Mespilia

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Mespilia
Sea Urchin 2.jpg
Mespilia globulus. Note the radial symmetry and the presence and distribution of the spines
Scientific classification OOjs UI icon edit-ltr.svg
Domain: Eukaryota
Kingdom: Animalia
Phylum: Echinodermata
Class: Echinoidea
Order: Camarodonta
Family: Temnopleuridae
Genus: Mespilia
Desor in L. Agassiz & Desor, 1846
Species:
M. globulus
Binomial name
Mespilia globulus
(Linnaeus, 1758)
Synonyms [1]
List
    • Cidaris granulataLeske, 1778
    • Echinus alternatusDeslongchamps, 1824
    • Echinus atternatusBory de Saint Vincent in Bruguière, 1827
    • Echinus globulusLinnaeus, 1758
    • Echinus punctiferusBory de Saint Vincent in Bruguière, 1827
    • Mespilia globula(Linnaeus, 1758)
    • Mespilia globulus albidaH.L. Clark, 1925
    • Mespilia globulus pellocricaH.L. Clark, 1912
    • Mespilia globulus var. albidaH.L. Clark, 1925
    • Mespilia globulus var. whitmaeiBell, 1881
    • Mespilia globulus whitmaeiBell, 1881
    • Mespilia levituberculatusYoshiwara, 1898
    • Mespilia microtuberculataLambert & Thiéry, 1910
    • Mespilia whitmaei Bell, 1881
    • Salmacopsis pulchellimusYoshiwara, 1898

Mespilia globulus, the globular sea urchin, sphere sea urchin, or tuxedo urchin (trade name), is a sea urchin occurring in tropical shallow reef habitats. [1] The specific name refers to a small ball or spherule, describing its overall shape/morphology. [1] It is the only species in the genus Mespilia. [2]

Contents

Description

The species can have a diameter of up to 5 cm. It can be recognized by its radial symmetry and relatively small spines (reaching lengths of up to 2 cm), usually brown, red or dark in color. [3] The body features ten vertical zones that are not covered in spines which are distinct due to their vibrant shades of blue/green and can be described as having a velvety texture. [4]

Distribution and habitat

Mespilia globulus can commonly be found in shallow water, tropical, reef climates such as those in the Indo-Pacific. Coral community at Norman Reef.jpg
Mespilia globulus can commonly be found in shallow water, tropical, reef climates such as those in the Indo-Pacific.

They mainly inhabit shallow water reefs, coral rubble, and seagrass bed environments, generally at depths of 0–200 meters. [5] They occur in shallow, tropical waters in the Indo-Pacific and Indian Ocean as well as the south west coast of the western Pacific and Japan. [5] However, they are not constrained to this area, and can be found in most tropical environments near the equator, especially coral reef and seagrass bed environments. [6] During the breeding season, Mespilia globulus can be found abundantly near the coast, but are not as common there other times of the year as they migrate slightly off the coast when not breeding. [6]

Behaviors

Sea urchins feed in coral reef systems, seagrass beds, and fields of coral rubble by 'grazing', eating organic material that has settled or is growing on structure or on the sea floor, while exhibiting nocturnal foraging behaviors. They remain hidden in the coral structure or rocks present in habitat during the day. [6] Recent studies have shown that the presence of 'grazing' feeders, such as Mespilia globulus, significantly increases the survival and growth size of the corals. However, increased Mespilia globulus density has a negative effect on urchin growth as a result of limited food availability. [7]

This species has also been observed to agglutinate debris from its environment in an attempt to camouflage or protect itself. In the pet industry, M. globulus are said to be stressed or sick if they are not carrying any debris on their test. [8] M. globulus has also been observed living in symbiosis with other marine invertebrates, such as crabs, and can be parasitized by some gastropods. [9]

Commercial use

M. globulus are commonly purchased by saltwater-aquarium enthusiasts. Nano reef aquarium, May 2020.jpg
M. globulus are commonly purchased by saltwater-aquarium enthusiasts.

Mespilia globulus are commonly harvested and bred to be sold commercially as they are popular organisms to be put in recreational aquariums due to their vibrant colors and interesting morphology. They are popular for recreational aquariums as they are low-maintenance, and generally do not harm other organisms present. Currently, the pet industry relies on wild-caught M. globulus , as there are only several reports of successfully breeding them in captivity. [8]

Reproduction and life cycle

Like all sea urchins, Mespilia globulus is gonochoric (male and female sexes). Breeding season is typically from July to September in the Pacific and Indian Oceans. [10] Fertilization is often external and brooding is also common, where the eggs are held either on the peristome or deep into the concavities on the petaloid. [11] Clouds of sperm and eggs are released by the organisms and fertilization occurs in the water column. It is expected that in the future ocean acidification will threaten the sea urchins current process of reproduction. [12]

Related Research Articles

<i>Echinothrix diadema</i> Species of sea urchin

The diadema urchin or blue-black urchin is a species of tropical sea urchin, member of the Diadematidae family.

