Ophiomastix wendtii explained

Ophiomastix wendtii, also known by its common name, the red ophiocoma, and formerly as Ophiocoma wendtii, is a species of brittle stars that inhabits coral reefs from Bermuda to Brazil, primarily in the Caribbean sea. These brittle stars have long, thin arms emanating from a small, disk-shaped body, and club-like spines along its arms. They are about the size of an outstretched human hand.

Taxonomy

Ophiomastix wendtii has been referred to by a number of different proposed names. Among these proposed names is Ophiocoma riisei, suggested by Christian Frederik Lütken in 1856, though the name was never commonly accepted.^[1] It was originally named Ophiocoma wendtii by J. Muller and F. H. Troschel in 1842, though in 2018, Timothy O’Hara categorized O. wendtii under the genus Ophiomastix, as one of four genera previously thought to constitute Ophiocoma.^[2] The Ophiomastix genus is characterized by bearing spines, twice as high as they are wide. O. wendtii is considered to be among the macrobenthos functional group, alongside its fellow Ophiuroidea.

The etymology of wendtii supposedly comes from a Captain Johann Wilhelm Wendt.^[3]

Distribution and habitat

Ophiomastix wendtii is commonly found in reef rubble of the Caribbean Sea, particularly in the Gulf of Mexico. It is most commonly found near Belize and Costa Rica.^[4] However, it has been reported as far south as near Brazil.^[5] It has also, however, been reported in the Mozambique Channel, between the eastern coast of Africa and Madagascar.^[6] It is typically found within a depth range of 1 to 27 meters.

Characteristics and behavior

Ophiomastix wendtii, being a member of the Ophiomastix genus, bears the aforementioned long, club-shaped spines on its arms.^[7] O. wendtii can change its color, by means of phototropic chromatophores.^[8] O. wendtii is typically deep crimson in color, and fades to a neutral beige in the night.^[9] Its color can be artificially changed by alterations in light exposure. The O. wendtii has a system of protection on its arms, covered with calcite crystals. It is thought to reinforce the calcite on its arms with magnesium-rich nanoprecipitates, making its protective crystals more difficult to crack.^[10] Much like other echinoderms, O. wendtii forms a mineralized skeleton.^[11] It inhabits reef rubble, and is averse to light, preferring to come out during night over day.^[12] The pluteus larvae of O. wendtii are planktotrophic, feeding on plankton.

Visual system

In addition to functioning as an armor and giving structural support, the crystals on its arms were, until recently, thought to form a visual system. They minimize spherical aberration of incoming light and have excellent optical properties. The lenses were suggested to work by filtering and focusing light on an underlying photoreceptor system. Nerve bundles under each lens, presumed to be light-sensitive, would transmit the optical information to the rest of the nervous system.^[13] However, the discovery of nerves and photoreceptor cells in between, rather than beneath, the lenses suggests that this system may not rely on their optical properties.^[14] The only known animals to employ a similar visual system were the now-extinct trilobites. Researchers found that O. wendtii could actively search out areas based on color contrast, suspecting that this might be a behavior designed to evade predators. It is also suspected that its color-changing ability may play a role in its complex vision system.

Notes and References

1. Web site: WoRMS - World Register of Marine Species . Ophiomastix wendtii (Müller & Troschel, 1842). 2021-04-03. www.marinespecies.org. en.
2. O'Hara T . Phylogenomics, life history and morphological evolution of ophiocomid brittlestars. Molecular Phylogenetics and Evolution. 2019. 130. 67–80. 10.1016/j.ympev.2018.10.003. 30308280. 52965126 .
3. Web site: Captain Johann Wilhelm Wendt . 2021-04-03. Biographical Etymology of Marine Organism Names (BEMON) .
4. Web site: Ophiocoma wendtii, red ophiocoma. 2021-04-23. www.sealifebase.ca.
5. Web site: Ophiomastix wendtii (Müller & Troschel, 1842). 2021-04-03. Global Biodiversity Information Facility (GBIF) . en.
6. Web site: WoRMS - World Register of Marine Species - Ophiomastix wendtii (Müller & Troschel, 1842). 2021-04-23. www.marinespecies.org.
7. Book: Sea stars, sea urchins, and allies : echinoderms of Florida and the Caribbean. 1995. Smithsonian Institution Press. Hendler G . 1-56098-450-3. Washington. 30972625.
8. O'Hara TD, Hugall AF, Cisternas PA, Boissin E, Bribiesca-Contreras G, Sellanes J, Paulay G, Byrne M . 6 . Phylogenomics, life history and morphological evolution of ophiocomid brittlestars . Molecular Phylogenetics and Evolution . 130 . 67–80 . January 2019 . 30308280 . 10.1016/j.ympev.2018.10.003 . 52965126 .
9. 2020-01-20. Extraocular Vision in a Brittle Star Is Mediated by Chromatophore Movement in Response to Ambient Light. Current Biology. en. 30. 2. 319–327.e4. 10.1016/j.cub.2019.11.042. 0960-9822. free. Sumner-Rooney . Lauren . Kirwan . John D. . Lowe . Elijah . Ullrich-Lüter . Esther . 31902727 .
10. Broad A, Ford IJ, Duffy DM, Darkins R . Magnesium-rich nanoprecipitates in calcite: atomistic mechanisms responsible for toughening in Ophiocoma wendtii . Physical Chemistry Chemical Physics . 22 . 18 . 10056–10062 . May 2020 . 32338264 . 10.1039/D0CP00887G . 2020PCCP...2210056B . free .
11. Hamilton MK . Identification and characterization of ETS family gene members in Ophiocoma wendtii. . California State University . Long Beach . 2013 . Masters .
12. Sumner-Rooney L, Kirwan JD, Lowe E, Ullrich-Lüter E. January 2020. Extraocular Vision in a Brittle Star Is Mediated by Chromatophore Movement in Response to Ambient Light. Current Biology. 30. 2. 319–327.e4. 10.1016/j.cub.2019.11.042. 31902727. free. 209550646.
13. Web site: Roach J . 22 August 2001 . National Geographic News . Brittle Star Found Covered With Optically Advanced "Eyes". https://web.archive.org/web/20011003095849/http://news.nationalgeographic.com/news/2001/08/0822_starfisheyes.html . 2001-10-03 .
14. Sumner-Rooney L, Rahman IA, Sigwart JD, Ullrich-Lüter E . Whole-body photoreceptor networks are independent of 'lenses' in brittle stars . Proceedings. Biological Sciences . 285 . 1871 . 20172590 . January 2018 . 29367398 . 5805950 . 10.1098/rspb.2017.2590 .