Biology:Corculum cardissa

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Short description: Species of bivalve

Corculum cardissa
Corculum cardissa 002.jpg
Corculum cardissa
Scientific classification edit
Domain: Eukaryota
Kingdom: Animalia
Phylum: Mollusca
Class: Bivalvia
Order: Cardiida
Family: Cardiidae
Genus: Corculum
Species:
C. cardissa
Binomial name
Corculum cardissa
Synonyms[1]
  • Cardissa alba Megerle von Mühlfeld, 1811
  • Cardium aequale Deshayes, 1855
  • Cardium cardissa Linnaeus, 1758
  • Cardium dionaeum Broderip & Sowerby, 1829
  • Cardium humanum Chemnitz: Römer,
  • Cardium impressum Lightfoot, 1786
  • Cardium inversum Lamarck, 1819
  • Cardium junoniae Lamarck, 1819
  • Cardium monstrosum Gmelin, 1791
  • Cardium productum Deshayes, 1855
  • Cardium replicatum Spengler, 1799
  • Cardium spinosa Swainson, 1840
  • Cardium unimaculatum Sowerby, 1833
  • Corculum aselae Bartsch, 1947
  • Corculum dolorosum Röding, 1798
  • Corculum humanum Röding, 1798
  • Corculum inflatum Röding, 1798
  • Corculum kirai Shikama, 1964
  • Corculum levigatum Bartsch, 1947
  • Corculum obesum Bartsch, 1947

Corculum cardissa, the heart cockle, is a species of marine bivalve mollusc in the family Cardiidae. It is found in the Indo-Pacific region. It has a symbiotic relationship with dinoflagellates (zooxanthellae), which live within its tissues.[2]

Description

The two valves of Corculum cardissa are unequal in size and often asymmetric. Their shape is very variable but viewed from above, the outline is roughly heart shaped which gives the molluscs their common name.[2] Viewed from the side the shape bears a resemblance to the shell of a cockle (Cerastoderma spp.). In some specimens the posterior valve is nearly flat or has a slight hump. In others it is more rounded.

The boundary of the valves is usually flat but is sometimes somewhat sinuous. Smaller shells tend to be elongated; larger shells are more rounded and the growth rings can be seen clearly. The shell is thin and translucent, particularly the upper side. There is an intricate mosaic pattern of more and less transparent white regions. The lower valve has a mainly white surface with a few transparent regions. The gills and mantle, especially the lower siphon, are dark brown owing to the presence of microscopic algae. The outer surface of the mantle also contains granules of reddish, purple and blue pigment.[2]

Right and left valve of the same specimen:

Habitat

Corculum cardissa is often found lying on a surface of sand among coral debris and broken shells. It usually lies horizontally in a hollow it excavates and its top is often covered with filamentous algae and muddy deposits.[2]

Biology

Colour variations of Corculum cardissa

Corculum cardissa is a filter feeder. The shell gapes slightly at the ventral end and two siphons are protruded. Water is drawn in through one and expelled through the other and plankton and detritus are extracted. At the same time, water passes over the gills where oxygen is absorbed.[2]

Corculum cardissa is a hermaphrodite. Eggs are laid and the larvae develop with great rapidity. Within 24 hours of fertilisation, the veliger larvae have been observed to develop two valves and be swimming on the surface of the substrate. A day later, they had undergone metamorphosis and had settled on the bottom as juveniles, miniature versions of the adult bivalves.[2]

Ecology

Corculum cardissa and some other members of the family Cardiidae live in symbiosis with dinoflagellates in the genus Symbiodinium. These are found in the mantle, gills and the liver. It was originally thought that the photosynthetic algae were in the haemocoel, the fluid between the cells. It has since been found however that, in response to the presence of Symbiodinium, a tertiary series of tubules develop from the walls of the digestive system and ramify through the tissues. The algae are found in these and are separated from the blood cells in the haemolymph by a layer one cell thick.[3] This is analogous to the tertiary tubular system found in Tridacna and first described by Mansour in 1946,[4] but subsequently overlooked by other researchers. The algae enter the system through the mouth. The translucent shell and the bivalve's habit of lying on the surface both encourage photosynthesis in the algae. The mollusc benefits from the metabolites produced and the alga benefits from a safe environment in which to live.[3]

References

  1. 1.0 1.1 Corculum cardissa (Linnaeus, 1758) World Register of Marine Species. Retrieved 2011-10-19.
  2. 2.0 2.1 2.2 2.3 2.4 2.5 Kawaguti, Siro. "Observations on the heart shell, Corculum cardissa (L.), and its associated Zooxanthellae". Pacific Science 4 (1): 43-49. http://scholarspace.manoa.hawaii.edu/bitstream/handle/10125/8989/vol4n1-43-49.pdf?sequence=1. Retrieved 2011-10-21. 
  3. 3.0 3.1 Farmer, MA; Fitt, WK; Trench, RK (2001). "Morphology of the Symbiosis Between Corculum cardissa (Mollusca: Bivalvia) and Symbiodinium corculorum (Dinophyceae)". Biological Bulletin 200 (3): 336–343. doi:10.2307/1543514. PMID 11441975. http://www.biolbull.org/content/200/3/336.full. 
  4. Mansour, K (1946). "Source and fate of the zooxanthellae of the visceral mass of Tridacna elongata". Nature 158 (4004): 130. doi:10.1038/158130a0. Bibcode1946Natur.158..130M. 

Wikidata ☰ Q2423505 entry