Watersipora subtorquata

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Watersipora subtorquata
Watersipora subtorquata (d'Orbigny 1852).jpg
Scientific classification Red Pencil Icon.png
Kingdom: Animalia
Phylum: Bryozoa
Class: Gymnolaemata
Order: Cheilostomatida
Family: Watersiporidae
Genus: Watersipora
Species:
W. subtorquata
Binomial name
Watersipora subtorquata
(d'Orbigny, 1852) [1]
Synonyms

Watersipora edmondsoni Soule & Soule, 1968

Watersipora subtorquata, commonly known as the red-rust bryozoan, is a species of colonial bryozoan in the family Watersiporidae. It is unclear from where it originated but it is now present in many warm-water coastal regions throughout the world, and has become invasive on the west coast of North America and in Australia and New Zealand.

Contents

Description

On flat surfaces W. subtorquata at first forms small encrusting patches, but as these grow they begin to buckle and fold and overgrow itself, forming foliose (leaf-like) structures in sheltered waters. These can be up to 30 cm (12 in) high and 60 cm (24 in) across. The colonies are usually some shade of orange or red, with varying amounts of black. [2] [3]

The individual soft-bodied units in the colony are called zooids and are enclosed in coffin-shaped boxes called zoecia composed of mineralized material. These are arranged neatly, radiating out from where the colony originated. Each zooecium in W. subtorquata is between 0.75 and 1.5 mm (0.03 and 0.06 in) long and 0.3 to 0.7 mm (0.01 to 0.03 in) wide, and the specialised feeding apparatus, the lophophore, of the zooid can protrude through an aperture at the end of the zooecium away from the centre of the colony. The lophophore has about twenty orange tentacles. A hinged lid called the operculum closes this aperture when the lophophore is retracted; the operculum is often black. [3]

Distribution and habitat

W. subtorquata has a global distribution in warm seas. It is not clear where it originated and whether it is just one species or several. It had become established in southern Australia by 1972 and New Zealand ten years later. Curiously, it had been recorded in Australia in 1947 and in New Zealand in 1959 and in both cases initially thrived but later declined and died out. [3] It is a fouling organism and is invasive on the Pacific coast of North America, where it can frequently be found in harbours and estuaries on the coasts of California and Oregon. [2] W. subtorquata can grow on rocks, shells, buoys, pilings, docks, kelp and the hulls of vessels. It is tolerant to copper and may grow on ships hulls painted with anti-fouling, copper-based paint, and may then be overlaid by other, less copper-tolerant fouling organisms. [3]

Ecology

The zooids of W. subtorquata extend their lophophores into the water to catch the small organic particles on which they feed; cilia on the tentacles then waft the food particles towards the central mouth. W. subtorquata is a hermaphrodite; sperm are liberated into the water and drawn into other zooids where they fertilises the eggs. The larvae are red and are at first brooded inside the zoecia. When liberated into the sea they soon settle, undergo a profound metamorphosis and start new colonies. [3]

Related Research Articles

Bryozoa Phylum of colonial aquatic invertebrates called moss animals

Bryozoa are a phylum of simple, aquatic invertebrate animals, nearly all living in sedentary colonies. Typically about 0.5 millimetres long, they have a special feeding structure called a lophophore, a "crown" of tentacles used for filter feeding. Most marine bryozoans live in tropical waters, but a few are found in oceanic trenches and polar waters. The bryozoans are classified as the marine bryozoans (Stenolaemata), freshwater bryozoans (Phylactolaemata), and mostly-marine bryozoans (Gymnolaemata), a few members of which prefer brackish water. 5,869 living species are known. One genus is solitary; all the rest are colonial.

Entoprocta Phylum of aquatic invertebrates

Entoprocta, or Kamptozoa, is a phylum of mostly sessile aquatic animals, ranging from 0.1 to 7 millimetres long. Mature individuals are goblet-shaped, on relatively long stalks. They have a "crown" of solid tentacles whose cilia generate water currents that draw food particles towards the mouth, and both the mouth and anus lie inside the "crown". The superficially similar Bryozoa (Ectoprocta) have the anus outside a "crown" of hollow tentacles. Most families of entoprocts are colonial, and all but 2 of the 150 species are marine. A few solitary species can move slowly.

Cheilostomatida Order of moss animals

Cheilostomatida, also called Cheilostomata, is an order of Bryozoa in the class Gymnolaemata.

<i>Membranipora membranacea</i> Species of moss animal

Membranipora membranacea is a very widely distributed species of marine bryozoan known from the Atlantic and Pacific Oceans, usually in temperate zone environments. This bryozoan is a colonial organism characterized by a thin, mat-like encrustation, white to gray in color. It may be known colloquially as the sea-mat or lacy crust bryozoan and is often abundantly found encrusting seaweeds, particularly kelps.

