janeiro. The species can be found in shady places such as caves or beneath boulders on rocky shores. [2] Species in this genus are usually native to the Indian and Pacific Oceans, [3] and some are considered highly invasive along certain coastlines. [4]

Invasiveness

Due to their prolific spread, the species has locally caused severe ecological damage. [4] It has expanded to the Southwest Atlantic Ocean, specifically along the Brazilian coastline where it has endangered other ecosystems such as mussel beds, the Amazon River's reef system, and rocky shores. [5] It is thought that the species was able to spread through the ballast water in ships. [2] Once they arrive at their new location, it can alter the structure and function of the community. [2] Within the invaded area, T. tagusensis prefers taking over reef walls more so than reef tops, [6] displacing native benthic species. [7] Because it thrives in warmer temperatures, it is predicted that rising ocean temperatures in the next few years will enable the species to expand further south, into the southwest Atlantic. [7]

Part of the species' invasive capabilities seems to be based on the lack of any requirement for a specific substrate to grow. [2] It also has an effective way of regenerating, which involves the growth of polyps from fragmentation into fully functioning corals. [8] A study shows that temperature and food supply does not significantly limit the number and formation of regenerating polyps. [8] Because T. tagusensis can grow so fast and has few predators in general, it frequently is able to cover 95% of the area it invades. [4]

Invasion monitoring

Various approaches have been used to control the spread of the species. One method is known as the "wrapping method", where plastic and raffia sheets are used to severely limit the coral's food and oxygen supply, causing death after several days. [9]

Related Research Articles

<span class="mw-page-title-main">Anthozoa</span> Class of cnidarians without a medusa stage

Anthozoa is a class of marine invertebrates which includes the sea anemones, stony corals and soft corals. Adult anthozoans are almost all attached to the seabed, while their larvae can disperse as part of the plankton. The basic unit of the adult is the polyp; this consists of a cylindrical column topped by a disc with a central mouth surrounded by tentacles. Sea anemones are mostly solitary, but the majority of corals are colonial, being formed by the budding of new polyps from an original, founding individual. Colonies are strengthened by calcium carbonate and other materials and take various massive, plate-like, bushy or leafy forms.

<span class="mw-page-title-main">Scleractinia</span> Order of Hexacorallia which produce a massive stony skeleton

Scleractinia, also called stony corals or hard corals, are marine animals in the phylum Cnidaria that build themselves a hard skeleton. The individual animals are known as polyps and have a cylindrical body crowned by an oral disc in which a mouth is fringed with tentacles. Although some species are solitary, most are colonial. The founding polyp settles and starts to secrete calcium carbonate to protect its soft body. Solitary corals can be as much as 25 cm (10 in) across but in colonial species the polyps are usually only a few millimetres in diameter. These polyps reproduce asexually by budding, but remain attached to each other, forming a multi-polyp colony of clones with a common skeleton, which may be up to several metres in diameter or height according to species.

<i>Lophelia</i> Species of cnidarian

Lophelia pertusa, the only species in the genus Lophelia, is a cold-water coral that grows in the deep waters throughout the North Atlantic ocean, as well as parts of the Caribbean Sea and Alboran Sea. Although L. pertusa reefs are home to a diverse community, the species is extremely slow growing and may be harmed by destructive fishing practices, or oil exploration and extraction.

<i>Tubastraea</i> Genus of corals

Tubastraea, also known as sun coral or sun polyps, is a genus of coral in the phylum Cnidaria. It is a cup coral in the family Dendrophylliidae.

<i>Pavona duerdeni</i> Species of coral

Pavona duerdeni, the porkchop coral, is a coral that forms clusters of cream-colored lobes or discs. They grow in large colonies, divided into ridges or hillocks. The coral is considered to be uncommon due to its low confirmed abundance, yet they are more commonly found in Hawaii, the Indo-Pacific, and the Tropical Eastern Pacific. They make up some of the largest colonies of corals, and have a slow growth rate, as indicated by their dense skeletons. Their smooth appearance is due to their small corallites growing on their surface.

<i>Diploria</i> Genus of corals

Diploria is a monotypic genus of massive reef building stony corals in the family Mussidae. It is represented by a single species, Diploria labyrinthiformis, commonly known as grooved brain coral and is found in the western Atlantic Ocean and Caribbean Sea. It has a familiar, maze-like appearance.

