Trigoniidae | |
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Trigonia sp. (Cretaceous) near Austin, Texas. Scale bar is 10 mm. | |
Scientific classification | |
Domain: | Eukaryota |
Kingdom: | Animalia |
Phylum: | Mollusca |
Class: | Bivalvia |
Order: | Trigoniida |
Superfamily: | Trigonioidea |
Family: | Trigoniidae Lamarck |
Trigoniidae is a taxonomic family of saltwater clams, marine bivalve mollusks in the superfamily Trigonioidea. There is only one living genus, Neotrigonia , but in the geological past this family was well represented, widespread and common. The shells of species in this family are morphologically unusual, with very elaborate hinge teeth, and the exterior of the shell is highly ornamented.
The most striking feature of the Trigoniidae, which has attracted attention for centuries, is their external ornamentation. This is usually present as ribs or costae, or rows of aligned tubercles. The hinge teeth of the shell are unusually elaborate in structure. The living animal has no siphon.
This family originated from the Myophoriidae in the Triassic. The family underwent an explosion of diversity in the Jurassic, reaching a maximum of diversity in the Cretaceous, although most genera became extinct at the end of this period. Although they were abundant in the Mesozoic era, they are today represented by only one living genus, Neotrigonia, which inhabits waters off the coast of southern Australia. [1]
Before the beginning of the 19th century, no trigoniid had been described that was more recent than the Cretaceous Period. In 1802, however, François Péron discovered a living species in waters off the coast of Tasmania. Lamarck named it Trigonia margaritacea in 1804, with Cossmann renaming the genus Neotrigonia in 1912. Today, five living species have been identified, and are all found off the coast of Australia. Neotrigonia probably evolved from Eotrigonia (Eocene to Miocene) during the Miocene. [1]
The gills of Neotrigonia and fossil trigoniids are mineralized with calcium phosphate, which supports their chitinous scaffold support structures. [2]
Because of their large size and pronounced ornament, fossil trigoniid bivalves have long attracted interest. Jean Guillaume Bruguiere was the first person to describe an example of Trigonia in 1789. Lamarck later figured specimens from the Oxfordian of France. In England the physician James Parkinson (the discoverer of Parkinson's disease) described examples of Trigonia and Myophorella. Later, James Sowerby and James De Carle Sowerby began to catalogue British examples in earnest. Etheldred Benett added several Upper Jurassic species, although her work was not primarily recognised due to the academic status of women at that time. [1]
In 1840 Europe, Louis Agassiz published a large volume entitled Memoire sur les Trigonies which recognised the large variation encountered within the family, dividing it into eight sections, which was a precursor to the generic classification that occurred some fifty years later. Other notable workers that described and figured trigoniids include Friedrich August von Quenstedt, Alcide d'Orbigny and Georg August Goldfuss.
The major worker on the Trigoniidae in the nineteenth century was John Lycett, a physician from Gloucestershire who published a text entitled A Monograph of British Fossil Trigoniae. [1]
Work on the Trigoniidae has generally been sparse in the 20th century and has mainly concentrated upon the development towards a workable taxonomy. Today, knowledge is sufficient to divide the family into five Subfamilies (see below), which together contain more than sixteen genera, the most abundant being Trigonia, Myophorella, Laevitrigonia, and Orthotrigonia. [1]
Members of the Trigoniidae are identified by the large and complex dentition that joins the two valves together and allows articulation. The teeth and supporting area can take up almost a third of the volume of the shell. The hinge structure is amongst the most complex of all bivalves, namely that the teeth are numerous and ridge-like with strong transverse striations. It is these striations which distinguishes the Trigoniidae from the more primitive Myophoriidae. The Trigoniidae almost certainly evolved by a monophyletic modification of a Triassic myophoriid, with three genera appearing in the Middle Triassic. [1]
Trigoniids are commonly found in both limestone, mudstone and sandstone in Jurassic and Cretaceous rocks all over the world. In Britain, examples are numerous in the Upper Jurassic rocks of the Dorset coast, particularly around the village of Osmington Mills. Other Jurassic rocks that yield specimens include the Cornbrash in Yorkshire and the Middle Jurassic sequence in the Cotswolds, particularly around Cleeve Hill, near Cheltenham. [1] Pterotrigonia (Scabrotrigonia) thoracica has been named state fossil of Tennessee.
