Lucinidae
Lucinidae is a family of saltwater clams, marine bivalve molluscs.
These bivalves are remarkable for their endosymbiosis with sulphide-oxidizing bacteria.
Characteristics
The members of this family are found in muddy sand or gravel at or below low tide mark. They have characteristically rounded shells with forward-facing projections. The valves are flattened and etched with concentric rings. Each valve bears two cardinal and two plate-like lateral teeth. These molluscs do not have siphons but the extremely long foot makes a channel which is then lined with slime and serves for the intake and expulsion of water.Symbiosis
Lucinids host their sulfur-oxidizing symbionts in specialized gill cells called bacteriocytes. Lucinids are burrowing bivalves that live in environments with sulfide-rich sediments. The bivalve will pump sulfide-rich water over its gills from the inhalant siphon in order to provide symbionts with sulfur and oxygen. The endosymbionts then use these substrates to fix carbon into organic compounds, which are then transferred to the host as nutrients. During periods of starvation, lucinids may harvest and digest their symbionts as food.Symbionts are acquired via phagocytosis of bacteria by bacterioctyes. Symbiont transmission occurs horizontally, where juvenile lucinids are aposymbiotic and acquire their symbionts from the environment in each generation. Lucinids maintain their symbiont population by reacquiring sulfur-oxidizing bacteria throughout their lifetime. Although process of symbiont acquisition is not entirely characterized, it likely involves the use of the binding protein, codakine, isolated from the lucinid bivalve, Codakia orbicularis. It is also known that symbionts do not replicate within bacteriocytes because of inhibition by the host. However, this mechanism is not well understood.
Lucinid bivalves originated in the Silurian; however, they did not diversify until the late Cretaceous, along with the evolution of seagrass meadows and mangrove swamps. Lucinids were able to colonize these sulfide rich sediments because they already maintained a population of sulfide-oxidizing symbionts. In modern environments, seagrass, lucinid bivalves, and the sulfur-oxidizing symbionts constitute a three-way symbiosis. Because of the lack of oxygen in coastal marine sediments, dense seagrass meadows produce sulfide-rich sediments by trapping organic matter that is later decomposed by sulfate-reducing bacteria. The lucinid-symbiont holobiont removes toxic sulfide from the sediment, and the seagrass roots provide oxygen to the bivalve-symbiont system.
The symbionts from at least two species of lucinid clams, Codakia orbicularis and Loripes lucinalis, are able to fix nitrogen gas into organic nitrogen.
Genera and species
The species and genera include:- Alucinoma Habe, 1958
- * Alucinoma soyae Habe, 1958
- Anodontia Link, 1807
- *Anodontia alba Link, 1807 – buttercup lucine
- * Anodontia edentula
- * Anodontia edentuloides
- * Anodontia hawaiensis
- * Anodontia ovum
- * Anodontia philippiana – chalky buttercup
- * Anodontia vesicula
- Bretskya Glover & Taylor, 2007
- * Bretskya scapula Glover & Taylor, 2007
- Cardiolucina
- * Cardiolucina undula Glover & Taylor, 2007
- Cavilucina
- Chavania
- * Chavania striata
- Codakia Scopoli, 1777
- *Codakia costata – costate lucine
- * Codakia cubana Dall, 1901
- * Codakia decussata
- * Codakia distinguenda
- * Codakia orbicularis – tiger lucine
- * Codakia orbiculata – dwarf tiger lucine
- * Codakia paytenorum
- * Codakia pectinella
- * Codakia punctata
- * Codakia tigerina
- Ctena Mörch, 1860
- * Ctena bella
- * Ctena transversa
