Operculum (gastropod)

Operculum (gastropod)
Gastropod shell of the freshwater snail Viviparus contectus with corneous operculum in place
Drawing of an apertural view of a shell and corneous operculum of the freshwater snail Amnicola dalli
A live individual of the sea snail Bolma rugosa retracted into the shell, with the calcareous operculum closing the aperture

The operculum, meaning little lid, (plural: opercula or operculums) is a corneous or calcareous anatomical structure which exists in many (but not all) groups of sea snails and freshwater snails, and also in a few groups of land snails. In other words, this structure is found in some marine and freshwater gastropods, and in a minority of terrestrial gastropods, including the families Helicinidae, Cyclophoridae, Aciculidae, Maizaniidae, Pomatiidae, etc.

The operculum is attached to the upper surface of the foot and in its most complete state, it serves as a sort of "trapdoor" to close the aperture of the shell when the soft parts of the animal are retracted. The shape of the operculum varies greatly from one family of gastropods to another. It is fairly often circular, or more or less oval in shape. In species where the operculum fits snugly, its outline corresponds exactly to the shape of the aperture of the shell and it serves to seal the entrance of the shell. A small air-hole may remain to aid respiration, especially during aestivation.[citation needed]

Many families have opercula that are reduced in size, and which are not capable of closing the shell aperture. Opercula have sometimes been modified: in the Strombidae the operculum is claw-shaped and is used to push into the substrate in a leaping form of locomotion.

Virtually all pulmonate snails are inaperculate, i.e. they do not have an operculum, with the exception of the Amphiboloidea. However, some terrestrial pulmonate species are capable of secreting an epiphragm, a temporary structure that can in some cases serve some of the same functions as an operculum. The epiphragm may be distinguished from the true operculum by its homogeneity and want of growth marks.

NOTE: in ammonites (extinct shelled cephalopods), a calcareous structure known as the aptychus (plural aptychi) existed. When these were first described they were thought to be valves of a bivalve species, then for many years after that they were considered to be a form of paired or single operculum-like structures belonging to ammonites. More recently the aptychus or paired aptychi have been hypothesized to be a jaw apparatus of ammonites.



Perhaps the most essential function of the operculum in gastropods is to allow snails to resist drying out, or desiccation. This is very important in intertidal marine snails during low tide, and this also enables operculate freshwater and land snails to survive periods of drought and dry weather.

In those marine species where the operculum completely seals the shell, it can also serve as a protection against predators when the snail body is retracted.


A photo of an individual of the freshwater snail species Bithynia tentaculata showing how the back of the shell rests on the round operculum on top of the foot as the snail moves along

In life, the operculum is attached at the ending of the columellar muscle with an opercular disc dorsally to the upper surface of the posterior part of the foot. However in Buccinum a layer of long cylindrical epithelial cells, with mostly distinct nuclei, and long divided processes enter between the muscular fibres. The operculum, a cuticular development of these cells, is composed, as may be seen in the corneous opercula of Murex, Purpura, Triton, of very thin superimposed layers. The cylindrical cells are attached with their head to the lowermost layer.[1]

The operculum grows in size as the shell grows, such that the operculum remains in proportion to the apertural size. In many species, when the animal is active and crawling, part of the underside of the shell rests on the outer surface of the operculum.

In many species of marine shelled snails which live subtidally, the operculum is greatly reduced in size, and no longer serves to seal the shell entrance. In a large number of families it has been eliminated completely.

In species of conches, the operculum is elongated and claw-shaped, and is used to dig into the sand to enable the conch to perform a leaping type of locomotion.

The structure of the operculum can be described as follows:[1]

  • concentric: the nucleus is central or subcentral as in Lithoglyphus and Ampullaria, and in other the nucleus is near the parietal margin of the shell.
  • imbricated, or lamellar: when it grows only on one side, and the nucleus is marginal, as in Purpura, Xenophora, and Paludomus.
  • claw-shaped, or unguiculate: with the nucleus apical or in front, as in Turbinella and Fusus ; it is claw-shaped and serrated in Strombus
  • spiral : when it grows only on one edge, and revolves as it grows ; it is always sinistral in dextral shells.
  • paucispiral or oligogyrous: with few spirals as in Littorina.
  • subspiral or scarcely spiral, in Thiara
  • multispiral or polygyrous: having many closely spaced spirals as in Trochus where they sometimes amount to twenty; the number of turns which the operculum makes is not determined by the number of whorls in the shell, but by the curvature of the aperture, and the necessity that the operculum should revolve fast enough to fit it constantly.
Photo of the outer side of the operculum of Marstonia comalensis is multispiral with eccentric nucleus.
Photo of the inner side of the operculum Marstonia comalensis.
  • articulated, when it has a projection, as in Nerita
  • radiated is a modification of the articulated operculum in which the spiral is not so evident as in Navicella