The genus Trigonia is the most readily identifiable member of the family, having a series of strong ribs or costae along the anterior part of the shell exterior. They are the first representatives of the family to appear in the Middle Triassic (Anisian) of Chile and New Zealand. The first European examples (Trigonia costata Parkinson) turn up in the Lower Jurassic (Toarcian) of Sherborne, Dorset and Gundershofen, Switzerland. [1]
Gryphaea, one of the genera known as devil's toenails, is a genus of extinct oysters, marine bivalve mollusks in the family Gryphaeidae.
Spondylus is a genus of bivalve molluscs, the only genus in the family Spondylidae. They are known in English as spiny oysters or thorny oysters.
Venus is a genus of small to large saltwater clams in the family Veneridae, which is sometimes known as the Venus clams and their relatives. These are marine bivalve molluscs.
Palaeoheterodonta is a subterclass of bivalve molluscs. It contains the extant orders Unionida and Trigoniida. They are distinguished by having the two halves of the shell be of equal size and shape, but by having the hinge teeth be in a single row, rather than separated into two groups, as they are in the clams and cockles.
The Gryphaeidae, common name the foam oysters or honeycomb oysters, are a family of marine bivalve mollusks. This family of bivalves is very well represented in the fossil record, however the number of living species is very few.
Praenuculidae is an extinct family of prehistoric bivalves in the superfamily Nuculoidea. Praenuculidae species lived from the early Ordovician, Arenig stage through the Early Devonian Emsian stage. Praenuculidae fossils are found worldwide, present on every continent except Antarctica. Species in this family are thought to have been sessile, attached to the substrate in shallow infaunal marine water environments, where they formed shells of an aragonite composition. The family Praenuculidae was named by A. Lee McAlester in 1969.
Pinna is a genus of bivalve molluscs belonging to the family Pinnidae.
Atrina is a cosmopolitan genus of bivalve molluscs belonging to the family Pinnidae.
Myophorella is a genus of fossil saltwater clams, marine bivalve mollusks in the family Trigoniidae. These bivalves are sometimes preserved with mineralized soft tissue.
Laevitrigonia is a genus of fossil clams, marine bivalve mollusks in the family Trigoniidae. This bivalve is sometimes preserved with mineralized soft-tissue.
Concavodontinae is an extinct subfamily of prehistoric bivalves in the family Praenuculidae. Concavodontinae species lived from the middle Ordovician, Caradoc epoch through the late Ordovician Ashgill epoch. Concavodontinae fossils are found in Europe and South America, and species are thought to have been stationary attached to substrate in shallow infaunal marine water environments where they formed shells of an aragonite composition. The subfamily Concavodontinae was named by Teresa M. Sánchez in 1999.
Cuyopsis is an extinct genus of bivalve in the extinct family Praenuculidae. The genus is one of eleven genera in the subfamily Praenuculinae. It is one of three Praenuculinae genera known solely from late Ordivician, Caradoc epoch, fossils found in South America. Cuyopsis currently contains a single accepted species, Cuyopsis symmetricus.
Villicumia is an extinct genus of bivalve in the extinct family Praenuculidae. The genus is one of eleven genera in the subfamily Praenuculinae. It is one of three Praenuculinae genera known solely from late Ordovician, Caradoc epoch, fossils found in South America. Villicumia currently contains a single accepted species, Villicumia canteraensis.
Trigoniida is an order of medium-sized saltwater clams, marine bivalve molluscs. Within the fossil record the occurrence of this order is widespread, ranging from the Devonian Period to Recent.
Eutrephoceras is an extinct genus of nautilus from the Late Jurassic to the Miocene. They are characterized by a highly rounded involute shell with slightly sinuous suture patterns.
Pholadomya is a genus of saltwater clams, marine bivalve molluscs in the family Pholadomyidae.
Trigonia is an extinct genus of saltwater clams, fossil marine bivalve mollusk in the family Trigoniidae. The fossil range of the genus spans the Paleozoic, Mesozoic and Paleocene of the Cenozoic, from 298 to 56 Ma.
Neotrigonia is a genus of living saltwater clams, in the family Trigoniidae, which otherwise consists only of fossil genera. For a long time the entire family was thought to be long extinct, but a living species that is now placed in this genus was discovered in 1802. At that time it was assigned to the fossil genus Trigonia. Currently, according to the World Register of Marine Species, 8 species in this genus are recognized.
Neotrigonia margaritacea, common name the pearly brooch-shell, is a species of saltwater clam, a marine bivalve mollusc in the family Trigoniidae. This species is known from sandy substrates in shallow seas in southeastern and southwestern Australia. This species was the first member of the family to be discovered alive; previous to its discovery, trigoniids were only known from fossils.
Liostrea is a genus of extinct oysters, marine bivalve mollusks in the family Gryphaeidae.