Aurelia aurita

Aurelia aurita
Aurelia aurita in the Pairi Daiza aquarium, Belgium
Scientific classification Edit this classification
Kingdom: Animalia
Phylum: Cnidaria
Class: Scyphozoa
Order: Semaeostomeae
Family: Ulmaridae
Genus: Aurelia
Species:
A. aurita
Binomial name
Aurelia aurita
Synonyms[1]
  • Aurellia flavidula Peron & Lesueur, 1810
  • Medusa aurita Linnaeus, 1758
  • Medusa purpurea Pennant, 1777

Aurelia aurita (also called the common jellyfish, moon jellyfish, moon jelly or saucer jelly) is a species of true jellyfish in the family Ulmaridae and the type species of its genus, Aurelia.[1][2][3] Before the 2020s, the species was considered cosmopolitan, but the taxon has since been split into at least 28 species. The species now identified as A. aurita is only found in the north Atlantic and in Argentina, and is not dangerous to humans.

Description

Like other species in the genus, the jellyfish is almost entirely translucent, usually about 25–40 cm (10–16 in) in diameter, and can be recognized by its four horseshoe-shaped gonads, easily seen through the top of the bell.

It feeds by collecting medusae, plankton, and mollusks with its short, fine tentacles, and bringing them into its body for digestion. The sting has a mild effect on humans, with most having little or no reaction.[4] It is capable of only limited motion, and drifts with the current, even when swimming.

Range

A. aurita is endemic to the northeastern Atlantic Ocean, including the Baltic Sea where the 1758 type specimen was collected.[5] Established populations are also found in the Northeastern United States and Argentina, where they were introduced (although natural dispersion to the United States can't be ruled out).[5] A single specimen has also been found in the Pacific Northwest.[5]

Reproduction and life history

Main article: Aurelia (cnidarian) § Reproduction

The life cycle of Aurelia aurita is similar to other species in the genus, consisting of two main stages: the free-swimming medusa and the benthic polyp, also known as a scyphistoma.[6] During the medusa stage, A. aurita reproduces sexually, as opposed to the asexually reproducing polyp stage. The scyphistoma stage can survive for months without feeding, and have been shown to have relatively low feeding selectivity.[6] In this stage, A. aurita can adapt to several different environmental conditions. They can be found in estuaries, bays, fjords, and polluted waters, among other habitats.[6]

The transition from polyp to medusa (known as strobilation) is triggered by environmental signals, the most notable being seasonal temperature changes. The transformation is regulated by both developmental signaling pathways and molecular mechanisms specific to A. aurita.[7][8] Studies have found that certain secreted proteins increase in activity right before metamorphosis, including ones that act as precursors to hormones involved in strobilation.[7][8]

The presence of a native microbiome in the polyp stage is also essential for successful asexual reproduction via strobilation. Polyps that are lacking their associated microbial community tend to show abnormal or impaired strobilation, often producing few or malformed ephyrae. The microbes need to be present before the strobilation process begins, as later introduction does not restore normal development.[9] The microbiome also plays a role in regulating developmental gene expression, and direct interactions between the host tissues and bacteria appear to be necessary for a successful transition from polyp to medusa.[9]

The reproduction and of A. aurita are heavily influenced by temperature, food availability, salinity, and light levels. They can adjust their reproductive strategies based on their environmental conditions. For example, higher levels of food availability lead to more growth and many smaller offspring. Low levels of food leads to fewer, larger offspring that have higher survivability.[6]

Taxonomic confusion

Most species in the genus are very similar, and it is difficult to determine the species of Aurelia medusae without genetic sampling.[5] In the 1990s, only two species were recognized in the genus, including A. aurita, and the species was considered to have a worldwide distribution.[5] In the 2020s, reexamination of morphology and analysis of genetic samples revealed that specimens previously identified as A. aurita belong to at least 28 different species.[5] Much of the research published about the species before this split may instead describe one or more related species.

References

  1. ^ a b "Aurelia aurita (Linnaeus, 1758)". WoRMS. World Register of Marine Species. 2023. Retrieved 29 August 2023.
  2. ^ Dawson, Michael N. "Aurelia species". Archived from the original on 2018-03-25. Retrieved 2008-08-12.
  3. ^ "Aurelia | INFORMATION". animaldiversity.org. Animal Diversity Web. Retrieved 6 January 2026.
  4. ^ "Moon Jelly | Learn With the South Carolina Aquarium". South Carolina Aquarium. Retrieved 2025-08-22.
  5. ^ a b c d e f Lawley, Jonathan W.; Gamero-Mora, Edgar; Maronna, Maximiliano M.; Chiaverano, Luciano M.; Stampar, Sérgio N.; Hopcroft, Russell R.; Collins, Allen G.; Morandini, André C. (2021-09-09). "The importance of molecular characters when morphological variability hinders diagnosability: systematics of the moon jellyfish genus Aurelia (Cnidaria: Scyphozoa)". PeerJ. 9 e11954. doi:10.7717/peerj.11954. PMC 8435205. PMID 34589293.
  6. ^ a b c d Lucas, Cathy H. (2001-05-01). "Reproduction and life history strategies of the common jellyfish, Aurelia aurita, in relation to its ambient environment". Hydrobiologia. 451 (1): 229–246. Bibcode:2001HyBio.451..229L. doi:10.1023/A:1011836326717. ISSN 1573-5117.
  7. ^ a b Fuchs, Björn; Wang, Wei; Graspeuntner, Simon; Li, Yizhu; Insua, Santiago; Herbst, Eva-Maria; Dirksen, Philipp; Böhm, Anna-Marei; Hemmrich, Georg; Sommer, Felix; Domazet-Lošo, Tomislav; Klostermeier, Ulrich C.; Anton-Erxleben, Friederike; Rosenstiel, Philip; Bosch, Thomas C.G. (2014-02-03). "Regulation of Polyp-to-Jellyfish Transition in Aurelia aurita". Current Biology. 24 (3): 263–273. Bibcode:2014CBio...24..263F. doi:10.1016/j.cub.2013.12.003. PMID 24440392.{{cite journal}}: CS1 maint: date and year (link)
  8. ^ a b Jensen, Nadin; Weiland-Bräuer, Nancy; Joel, Shindhuja; Chibani, Cynthia Maria; Schmitz, Ruth Anne (2023-06-28). "The Life Cycle of Aurelia aurita Depends on the Presence of a Microbiome in Polyps Prior to Onset of Strobilation". Microbiology Spectrum. 11 (4): e00262–23. doi:10.1128/spectrum.00262-23. PMC 10433978. PMID 37378516.
  9. ^ a b Jensen, N.; Weiland-Bräuer, N.; Joel, S.; Chibani, C. M.; Schmitz, R. A. (2023). "The Life Cycle of Aurelia aurita Depends on the Presence of a Microbiome in Polyps Prior to Onset of Strobilation". Microbiology Spectrum. 11 (4): e0026223. doi:10.1128/spectrum.00262-23. PMC 10433978. PMID 37378516.

Further reading

  • Moen, F.E.; E. Svensen (2004). Marine fish & invertebrates of Northern Europe. Southend-on-Sea: AquaPress. ISBN 978-0-9544060-2-8.
  • Wikimedia Commons logo Media related to Aurelia aurita at Wikimedia Commons
  • Photos of Aurelia aurita in the Sealife Collection
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