Ophiomusa

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Ophiomusa
Ophiomusa acufera (MNHN-IE-2013-10284) 01.jpg
Ophiomusa acufera
Scientific classification OOjs UI icon edit-ltr.svg
Domain: Eukaryota
Kingdom: Animalia
Phylum: Echinodermata
Class: Ophiuroidea
Order: Amphilepidida
Family: Ophiolepididae
Genus: Ophiomusa
Hertz, 1927

Ophiomusa is a genus of echinoderms belonging to the family Ophiolepididae [1] that includes: sea urchins, sand dollars and sea cucumbers. Ophiurida are similar to starfish; they both have a central disc and five arms sprouting from the disc. One of the main distinguishing factors of an Ophiuroid is its arms; the arms of an Ophiurida are longer, thinner, and distinctly separated in comparison to those of a sea star.

Contents

Description

Ophiuroids, also known as brittle stars, are relatively small. Brittle stars do not have a brain or eyes, but they do have a stomach, sex organs, and a mouth with five jaws. They have five long, thin, spiny arms made of calcium carbonate plates [2] connected by a central disc; the size of their disk ranges from 6-12mm disc diameter (d.d.), and their arms range from sizes greater than 4 times d.d. in length. The first dorsal arm plates are in the shape of a trapezoid, the next dorsal arm changes to a triangular form and are each separated from each other. [3] Their arms contribute to the star's “snake-like” movement across the bottom sediments as well as its feeding mechanisms. The mouth of an Ophiuroid is located on the oral surface which is facing down but is held off the sea floor. An interesting fact about Ophiuroids is that, like regular sea stars, they have the ability to regenerate a severed arm, they even possess the ability to cut off their own arm if necessary. This is referred to as autotomy (self-cut) which is how it got its name, brittle star. The spiny arms of the brittle star allow the animal to roam without losing grip from the substratum. [4]

Distribution

Ophiuroids are found through different regions and zones; they have been observed in sea floors in both tropic and polar regions. [5] According to a NOAA dive report, there was a high density ophiuroids across the sedimented seafloor off the North Carolina coast and can also be seen along the Yucatán Peninsula. [6] The genus has almost cosmopolitan distribution, [1] but little is known about them.

Reproduction

Ophiuroids can reproduce both asexually and sexually, but most reproduce sexually. Asexual reproduction happens when the disc is split in half, this process is called fission. Most species are hermaphrodites, which means that the animal has both male and female sex organs needed to reproduce. [7] Brittle stars release eggs and sperm into the water, the larvae are called Ophioplutei. [8] They settle in the seafloor and eventually form a brittle star. Ophiuroids reach full sexual maturity after about two years and their lifespans can be up to about five years. [2]

Life stages

When brittle stars sexually reproduce, their fertilized eggs float in the water and eventually develop into larvae. Ophioplutei feed on plankton. Brittle star larvae are small and mostly clear. These larvae then go through metamorphosis, this is the stage where they develop their five arms. These young brittle stars then move on to the settling stage where they sink to the bottom of the ecosystem where they will spend the rest of their life in. [8]

Diet

Ophiuroids are carnivorous and omnivorous, they use their arms to catch food particles in the water or even food along the seafloor. [4] Their gut content varied based on where the brittle stars were placed: those living in shallow habitats mainly consumed plankton and macroalgae whereas those living in deep sea habitats mainly consumed brittle star fragments. In an experiment, it was observed that the main contents in six different brittle stars included macroalgae, diatoms, bivalves, gastropods, cyanobacteria, marine fungi, and even unidentified eggs (small organisms, brittle star fragments, and sponges). [9]

Species: [1]

Related Research Articles

<span class="mw-page-title-main">Brittle star</span> Echinoderms, closely related to starfish

Brittle stars, serpent stars, or ophiuroids are echinoderms in the class Ophiuroidea, closely related to starfish. They crawl across the sea floor using their flexible arms for locomotion. The ophiuroids generally have five long, slender, whip-like arms which may reach up to 60 cm (24 in) in length on the largest specimens.

<span class="mw-page-title-main">Ophiurida</span> Order of echinoderms

The Ophiurida are an order of echinoderms within the class Ophiuroidea. It includes the vast majority of living brittle stars.

<span class="mw-page-title-main">Amphiuridae</span> Family of brittle stars

Amphiuridae are a large family of brittle stars of the suborder Gnathophiurina. Some species are used to study echinoderm development and bioluminescence.