<span class="mw-page-title-main">Orange cup coral</span> Species of coral

Orange cup coral belongs to a group of corals known as large-polyp stony corals. This non-reef building coral extends beautiful translucent tentacles at night. Tubastraea coccinea is heterotrophic and does not contain zooxanthellae in its tissues as many tropical corals do, allowing it to grow in complete darkness as long as it can capture enough food.

<i>Paragorgia arborea</i> Species of coral

Paragorgia arborea is a species of coral in the family Paragorgiidae, commonly known as the bubblegum coral because of its bulbous branch tips. It mainly grows in depths between 200 and 1,300 metres at temperatures between 3 and 8 °C. It is found widespread in the Northern Atlantic Ocean and Northern Pacific Ocean on seamounts and knolls, and was first described by the Swedish naturalist Carl Linnaeus in 1758. P. arborea is a foundation species, providing a habitat for other species in deep sea coral ecosystems.

<i>Astroides</i> Genus of corals

Astroides is a genus of stony cup corals in the family Dendrophylliidae. It is monotypic and the only species is Astroides calycularis, which is endemic to the western Mediterranean Sea. The species was first described in 1766 by the German naturalist Peter Simon Pallas.

<i>Carijoa riisei</i> Species of coral

Carijoa riisei, the snowflake coral or branched pipe coral, is a species of soft coral in the family Clavulariidae. It was originally thought to have been native to the tropical western Atlantic Ocean and subsequently spread to other areas of the world such as Hawaii and the greater tropical Pacific, where it is regarded as an invasive species. The notion that it is native to the tropical western Atlantic was perpetuated from the fact that the type specimen, described by Duchassaing & Michelotti in 1860, was collected from the US Virgin Islands. It has subsequently been shown through molecular evidence that it is more likely that the species is in fact native to the Indo-Pacific and subsequently spread to the western tropical Atlantic most likely as a hull fouling species prior to its original description.

<i>Turbinaria</i> (coral) Genus of corals

Turbinaria is a genus of colonial stony corals in the family Dendrophylliidae. Common names for this genus include disc coral, scroll coral, cup coral, vase coral, pagoda coral and ruffled ridge coral. These corals are native to the Red Sea, Indian Ocean, Japan and the south Central Pacific Ocean.

<i>Dactylotrochus</i> Genus of corals

Dactylotrochus is a genus of large polyp stony corals from the Red Sea and western Pacific Ocean. It is monotypic with a single species, Dactylotrochus cervicornis. It inhabits the deep sea and is believed to be azooxanthellate.

<span class="mw-page-title-main">Euphylliidae</span> Family of marine coral known as Euphylliidae

Euphylliidae are known as a family of polyped stony corals under the order Scleractinia.

<i>Pocillopora capitata</i> Species of coral

Pocillopora capitata, commonly known as the cauliflower coral, is a principal hermatypic coral found in the Eastern Tropical Pacific. P. capitata is a colonial species of stony coral of the class Anthozoa, the order Scleractinia, and the family Pocilloporidae. This species was first documented and described by Addison Emery Verrill in 1864. P. capitata is threatened by many of the effects of climate change, including — but not limited to — increased temperatures that cause bleaching and hypoxic conditions.

<i>Heteropsammia</i> Genus of corals

Heteropsammia is a genus of apozooxanthellate corals that belong to the family Dendrophylliidae.

<i>Tubastraea faulkneri</i> Species of coral

Tubastraea faulkneri, common name Orange sun coral, is a species of large-polyp stony corals belonging to the family Dendrophylliidae. Other common names of this coral are Orange Cup Coral, Sun Coral, Orange Polyp Coral, Rose Sun Coral, Golden Cup Coral, Sun Flower Coral, and Tube Coral.

<i>Tubastraea micranthus</i> Species of coral

Tubastraea micranthus, commonly known as the black sun coral, is a coral from the Tubastraea genus, which comprises the sun corals. They have a dark green color and they grow and branch out in bush/tree like colonies. The habitat of T. micranthus ranges from the Red Sea to Madagascar, and into the Pacific as far as Fiji. It has been observed in waters as shallow as 4m to a depth of 138m in the new habitat. It is notable though, that in its native habitats Tubastraea micranthus has only been found at depths up to 50 meters and any discovered at lower depths are in invasive environments. Furthermore, there have been obscure sightings of Tubastraea micranthus in Korea.