<i>Diadema</i> (sea urchin) Genus of sea urchins

Diadema is a genus of sea urchins of the family Diadematidae.

<i>Diadema antillarum</i> Species of sea urchin

Diadema antillarum, also known as the lime urchin, black sea urchin, or the long-spined sea urchin, is a species of sea urchin in the family Diadematidae.

<i>Diadema setosum</i> Species of sea urchin

Diadema setosum is a species of long-spined sea urchin belonging to the family Diadematidae. It is a typical sea urchin, with extremely long, hollow spines that are mildly venomous. D. setosum differs from other Diadema with five, characteristic white dots that can be found on its body. The species can be found throughout the Indo-Pacific region, from Australia and Africa to Japan and the Red Sea. Despite being capable of causing painful stings when stepped upon, the urchin is only slightly venomous and does not pose a serious threat to humans.

<i>Meoma ventricosa</i> Species of sea urchin

Meoma ventricosa, known by the common names cake urchin and red heart urchin, is a large species of sea urchin which lives in shallow waters in the Caribbean. It may reach a diameter of twenty centimeters and is covered in reddish-brown spines. It has both pentagonal radial symmetry and bilateral symmetry, giving it a sand-dollar appearance; however, two of its five sections are merged more closely than the others.

<i>Lytechinus variegatus</i> Species of sea urchin

Lytechinus variegatus, commonly called the green sea urchin or the variegated sea urchin, is a species of sea urchin that can be found in the warm waters of the western Atlantic Ocean and Caribbean Sea.

<i>Heterocentrotus mamillatus</i> Species of echinoderm

Heterocentrotus mamillatus, commonly known as the slate pencil urchin, red slate pencil urchin, or red pencil urchin, is a species of tropical sea urchin from the Indo-Pacific region.

<i>Toxopneustes pileolus</i> Species of sea urchin

Toxopneustes pileolus, commonly known as the flower urchin, is a widespread and commonly encountered species of sea urchin from the Indo-West Pacific. It is considered highly dangerous, as it is capable of delivering extremely painful and medically significant stings when touched. It inhabits coral reefs, seagrass beds, and rocky or sandy environments at depths of up to 90 m (295 ft). It feeds on algae, bryozoans, and organic detritus.

<i>Echinometra mathaei</i> Species of sea urchin

Echinometra mathaei, the burrowing urchin, is a species of sea urchin in the family Echinometridae. It occurs in shallow waters in the Indo-Pacific region. The type locality is Mauritius.

Lytechinus williamsi, the jewel urchin, is a sea urchin in the family Toxopneustidae. It occurs on shallow reefs off the coasts of Panama, Belize, the Florida Keys and Jamaica.

<i>Echinometra lucunter</i> Species of sea urchin

Echinometra lucunter, the rock boring urchin, is a species of sea urchin in the family Echinometridae. It is found in very shallow parts of the western Atlantic Ocean and the Caribbean Sea.

<i>Echinometra viridis</i> Species of sea urchin

Echinometra viridis, the reef urchin, is a species of sea urchin in the family Echinometridae. It is found on reefs in very shallow parts of the western Atlantic Ocean and the Caribbean Sea.

<i>Eucidaris thouarsii</i> Species of sea urchin

Eucidaris thouarsii, the slate pencil urchin, is a species of cidaroid sea urchins that inhabits littoral regions of the East Pacific Ocean.

<i>Diadema mexicanum</i> Species of sea urchin

Diadema mexicanum is a species of long-spined sea urchin belonging to the family Diadematidae. It is native to the Pacific coast of Mexico, Costa Rica, El Salvador, Nicaragua and Panama.

<i>Diadema savignyi</i> Species of sea urchin

Diadema savignyi is a species of long-spined sea urchin belonging to the family Diadematidae. Common names include long-spined sea urchin, black longspine urchin and the banded diadem. It is native to the east coast of Africa, the Red Sea, the Indian Ocean and western Pacific Ocean. It was first described in 1829 by the French naturalist Jean Victoire Audouin. The specific epithet honours the French zoologist Marie Jules César Savigny who described many new marine species from the Mediterranean Sea and Red Sea. The type locality is Mauritius.