Ophiocanops fugiens is a living species in the brittle star family Ophiocanopidae. Though once considered to be the only one living species in this brittle star family, recent research has brought to light three specimens of Ophiocanops that differ substantially from O. fugiens. It has been regarded as the most primitive brittle star, close to Paleozoic forms, though other authors have disagreed with the view. Classification of O. fugiens is highly argued. Ophiocanops is usually placed in the order Oegophiurida or regarded as a genus incertae sedis or even given its own subclass Oegophiuridea. Some recent data suggest its relationship to the extant family Ophiomyxidae.

<i>Ophiura ophiura</i> Species of brittle star

Ophiura ophiura or the serpent star is a species of brittle star in the order Ophiurida. It is typically found on coastal seabeds around northwestern Europe.

<i>Ophionotus victoriae</i> Species of brittle star

Ophionotus victoriae is a species of brittle star in the order Ophiurida. It has a circumpolar distribution around Antarctica.

<i>Ophiothrix suensoni</i> Species of brittle star

Ophiothrix suensoni, Suenson's brittle star or the sponge brittle star, is a species of marine invertebrate in the order Ophiurida. It is found in the Caribbean Sea and Gulf of Mexico. It is included in the subgenus Acanthophiothrix making its full scientific name Ophiothrix (Acanthophiothrix) suensoni.

<i>Amphiodia pulchella</i> Species of brittle star

Amphiodia pulchella is a species of brittle star belonging to Amphiuridae, a diverse family of the Ophiurida order.

<i>Ophiocoma scolopendrina</i> Species of brittle star

Ophiocoma scolopendrina is a species of brittle star belonging to the family Ophiocomidae. Restricted to life in the intertidal, they live in the Indo-Pacific. They can typically be found within crevices or beneath borders on intertidal reef platforms. Unlike other Ophiocoma brittle stars, they are known for their unique way of surface-film feeding, using their arms to sweep the sea surface and trap food. Regeneration of their arms are a vital component of their physiology, allowing them to efficiently surface-film feed. These stars also have the ability to reproduce throughout the year, and have been known to have symbiotic relationships with other organisms.

<span class="mw-page-title-main">Brisingidae</span> Family of starfishes

The Brisingidae are a family of starfish found only in the deep sea. They inhabit both the Atlantic and Pacific Oceans at abyssal depths, and also occur in the Southern Ocean and around Antarctica at slightly shallower depths.

<i>Amphipholis squamata</i> Species of brittle star

Amphipholis squamata, common names brooding snake star and dwarf brittle star, is a species complex of brittle stars in the family Amphiuridae.

<i>Astroboa nuda</i> Species of brittle star

Astroboa nuda is a type of basket star from Gorgonocephalidae family. Its large arms are highly branched. It inhabits reef slopes exposed to current in diverse places such as the Red Sea and New Caledonia. During the day it coils into a tight ball. At night it spreads arms to form a basket to feed on plankton. They are part of the class Ophiuroidea, which is the largest class of echinoderms. The name Ophiuroidea comes from the roots, ophis, meaning snake and oura, which means tail, referring to the thin, spiraling shape of the basket stars’ arms.

<i>Ophiocoma echinata</i> Species of brittle star

Ophiocoma echinata, the spiny ophiocoma, is a species of brittle star belonging to the family Ophiocomidae. It is the type species of the genus Ophiocoma and is found in the tropical west Atlantic Ocean, the Caribbean Sea and the Gulf of Mexico.

<i>Ophiactis</i> Genus of brittle stars

Ophiactis is a genus of brittle stars (Ophiuroidea).

<i>Ophiactis savignyi</i> Species of brittle star

Ophiactis savignyi is a species of brittle star in the family Ophiactidae, commonly known as Savigny's brittle star or the little brittle star. It occurs in the tropical and subtropical parts of all the world's oceans and is thought to be the brittle star with the most widespread distribution. It was first described by the German zoologists Johannes Peter Müller and Franz Hermann Troschel in 1842. The specific name honours the French zoologist Marie Jules César Savigny.

<i>Astrobrachion adhaerens</i> Species of brittle star

Astrobrachion adhaerens is a basket star in the Euryalidae family. Along with A. constrictum, it is one of only two species in the genus Astrobrachion. Both species live in association with soft corals in moderately deep water. It is endemic to the west, north and east coasts of Australia, the Kermadec Islands and Lord Howe Island.

