Molecular Biology and Genetics
Statistics of barcoding coverage
Specimen Records: 7
Specimens with Sequences: 7
Specimens with Barcodes: 6
Species With Barcodes: 5
Public Records: 6
Public Species: 4
Public BINs: 4
Pleurotomariidae, common name the "slit snails", is a family of large marine gastropods in the clade Vetigastropoda. This family is a very ancient lineage; there were numerous species in the geological past. The genus includes several hundred fossil forms, mostly Paleozoic. It is one of the oldest gastropod families, commencing in the Cambrian.
The superfamily is currently represented by a group of species that live only in deep water. This family has no subfamilies.
The shell has a trochoidal shape. It is nacreous within. It is umbilicate or imperforate, having a deep slit or sinus in the outer superior margin of the peristome, which serves the purpose of an exhalant phase of respiration., and leaves on the corresponding part of the whorls a peculiarly sculptured band, the "anal fasciole" or the "slit fasciole." The slit is sealed up gradually behind the advancing aperture as the shells grows in size.
The animal has no frontal lobes or appendages. The eyes are situated at the outer bases of the tentacles. The muzzle is as in Trochidae. The tentacles are long, subcylindrical and bluntly pointed. The broad epipodium (the lateral grooves between foot and mantle) is thin, entire, and fringed with a row of small, short papillae. But it does bear cirri. It is closely applied to the shell. The long radula has a long, narrow rhachidian tooth. It is lanceolate with its tip narrowand recurved. There are 26 laterals with the outer 5 without cusps. The inner ones are larger, with wide cusps and narrower bases. The outside of the laterals consists of 2 rows of uncini (the numerous small teeth-like or hook-like structures). The inner series number 18 and are large, strongly curved, and with scythe-shaped 1-3 denticulate cusps. The outer uncini are very numerous (40-50), small, very oblique. In Entemnotrochus adansonianus (Crosse & P. Fischer, 1861) there are considerable differences in the teeth. Some of the uncini bear little tufts of bristles at their apices. The jaws are subobsolete.
The Pleurotomariidae have a continuous fossil record from the Upper Cambrian onwards. After taking a considerable hit during the Cretaceous–Paleogene extinction event, they have been restricted to deeper waters through the Cenozoic. In 2009, a new study in the Journal of Paleontology described the first occurrence of Mesozoic pleurotomariids from Antarctica.
They are preyed upon by crustacea and fish, but are remarkably resistant to attack — they secrete a white fluid when endangered, thought to repel predators. They feed primarily on sponges, and supplement their diet with crinoids and octocorals in the wild; in aquaria, they also feed on fish and clam tissue.
Genera within the Pleurotomariidae include:
- Bayerotrochus Harasewych, 2002
- Entemnotrochus Fischer, 1885
- Mamoeatomaria Begg & Grant-Mackie, 2006
- Mikadotrochus Lindholm, 1927
- Obornella Cox, 1959
- Perotrochus Fischer, 1885
- Pleurotomaria Sowerby, 1821
- † Trochotoma Eudes-Deslongchamps, 1842
- Frýda J.; Hausdorf B., Ponder W., Valdes A. & Warén A. (2005). Bouchet P. & Rocroi J.-P., ed. Taxonomy of the Gastropoda. Hackenheim, Germany.: ConchBooks. p. 397. ISBN 3-925919-72-4. ISSN 0076-2997.
- G.W. Tryon (1890), Manual of Conchology vol. XII, p. 69
- Harasewych, M. (2002). "Pleurotomarioidean gastropods". Advances in marine biology. Advances in Marine Biology 42: 237–294. doi:10.1016/S0065-2881(02)42015-9. ISBN 9780120261420. ISSN 0065-2881. PMID 12094724.
- M.G. Harsewych, Anton Oleinik and William Zinmeister (2009) The Cretaceous and Paleocene pleuromariid (Gastropoda:Vetigastropoda_ fauna of Seymour Island, Antarctica. Journal of Paleontology 83 (5):750-766. doi:10.1666/09-004.1
- Begg J. G. & Grant-Mackie J. A. (2006). "Mamoeatomaria, a new name for the Triassic gastropod Mamoea Begg & Grant-Mackie, 2003, pre-occupied (Mollusca: Gastropoda: Pleurotomariidae)". Journal of the Royal Society of New Zealand 36(4): 1175-8899. doi:10.1080/03014223.2006.9517807.
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