<i>Toxopneustes roseus</i> Species of sea urchin

Toxopneustes roseus is a species of sea urchin from the East Pacific. It is sometimes known as the rose flower urchin or the pink flower urchin. Like the related flower urchin, they are venomous.

<i>Toxopneustes elegans</i> Species of sea urchin

Toxopneustes elegans is a species of sea urchin endemic to Japan. Like the closely related flower urchin, they are venomous.

<i>Lytechinus pictus</i> Species of sea urchin

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The poleward migration of coral species refers to the phenomenon brought on by rising sea temperatures, wherein corals are colonising cooler climates in an attempt to circumvent coral bleaching, rising sea levels and ocean acidification. In the age of Anthropocene, the changing global climate has disrupted fundamental natural processes and brought about observable changes in the submarine sphere. Whilst coral reefs are bleaching in tropical areas like the Great Barrier Reef, even more striking, and perhaps more alarming; is the growth of tropical coral species in temperate regions, which has taken place over the past decade. Coral reefs are frequently compared to the "canaries in the coal mine," who were used by miners as an indicator of air quality. In much the same way, "coral reefs are sensitive to environmental changes that could damage other habitats in the future," meaning they will be the first to visually exhibit the true implications of global warming on the natural world.

<i>Echinometra oblonga</i>

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References

  1. 1 2 3 "WoRMS - World Register of Marine Species - Mespilia globulus (Linnaeus, 1758)". www.marinespecies.org. Retrieved 2022-04-12.
  2. Kroh, A.; Mooi, R. (2023). Kroh A, Mooi R (eds.). "Mespilia Desor in Agassiz & Desor, 1846". World Echinoidea Database. World Register of Marine Species . Retrieved 3 December 2023.{{cite web}}: CS1 maint: multiple names: authors list (link)
  3. Bell, F. J. On some genera and species of the Temnopleuridæ. London: Zoological Society of London.
  4. "Mespilia globulus (Oursin grimpeur)". AquaPortail (in French). Retrieved 2022-04-12.
  5. 1 2 3 "Digimorph - Mespilia globulus (globe urchin)". digimorph.org. Retrieved 2022-03-14.
  6. 1 2 3 Waren, Anders (December 1980). "Descriptions of New Taxa of Eulimidae (Mollusca, Prosobranchia), with Notes on Some Previously Described Genera". Zoologica Scripta. 9 (1–4): 283–306. doi:10.1111/j.1463-6409.1980.tb00668.x. ISSN   0300-3256. S2CID   85007760.
  7. Craggs, Jamie; Guest, James; Bulling, Mark; Sweet, Michael (2019-09-10). "Ex situ co culturing of the sea urchin, Mespilia globulus and the coral Acropora millepora enhances early post-settlement survivorship". Scientific Reports. 9 (1): 12984. Bibcode:2019NatSR...912984C. doi:10.1038/s41598-019-49447-9. ISSN   2045-2322. PMC   6737180 . PMID   31506526.
  8. 1 2 3 Michael (2021-11-25). "Tuxedo Urchin Urchin – Detailed Guide: Care, Diet, and Breeding". Shrimp and Snail Breeder. Retrieved 2022-04-12.
  9. "Mespilia globulus (Tuxedo Urchin)". Reef App. Retrieved 2022-04-12.
  10. Kobayashi, Naomasa (1967-01-25). "Spawning Periodicity of Sea Urchins at Seto -I. Mespilia Globulus-". Publications of the Seto Marine Biological Laboratory. 14 (5): 403–414. doi: 10.5134/175449 . ISSN   0037-2870.
  11. Kasahara, Mami; et al. (November 16, 2012). "Morphogenesis of Adult Traits during the Early Development of Mespilia globulus Linnaeus, 1758 (Echinodermata: Echinoidea)" (PDF). Zoological Studies. 51 (8): 1481–1489.
  12. Smith, Kathryn E.; Byrne, Maria; Deaker, Dione; Hird, Cameron M.; Nielson, Clara; Wilson-McNeal, Alice; Lewis, Ceri (2019-07-24). "Sea urchin reproductive performance in a changing ocean: poor males improve while good males worsen in response to ocean acidification". Proceedings of the Royal Society B: Biological Sciences. 286 (1907): 20190785. doi:10.1098/rspb.2019.0785. PMC   6661356 . PMID   31337311.
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