Cyclostomatida Order of moss animals

Cyclostomatida, or cyclostomata, are an ancient order of stenolaemate bryozoans which first appeared in the Lower Ordovician. It consists of 7+ suborders, 59+ families, 373+ genera, and 666+ species. The cyclostome bryozoans were dominant in the Mesozoic; since that era, they have decreased. Currently, cyclostomes seldom constitute more than 20% of the species recorded in regional bryozoan faunas.

<i>Flustra foliacea</i> Species of moss animal

Flustra foliacea is a species of bryozoans found in the northern Atlantic Ocean. It is a colonial animal that is frequently mistaken for a seaweed. Colonies begin as encrusting mats, and only produce loose fronds after their first year of growth. They may reach 20 cm (8 in) long, and smell like lemons. Its microscopic structure was examined by Robert Hooke and illustrated in his 1665 work Micrographia.

Cauloramphus disjunctus is a species of small colonial bryozoan found encrusting rocks in shallow parts of the sea near Japan. Fossils of this species have been found that date back a million years.

Amathia verticillata, commonly known as the spaghetti bryozoan, is a species of colonial bryozoans with a bush-like structure. It is found in shallow temperate and warm waters in the western Atlantic Ocean and the Caribbean Sea and has spread worldwide as a fouling organism. It is regarded as an invasive species in some countries.

<i>Conopeum seurati</i> Species of moss animal

Conopeum seurati is a species of colonial bryozoan in the order Cheilostomatida. It is native to the northeastern Atlantic Ocean, the North Sea and the Mediterranean Sea. This species has been introduced to New Zealand and Florida.

<i>Fenestella</i> (bryozoan) An extinct Bryozoa

Fenestella is a genus of bryozoans or moss animals, forming fan–shaped colonies with a netted appearance. It is known from the Middle Ordovician to the early Upper Triassic (Carnian), reaching its largest diversity during the Carboniferous. Many hundreds of species have been described from marine sediments all over the world.

<i>Electra pilosa</i> Species of moss animal

Electra pilosa is a species of colonial bryozoan in the order Cheilostomatida. It is native to the northeastern and northwestern Atlantic Ocean and is also present in Australia and New Zealand.

<i>Cryptosula pallasiana</i> Species of moss animal

Cryptosula pallasiana is a species of colonial bryozoan in the order Cheilostomatida. It is native to the Atlantic Ocean where it occurs in northwestern Europe and northern Africa, and the eastern seaboard of North America. It has been accidentally introduced to the western coast of North America and to other parts of the world.

<i>Beania magellanica</i> Species of bryozoan

Beania magellanica is a species of colonial bryozoan in the family Beaniidae. It has a cosmopolitan distribution, occurring in shallow waters in the Atlantic and Pacific Oceans and in Antarctica.

<i>Electra posidoniae</i> Species of bryozoan (marine moss animal)

Electra posidoniae is a species of bryozoan in the family Electridae. It is endemic to the Mediterranean Sea, and is commonly known as the Neptune-grass bryozoan because it is exclusively found growing on seagrasses, usually on Neptune grass, but occasionally on eelgrass.

Callopora lineata is a species of colonial bryozoan in the family Calloporidae. It is found on rocky shores in the Atlantic Ocean and the Mediterranean Sea.

<i>Chorizopora brongniartii</i> Species of bryozoan (marine moss animal)

Chorizopora brongniartii is a species of bryozoan in the family Chorizoporidae. It is an encrusting bryozoan, the colonies forming spreading patches. It has a widespread distribution in tropical and temperate seas.

Bicellariella ciliata is a species of bryozoan belonging to the family Bugulidae. It is found in shallow water on both sides of the Atlantic Ocean, the Mediterranean Sea and the Indo-Pacific region.

Crisularia plumosa is a species of bryozoan belonging to the family Bugulidae, commonly known as the feather bryozoan. It is native to the Atlantic Ocean.

Walkeria tuberosa is a species of colonial bryozoan in the order Ctenostomatida. It is native to the Mediterranean Sea, and has spread to the Red Sea and the Indo-Pacific region.

Walkeria uva is a species of colonial bryozoan in the order Ctenostomatida. It occurs on either side of the Atlantic Ocean, in the Baltic Sea, in the Mediterranean Sea and in the Indo-Pacific region.

References

  1. Gordon, Dennis (2015). "Watersipora subtorquata (d'Orbigny, 1852)". WoRMS. World Register of Marine Species . Retrieved 18 March 2016.
  2. 1 2 Light, Sol Felty; Carlton, James T. (2007). The Light and Smith Manual: Intertidal Invertebrates from Central California to Oregon. University of California Press. p. 903. ISBN   978-0-520-23939-5.
  3. 1 2 3 4 5 Cohen, Andrew N. (1 September 2011). "Watersipora subtorquata d'Orbigny, 1852". The Exotics Guide: Non-native Marine Species of the North American Pacific Coast. Center for Research on Aquatic Bioinvasions, Richmond, CA, and San Francisco Estuary Institute, Oakland, CA. Retrieved 19 March 2016.