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Julia exquisita

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Julia exquisita
Julia exquisita
Scientific classification Edit this classification
Domain: Eukaryota
Kingdom: Animalia
Phylum: Mollusca
Class: Gastropoda
Family: Juliidae
Genus: Julia
Species:
J. exquisita
Binomial name
Julia exquisita
Gould, 1862[1]

Julia exquisita is a small species of sea snail with a green bivalve shell. It is a marine gastropod mollusk in the family Juliidae.[2]

This species can be found in shallow tropical habitats throughout the Pacific, and are known for their feeding of algae, in which photosynthetic cells are taken up and incorporated into the snails' body tissues for energy storage.

Distribution

Julia exquisita is a benthic organism, often residing in intertidal flats.[3] Individuals typically live at depths of about 3 meters, but have been observed at depths as low as 10 meters.[4]

Julia exquisita prefers a warmer climate with available sunlight, meaning that their distribution is relegated to tropical Pacific waters. The species has the greatest observed abundance in the coral triangle, along the coasts of Hawaii, and in the Caribbean,[5] but have also been found along the coast of Madagascar, Australia, and other Indo-West Pacific islands.[6]

Description

Individuals of Julia exquisita are dark green in color with a long thin body and a characteristic bivalve shell. They range from 4mm-6mm in length, with a dorsal foot roughly as wide as their neck.[3] The anterior edge of the grooved foot extends to a round oral tentacle used for feeding. Many individuals exhibit small white patches on their body which are often surrounded by brown rings.[3]

White eye prominences lead to thin, squared rhinophores extending from the head which act as scent and taste receptors. Within the oral feeding tentacle is a radula, or sharp tooth, which is used to feed by scraping their food source.[3]

The shell is the best defining characteristic of this species, as it is a two-parted convex dorsal shell which greatly resembles that of bivalves.[7] The shell is bright green in color, typically with red-brown or white bands surrounding its concentric lines. Shells have a round anterior margin and are ovular in shape.[3]

The internal anatomy of Julia exquisita is similar to that of other bivalve gastropods, with 2 shell valves surrounding a visceral mass containing their vital organs. Key anatomical differences between Julia exquisita and other similar species include proportionally larger adductor muscles, which are used to shut the two shell valves, as well as a slightly more complex penis.[3]

Reproduction and Development

Adult members of the species reproduce using internal fertilization in which male sperm fertilize female eggs which are laid and left to develop into larvae. While in ovum development, Julia Exquisita experiences a trochophore stage before assuming their final larval form.[7] Larvae take on a planktonic form after hatching,[5] and eventually use mucous threads to settle on algae covered surfaces. Once settled, larvae undergo metamorphosis until they reach their adult life stage.[8] Their characteristic bivalve shell is fully produced in about three days.[7]

Feeding and Behavior

Julia exquisita are opportunistic grazers.[5] Like other similar species, individuals use their sharp radula to pierce the cells of algae and suck out the cellular contents. These contents are then digested using mucous within the digestive tract.[4]

Their feeding habits also influence their behavior, as individuals typically tether themselves to algal colonies using mucous-like threads extending from their dorsal foot. Individuals can withdraw into their shell while still being tethered, allowing them to protect themselves from predation while staying attached to their food source.[7]

Like other members of the Juliidae family, Julia exquisita performs kleptoplasty in which functional contents of the algal cells are incorporated into their bodies. Specifically, chloroplasts from the algae are kept photosynthetically functional within the digestive gland.[4] This allows Julia exquisita to continue to use the energy produced through algal photosynthesis, while also contributing to the green color characteristic of this species.

References

  1. ^ Gould A. A. (1862). "Descriptions of new genera and species of shells". Proceedings of the Boston Society of Natural History 8: 280-285.
  2. ^ "WoRMS - World Register of Marine Species". www.marinespecies.org. Retrieved 2022-04-19.
  3. ^ a b c d e f Alison., Kay, Elizabeth (1962). Julia exquisita Gould, a bivalved gastropod. OCLC 16340548.{{cite book}}: CS1 maint: multiple names: authors list (link)
  4. ^ a b c Händeler, Katharina. Evolution of Sacoglossa (Opisthobranchia) with emphasis on their food (Ulvophyceae) and the ability to incorporate kleptoplasts. OCLC 838369697.
  5. ^ a b c Muro, Sandra. "Phylogeography and Cryptic Speciation in the Bivalved Sea Slug Genus Julia Gould, 1862". {{cite journal}}: Cite journal requires |journal= (help)
  6. ^ Volland, Martin (2020). "Rheinische Friedrich-Wilhelms-Universität und Zoologisches Forschungsmuseum Alexander Koenig (Hrsg.): Objektwelten als Kosmos – Von Alexander von Humboldt zum Netzwerk Bonner Wissenschaftssammlungen. (Katalog zur Sonderausstellung im Zoologischen Forschungsmuseum Alexander Koenig, Bonn, 14.11.2019–22.03.2020.) Bonn: Rheinische Friedrich-Wilhelms-Universität; Zoologisches Forschungsmuseum Alexander Koenig, 2019. 348 pp. ISBN 978-3-9821310-0-9. Preis: € 25,00". Anthropos. 115 (2): 623–625. doi:10.5771/0257-9774-2020-2-623. ISSN 0257-9774.
  7. ^ a b c d Wong, Nur Leena W. S.; Sigwart, Julia D. (2019-05-23). "Natural history clues to the evolution of bivalved gastropods (Mollusca: Gastropoda: Sacoglossa: Juliidae)". Marine Biodiversity. 49 (4): 1997–2007. doi:10.1007/s12526-019-00960-0. ISSN 1867-1616. S2CID 162184423.
  8. ^ LAETZ, ELISE; CHRISTA, GREGOR; HÄNDELER, KATHARINA; WÄGELE, HEIKE (2014-12-09). "The Cylindrobulla / Ascobulla complex—unraveling problems in identification and adding to Cylindrobulla diversity (Gastropoda, Heterobranchia, Sacoglossa) by describing a new species". Zootaxa. 3893 (3): 339–362. doi:10.11646/zootaxa.3893.3.2. ISSN 1175-5334. PMID 25544526.