Molecular Biology and Genetics
Statistics of barcoding coverage
Specimens with Sequences:70
Specimens with Barcodes:61
Species With Barcodes:23
This superfamily contains only one family, the Aplysiidae; the sea hares. These animals are commonly called sea hares because, unlike most sea slugs, they are often quite large, and when they are underwater, their rounded body shape and the long rhinophores on their heads mean that their overall shape resembles that of a sitting rabbit or hare.
Sea hares are however shell-less sea snails, and some species are extremely large. The Californian black sea hare, Aplysia vaccaria is arguably the largest living gastropod species, and is certainly the largest living shell-less gastropod.
In Australia sea hares are sometimes known as "beach blobbies". Sea hares do sometimes become stranded on beaches, and when this happens, they contract as much as possible to minimize desiccation, and when the sea hare's body is not fully supported by water, the rhinophores collapse and the animal looks more blob-like.
Members of the Aplysiidae have an atrophied inner shell (in contrast with the nudibranchs, which have no shell at all). In Aplysia and Syphonota, this shell is a soft flattened plate over the visceral rear end, where it is fully or partially enclosed in the mantle skin. In Dolabella auricularia, the shell is ear-shaped. The shell is only present in the larval stage of the two genera Bursatella and Stylocheilus, and on this basis they have been grouped into the subfamily Dolabriferinae.
They are rather large animals. Their length varies between 20 cm and 75 cm (Aplysia vaccaria), and they can weigh well over 2 kg. They are cosmopolitan and found in temperate and tropical seas, inhabiting shallow coastal areas and sheltered bays, thick with vegetation.
Some species spout ink when disturbed or attacked, and they may also swim (rather than crawl) away, using their broad wing-like flaps or parapodia. The ink is extracted from their algal food, rather than being synthesized.
Sea hares have two main secretory glands in their mantle cavity.
- purple gland: lying on top of the mantle cavity, above the gill. It gives off a red or purple fluid, or, in some species, a white ink.
- opaline gland: situated on the floor of the mantle cavity, beneath the gill. It gives off a white opaque secretion.
Sea hares are hermaphrodites, with fully functional male and female reproductive organs. The penis is on the right side of the head while the vagina is situated in the mantle cavity, beneath the shell, deep down between the parapodia. It is therefore physically impossible for mating partners to act as both male and female at the same time.
They have unusual mating habits: they can mate in pairs with one acting as a male, the other as a female, but they commonly occur in quite crowded numbers during the mating season, and this often leads to chains of three or more sea hares mating together. The one at the front acts as a female and the one at the back as a male. The animal(s) in between are acting as both males and females, in other words, the animal receiving sperm passes its own sperm to a third sea hare.
The authority of this family is still somewhat in dispute. The family was incorrectly originally spelled as Laplysiana. This was a Latinized form of the original common name "les Laplysiens" as described in Philosophie zoologique, 1:320 by Lamarck in 1809. Rafinesque introduced the new name Laplysinia in 1815. In 2001 Bouchet & Rocroi advocated the attribution of the name Aplysiidae to Lamarck.
Classification after N. B. Eales (1984):
- Aplysiinae Lamarck, 1809
- Dolabellinae Pilsbry, 1895
- Dolabriferinae Pilsbry, 1895
- Notarchinae Mazzarelli, 1893
- Aplysia Linnaeus, 1767 - type genus
- Bursatella Blainville, 1817 - the only one species: Bursatella leachii Blainville, 1817
- Dolabella Lamarck, 1801
- Dolabrifera Gray, 1847
- Notarchus Cuvier, 1817
- Petalifera Gray, 1847
- Phyllaplysia Fischer, 1872
- Syphonota H. Adams & A. Adams, 1854 - the only one species: Syphonota geographica (A. Adams & Reeve, 1850)
- Stylocheilus Gould, 1852
- Jörger K. M., Stöger I., Kano Y., Fukuda H., Knebelsberger T. & Schrödl M. (2010). "On the origin of Acochlidia and other enigmatic euthyneuran gastropods, with implications for the systematics of Heterobranchia". BMC Evolutionary Biology 10: 323. doi:10.1186/1471-2148-10-323.
- Paige, John A. (January 1988). "Biology, Metamorphosis and Postlarval Development of Bursatella leachii plei Rang (Gastropoda: Opisthobranchia)". Bulletin of Marine Science 42 (1): 65–75.
- Zsilavecz, G. 2007. Nudibranchs of the Cape Peninsula and False Bay. ISBN 0-620-38054-3
- Klussmann‐Kolb, A. (2004). "Phylogeny of the Aplysiidae (Gastropoda, Opisthobranchia) with new aspects of the evolution of seahares". Zoologica Scripta 33 (5): 439–462. doi:10.1111/j.0300-3256.2004.00158.x.
- Lamarck, J.B. (1809). Philosophize zoologique. Paris: Dentu. p. 428.
- Bouchet, P. & J.P. Rocroi (2001). "Corrections of Authorship and date for gastropod (Mollusca) family-group names placed on the Official List and Official Index". Bulletin of Zoological Nomenclature 58 (3): 170–178.
- "Notes on cephalaspideans". Opisthobranch 16 (3): 26. 1984.
|This article includes a list of references, but its sources remain unclear because it has insufficient inline citations. (September 2009)|
- Kandel, E.R. (1979) Behavioural Biology of Aplysia. San Francisco, W.H.Freeman & Co. 463pp.
- Kandel E.R., Schwartz, J.H., Jessell, T.M. (2000). Principles of Neural Science, 4th ed., New York, McGraw-Hill 180pp.
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