<i>Acrocnida</i> Genus of echinoderms

Acrocnida is a genus of brittle stars in the family Amphiuridae. The genus contains three members: Acrocnida brachiata, Acrocnida semisquamata, and Acrocnida spatulispina. There has also been observed hybridization between both Acrocnida brachiata and Acrocnida spatulispina. It is a fairly common genus, usually found along the coasts of Northwestern Europe, but with some species like semisquamata appearing around West Africa. Members of this genus primarily prefer intertidal and sub-tidal habitats, and they are they are less likely to be found in intertidal areas by comparison. This genus was not officially classified until 1926, by T. Gislén. One study found that due to the increased calcification that Acrocnida brachiata causes could be a potential source of Carbon Dioxide for not only the warm, shallow environments they live in, but also for the atmosphere.

<i>Ophiocomella alexandri</i> Species of brittle star

Ophiocomella alexandri, known as Alexander's spiny brittle star or banded brittle star, is a species of marine brittle star. It was first described to science by Theodore Lyman in 1860. Lyman states in his description that the animal is named for his friend, Alexander E. R. Agassiz, the son of Lyman's mentor, Louis Agassiz.

<i>Amphiodia occidentalis</i> Species of brittle star

Amphiodia occidentalis, the long-armed brittle star, is a species of brittle star belonging to the family Amphiuridae. It is found in the Eastern Pacific coast from Alaska to USA, often on the seafloor within intertidal and subtidal zones. Within these areas, it is often found buried a few centimeters under the sand with 2 or 3 arms extending through the surface.

<span class="mw-page-title-main">Ophiothela mirabilis</span> Species of echinoderm

Ophiothela mirabilis is a species of ophiuroid brittle stars 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.

References

  1. 1 2 3 "Ophiomusa". Global Biodiversity Information Facility . Retrieved 22 October 2021.
  2. 1 2 "Brilliant Brittle Stars". ThoughtCo. Retrieved 2022-04-19.
  3. Na, Jieying; Chen, Wanying; Zhang, Dongsheng; Zhang, Ruiyan; Lu, Bo; Shen, Chengcheng; Zhou, Yadong; Wang, Chunsheng (2021-12-01). "Morphological description and population structure of an ophiuroid species from cobalt-rich crust seamounts in the Northwest Pacific: Implications for marine protection under deep-sea mining". Acta Oceanologica Sinica. 40 (12): 79–89. doi:10.1007/s13131-020-1666-1. ISSN   1869-1099. S2CID   244634532.
  4. 1 2 Niesen, Thomas M. (2000). The marine biology coloring book (2nd ed.). New York: HarperResource. ISBN   0-06-273718-X. OCLC   44891985.
  5. Okanishi, Massanori; Fujita, Toshihiko; Maekawa, Yu; Sasaki, Takenori (2017-03-27). "Non-destructive morphological observations of the fleshy brittle star, Asteronyx loveni using micro-computed tomography (Echinodermata, Ophiuroidea, Euryalida)". ZooKeys (663): 1–19. doi: 10.3897/zookeys.663.11413 . ISSN   1313-2970. PMC   5523172 . PMID   28769615.
  6. Durán-González, Alicia; Laguarda-Figueras, Alfredo; Solís-Marín, Francisco-Alonso; Gracia, Adolfo; Vázquez-Bader, Ana Rosa (2021-03-22). "Biodiversidad de ofiuroideos (Echinodermata: Ophiuroidea) del talud de la Península de Yucatán, México". Revista de Biología Tropical (in Spanish). 69 (Suppl.1): S132–S153. doi: 10.15517/rbt.v69iSuppl.1.46337 . ISSN   2215-2075. S2CID   233630636.
  7. "Ophiuroidea - an overview | ScienceDirect Topics". www.sciencedirect.com. Retrieved 2022-04-19.
  8. 1 2 "Ophiothrix fragilis |" . Retrieved 2022-04-19.
  9. Volage, Fanny; Hamel, Jean‐François; Mercier, Annie (September 2021). "Population structure, habitat preferences, feeding strategies, and diet of the brittle star Ophiopholis aculeata in nearshore and offshore habitats of the northwest Atlantic". Invertebrate Biology. 140 (3). doi:10.1111/ivb.12346. ISSN   1077-8306. S2CID   239279664.
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