<i>Ophiothela mirabilis</i> Species of echinoderm

Ophiothela mirabilis is a species of ophiuroid brittle star within the family Ophiotrichidae. O. mirabilis is an epizoic species which have a non-parasitic relationship with host sponges or gorgonians. Although native to the Pacific Ocean, it has invaded the Caribbean and southwestern Atlantic since late 2000. Many of its characteristics, including reproduction and diet, allow O. mirabilis opportunities to quickly propagate and spread through habitats.

Cladopsammia manuelensis, more commonly known as sun coral or cup coral, is an azooxanthellate, "true" coral species, and stony coral species. Cladopsammia manuelensis is present in marine environments only and is home to the deep and shallow waters of the Atlantic and Indian Oceans.

References

  1. Hoeksema, B. W.; Cairns, S. (2021). "World List of Scleractinia. Tubastraea tagusensis Wells, 1982". WoRMS. World Register of Marine Species . Retrieved 6 April 2021.{{cite web}}: CS1 maint: multiple names: authors list (link)
  2. 1 2 3 4 Silva, Amanda Guilherme da; Paula, Alline Figueira de; Fleury, Beatriz Grosso; Creed, Joel Christopher (2014). "Corrigendum to "Eleven years of range expansion of two invasive corals (Tubastraea coccinea and Tubastraea tagusensis) through the southwest Atlantic (Brazil) [Estuar. Coastal Shelf Sci. 141 (20 March 2014) 9–16]". Estuarine, Coastal and Shelf Science. 146: 139. Bibcode:2014ECSS..146..139S. doi: 10.1016/j.ecss.2014.05.004 . ISSN   0272-7714.
  3. Carpes, Raphael de Mello (2020). "Mutagenic, genotoxic and cytotoxic studies of invasive corals Tubastraea coccinea and Tubastraea tagusensis". Journal of Applied Toxicology. 40 (3): 373–387. doi:10.1002/jat.3911. PMID   31849086. S2CID   209408655.
  4. 1 2 3 Capel, K.C.C.; Migotto, A.E.; Zilberberg, C.; Lin, M.F.; Forsman, Z.; Miller, D.J.; Kitahara, M.V. (2016). "Complete mitochondrial genome sequences of Atlantic representatives of the invasive Pacific coral species Tubastraea coccinea and T. tagusensis (Scleractinia, Dendrophylliidae): Implications for species identification". Gene. 590 (2): 270–277. doi:10.1016/j.gene.2016.05.034. ISSN   0378-1119. PMID   27234370.
  5. de Oliveira Soares, Marcelo; Davis, Marcus; de Macêdo Carneiro, Pedro Bastos (2016-12-20). "Northward range expansion of the invasive coral (Tubastraea tagusensis) in the southwestern Atlantic". Marine Biodiversity. 48 (3): 1651–1654. doi:10.1007/s12526-016-0623-x. ISSN   1867-1616. S2CID   15188116.
  6. Miranda, Ricardo J.; Cruz, Igor C. S.; Barros, Francisco (2016-02-10). "Effects of the alien coral Tubastraea tagusensis on native coral assemblages in a southwestern Atlantic coral reef". Marine Biology. 163 (3): 45. Bibcode:2016MarBi.163...45M. doi:10.1007/s00227-016-2819-9. ISSN   0025-3162. S2CID   253741961.
  7. 1 2 Mantelatto, M. C.; Creed, J. C.; Mourão, G. G.; Migotto, A. E.; Lindner, A. (2011). "Range expansion of the invasive corals Tubastraea coccinea and Tubastraea tagusensis in the Southwest Atlantic". Coral Reefs. 30 (2): 397. Bibcode:2011CorRe..30..397M. doi: 10.1007/s00338-011-0720-z . ISSN   0722-4028.
  8. 1 2 Luz, B.L.P.; Capel, K.C.C.; Zilberberg, C.; Flores, A.A.V.; Migotto, A.E.; Kitahara, M.V. (2018). "A polyp from nothing: The extreme regeneration capacity of the Atlantic invasive sun corals Tubastraea coccinea and T. tagusensis (Anthozoa, Scleractinia)". Journal of Experimental Marine Biology and Ecology. 503: 60–65. doi:10.1016/j.jembe.2018.02.002. ISSN   0022-0981. S2CID   89751109.
  9. Mantelatto, Marcelo; Pires, Larissa; de Oliveira, Giselle; Creed, Joel (2015). "A test of the efficacy of wrapping to manage the invasive corals Tubastraea tagusensis and T. coccinea". Management of Biological Invasions. 6 (4): 367–374. doi: 10.3391/mbi.2015.6.4.05 .
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