- Divalinga Chavan, 1951
- * Divalinga quadrisulcata
- Divaricella von Martens, 1880
- *Divaricella angulifera
- * Divaricella dentata – dentate lucine
- * Divaricella divaricata
- * Divaricella huttoniana
- * Divaricella quadrisulcata – cross-hatched lucine
- Epicodakia Iredale, 1930
- * Epicodakia neozelanica Powell, 1937
- * Epicodakia nodulosa Glover & Taylor, 2007
- * Epicodakia sweeti
- Epilucina Dall, 1901
- * Epilucina californica
- Ferrocina Glover & Taylor, 2007
- * Ferrocina multiradiata Glover & Taylor, 2007
- Fimbria
- * Fimbria fimbriata
- * Fimbria soverbii
- Funafutia
- * Funafutia levukana
- Gonimyrtea Marwick, 1929
- * Gonimyrtea avia Glover & Taylor, 2007
- * Gonimyrtea concinna
- * Gonimyrtea fidelis Glover & Taylor, 2007
- Here Gabb, 1866
- * Here excavata
- * Here ricthofeni
- Lepidolucina Glover & Taylor, 2007
- * Lepidolucina belepia Glover & Taylor, 2007
- Leucosphaera Taylor & Glover, 2005
- * Leucosphaera diaphana Glover & Taylor, 2007
- * Leucosphaera salamensis
- Linga De Gregorio, 1884
- * Linga amiantus
- * Linga cancellaris
- * Linga columbella Lamarck, 1819
- * Linga excavata
- * Linga leucocyma Dall, 1886
- * Linga leucocymoides
- * Linga pensylvanica
- * Linga sombrerensis
- * Linga undatoides
- Liralucina Glover & Taylor, 2007
- * Liralucina craticula Glover & Taylor, 2007
- * Liralucina lifouina Glover & Taylor, 2007
- * Liralucina sperabilis
- * Liralucina vaubani Glover & Taylor, 2007
- Loripes Poli, 1791
- * Loripes lucinalis
- Lucina Bruguière,
- *Lucina amiantus – decorated lucine
- * Lucina bermudensis Dall, 1901
- * Lucina excavata
- * Lucina fenestrata Hinds, 1845
- * Lucina floridana Conrad, 1833, now Stewartia floridana
- * Lucina keenae Chavan, 1971
- * Lucina leucocyma Dall, 1886 – four-ribbed lucine
- * Lucina muricata
- * Lucina nassula
- * Lucina nuttalli
- * Lucina pectinata
- * Lucina pensylvanica – Pennsylvania lucine
- * Lucina radians
- * Lucina sombrerensis Dall, 1886
- * Lucina trisulcata Conrad, 1841
- Lucinella Monterosato, 1883
- * Lucinella divaricata
- Lucinisca Dall, 1901
- * Lucinisca muricata
- * Lucinisca nassula
- * Lucinisca nuttalli
- Lucinoma Dall, 1901
- * Lucinoma aequizonatum
- * Lucinoma annulatum
- * Lucinoma atlantis R. A. Mclean, 1936
- * Lucinoma blakeanum
- * Lucinoma borealis
- * Lucinoma filosa
- * Lucinoma filosum
- * Lucinoma galathea Marwick, 1953)
- * Lucinoma heroica
- * Lucinoma kazani Salas & Woodside, 2002
- Myrtea Turton, 1822
- * Myrtea compressa
- * Myrtea lens
- * Myrtea pristiphora Dall and Simpson, 1901
- * Myrtea sagrinata
- * Myrtea spinifera Montagu, 1803
- Myrtina Glover & Taylor, 2007
- * Myrtina leptolira Glover & Taylor, 2007
- * Myrtina porcata Glover & Taylor, 2007
- Notomyrtea Iredale, 1924
- * Notomyrtea botanica Hedley, 1918
- * Notomyrtea vincentia Glover & Taylor, 2007
- Parvidontia Glover & Taylor, 2007
- * Parvidontia laevis Glover & Taylor, 2007
- Parvilucina Dall, 1901
- * Parvilucina approximata
- * Parvilucina blanda
- * Parvilucina costata
- * Parvilucina lampra
- * Parvilucina lingualis
- * Parvilucina mazatlanica
- * Parvilucina multilineata
- * Parvilucina tenuisculpta
- Pillucina Pilsbry, 1921
- * Pillucina copiosa Glover & Taylor, 2007
- * Pillucina hawaiiensis
- * Pillucina spaldingi Pilsbry, 1921
- * Pillucina pacifica Glover & Taylor, 2001
- Poumea Glover & Taylor, 2007
- * Poumea coselia Glover & Taylor, 2007
- Pseudomiltha
- * Pseudomiltha floridana
- * Pseudomiltha tixierae Klein, 1967
- Solelucina Glover & Taylor, 2007
- * Solelucina koumacia Glover & Taylor, 2007
- Stewartia Olsson, A. & Harbison, A. 1953
- * Stewartia floridana
- Wallucina
- * Wallucina fijiensis