There are two basic types of opercula in terms of their material composition:

  • The most common kind of operculum is composed of a thin to rather thick corneous protein material, which is yellow to brownish in color and is usually somewhat translucent. This matter is supple when in its natural state but may become brittle when it is dried out. The operculum varies in shape, depending on the family of snails and the shape of the aperture of their shells.
An individual of the land snail Tropidophora fimbriata haemostoma showing the calcareous operculum
  • The other kind of operculum is restricted to a few families of gastropods including the Turbinidae. This operculum structure has a corneous base with a heavy calcareous overlay. The calcareous surface in some genera has color or ornamentation of various kinds including, for example, pustules and incised grooves.

The different shapes of opercula can include ungulate (hooflike), claw-like, or ovate. The type and shape of the operculum is used to help identify and classify related groups (genera) of land operculates, and likewise some marine operculates.

Human uses

The oldest known human depiction of an operculum together with the shell of Charonia tritonis is a seal made by Minoan civilization.[2]

As incense material

Opercula of certain gastropods, especially varieties from the Red Sea, have long served as an incense material in ancient Jewish tradition, as well as Arabian cultures. The operculum of conch species Strombus tricornis and Lambis truncata sebae are most commonly used in regions near the Middle East. Opercula from these conches may be the onycha incense material which is described in the Book of Exodus.

Operculum powder is also an important ingredient in Chinese and Japanese incense making. Here it is called "bèi xiāng" (Chinese: 貝香; lit. sea shell fragrance) or "kai kou" (Japanese: 甲香, lit. shell/armour fragrance) respectively. Incense producers in these countries use the operculum of many conches and other marine snails, including those found in Southeast Asia, South America, and East Africa. The opercula are traditionally treated with vinegar, alcohol and water in order to remove any fishy smell. The clean opercula are then ground to a powder and used as a scent fixative, in a technique similar to that used in perfumes with certain plant resins.

When burnt on its own, high quality operculum reportedly smells of castoreum or other animal musks, while that of lower quality is reminiscent of burnt hair.

As a gemstone or decorative object

The operculum of certain species of Turbinidae is sometimes used as a very inexpensive organic "gemstone" in rings, bracelets, amulets etc. These opercula are commonly known as "cats eye" (or more recently "Shiva's eye").

The turban snail Turbo petholatus is the species whose operculum is most widely used, although the operculum of other species of Turbo are sometimes used. The operculum is almost always given a solid setting, because it has one unattractive flat and corneous side where it was attached to the animal, and one roughly hemispherical glossy side, which, in the case of T. petholatus has an attractive dark green area.

Opercula are often used in Northwest Coast Native art, as detailing in masks, panels and paddles. These objects are used to represent the teeth in masks, and are used as a decorative element in many of the objects which form an important part in the art and culture of Northwest Coast people, including dishes for food, bentwood boxes and rattles.

Friedrich Ratzel in The History of Mankind[3] reported in 1896 that, in Oceania, chains and girdles composed of the coloured opercula of certain shells were considered valuable ornaments.

As paperweights

The largest opercula of Turbo marmoratus have been used as paperweights.[4]


  1. ^ a b Tryon G. W. (1882). Structural and systematic conchology pages 47-48.
  2. ^ Schifko G. (2005). "Zoologische Anmerkungen zu zwei minoischen Siegelabdrücken mit einem Tritonshorn (Gattung Charonia) als Motiv". Annalen des Naturhistorischen Museums in Wien 106B: 27-33. PDF.
  3. ^ Ratzel F. (1896). The History of Mankind. MacMillan, London. URL: www.inquirewithin.biz/history/american_pacific/oceania/oceania-labour.htm#ornaments, accessed 28 November 2009.
  4. ^ "Operculata". manandmollusc.net, accessed 9 July 2011.

External links

  • Pictures of diverse gastropod opercula. This site also provides fairly extensive material on the growth, development, and physiology of the gastropod operculum as well as dozens of pictures of both the operculum and its host shell.
  • Photo of opercula of some Busycon and Busycotypus' species

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Look at other dictionaries:

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