Tridacna Maxima
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The maxima clam (''Tridacna maxima''), also known as the small giant clam, is a species of bivalve mollusc found throughout the Indo-Pacific region.MolluscaBase eds. (2022). MolluscaBase. Tridacna maxima (Röding, 1798). Accessed through: World Register of Marine Species at: https://marinespecies.org/aphia.php?p=taxdetails&id=207675 on 2022-10-13 They are much sought after in the
aquarium trade Fishkeeping is a popular hobby, practiced by aquarists, concerned with keeping fish in a home aquarium or garden pond. There is also a piscicultural fishkeeping industry, serving as a branch of agriculture. Origins of fishkeeping Fish ha ...
, as their often striking coloration mimics that of the true
giant clam The giant clams are the members of the clam genus '' Tridacna'' that are the largest living bivalve mollusks. There are actually several species of "giant clams" in the genus '' Tridacna'', which are often misidentified for ''Tridacna gigas'', ...
; however, the ''maximas'' maintain a manageable size, with the shells of large specimens typically not exceeding in length.


Description

Bivalves have two valves on the mantle. These siphon water through the body to extract oxygen from the water using the gills and to feed on algae.Ellis, S. (1998) Spawning and early larval rearing of giant clams (Bivalvia: Tridacnidae). Center for Tropical and Subtropical Aquaculture, 130: 1–55. The ''maxima'' is less than one-third the size of the true giant clam (''
Tridacna gigas The giant clams are the members of the clam genus ''Tridacna'' that are the largest living bivalve mollusks. There are actually several species of "giant clams" in the genus ''Tridacna'', which are often misidentified for ''Tridacna gigas'', ...
'').


Shell

Adults develop a large shell that adheres to the substrate by its
byssus A byssus () is a bundle of filaments secreted by many species of bivalve mollusc that function to attach the mollusc to a solid surface. Species from several families of clams have a byssus, including pen shells ( Pinnidae), true mussels (Mytil ...
, a tuft of long, tough filaments that protrude from a hole next to the hinge.


Mantle

When open, the bright blue, green or brown mantle is exposed and obscures the edges of the shell which have prominent, distinctive furrows. The attractive colours of the small giant clam are the result of crystalline pigment cells. These are thought to protect the clam from the effects of intense sunlight, or bundle light to enhance the algae's
photosynthesis Photosynthesis is a process used by plants and other organisms to convert light energy into chemical energy that, through cellular respiration, can later be released to fuel the organism's activities. Some of this chemical energy is stored i ...
. ''Maxima'' produce the color white in their mantle by clustering red, blue and green cells, while individual '' T. derasa'' cells are themselves multi-colored.


Distribution and habitat

The small giant clam has the widest range of all giant clam species. It is found in the oceans surrounding east Africa, India, China, Australia, Southeast Asia, the Red Sea and the islands of the Pacific.Huelsken, T., Keyse, J., Liggins, L., Penny, S., Treml, E.A., Riginos, C. (2013) A Novel Widespread Cryptic Species and Phylogeographic Patterns within Several Giant Clam Species (Cardiidae: Tridacna) from the Indo-Pacific Ocean. PLoS ONE
DOI: 10.1371/journal.pone.0080858
 Found living on the surface of reefs or sand, or partly embedded in coral,Wells, S.M., Pyle, R.M. and Collins, N.M. (1983) The IUCN Invertebrate Red Data Book. IUCN, Gland, Switzerland. the small giant clam occupies well-lit areas, due to its symbiotic relationship with photosynthetic algae, which require sunlight for energy production.


Biology

A sessile mollusc, the small giant clam attaches itself to rocks or dead coral and siphons water through its body, filtering it for phytoplankton, as well as extracting oxygen with its gills. However, it does not need to filter-feed as much as other clams since it obtains most of the nutrients it requires from tiny photosynthetic algae known as zooxanthellae. Beginning life as a tiny fertilised egg, the small giant clam hatches within 12 hours, becoming a free-swimming larva. This larva then develops into another, more developed, larva which is capable of filter-feeding. At the third larval stage, a foot develops, allowing the larva to alternately swim and rest on the substrate. After eight to ten days, the larva metamorphoses into a juvenile clam, at which point it can acquire zooxanthellae and function symbiotically. The juvenile matures into a male clam after two or three years, becoming a hermaphrodite when larger (at around 15 centimetres in length). Reproduction is stimulated by the lunar cycle, the time of day, and the presence of other eggs and sperm in the water. Hermaphroditic clams release their sperm first followed later by their eggs, thereby avoiding self-fertilisation.


Conservation

The species is protected under Appendix II of the
Convention on International Trade in Endangered Species CITES (shorter name for the Convention on International Trade in Endangered Species of Wild Fauna and Flora, also known as the Washington Convention) is a multilateral treaty to protect endangered plants and animals from the threats of interna ...
(CITES) meaning international import/export of all parts and derivatives requires CITES permits to be granted.


Gallery

File:Tridacna maxima Thiladhoo.JPG File:2 Tridacna gigas.jpg File:Tridacna maxima 2.jpg


References

* Bianconi, J.J. (1869). Specimina zoologica Mosambicana. Fasciculus XVII. Memorie della Accademia delle Scienze dell'Istituto di Bologna, sér. 2. 199-222; Pls. I-IV. * Hedley, C. (1921). A revision of the Australian Tridacna. Records of the Australian Museum. 13 (4): 163-172, pls 27-34. * Morton, B. & Morton, J. (1983). The sea shore ecology of Hong Kong. Hong Kong: Hong Kong University Press. 350 pp. * Liu, J.Y. uiyu(ed.). (2008). Checklist of marine biota of China seas. China Science Press. 1267 pp


External links

*
Stephen D. A. Smith, Growth and population dynamics of the giant clam Tridacna maxima (Röding) at its southern limit of distribution in coastal, subtropical eastern Australia; Molluscan Research 31(1): 37–41; ISSN 1323-5818

Röding, P. F. (1798). Museum Boltenianum sive Catalogus cimeliorum e tribus regnis naturæ quæ olim collegerat Joa. Fried Bolten, M. D. p. d. per XL. annos proto physicus Hamburgensis. Pars secunda continens Conchylia sive Testacea univalvia, bivalvia & multivalvia. Trapp, Hamburg. viii, 199 pp

Lamarck (J.-B. M.) de. (1819). Histoire naturelle des animaux sans vertèbres. Tome 6(1): vi + 343 pp. Paris: published by the author.

Reeve, L. A. (1862). Monograph of the genus Tridacna. In: Conchologia Iconica, or, illustrations of the shells of molluscous animals, vol. 14, pl. 1-8 and unpaginated text. L. Reeve & Co., London.

Sowerby, G. B. II. (1884). Monograph of the genera Tridacna and Hippopus. In G. B. Sowerby II (ed.), Thesaurus conchyliorum, or monographs of genera of shells. Vol. 5 (41-42): 179-182, pl. 485-489, 489*. London, privately published.

Sowerby, G. B. III. (1912). Notes on the shells of Tridacna, and description of a new species. Proceedings of the Malacological Society. 10(1): 29-31

Iredale, T. (1927). New molluscs from Vanikoro. Records of the Australian Museum. 16(1): 73-80, pl. 5.

Bonfitto A., Sabelli B., Tommasini S. & Herbert D. (1994). Marine molluscan taxa from Mozambique described by G.G. Bianconi and preserved in the Zoological Museum of the Univerity of Bologna. Annals of the Natal Museum 35:133-138.

Poorten, J.J. ter, 2009. The Cardiidae of the Panglao Marine Biodiversity Project 2004 and the Panglao 2005 Deep-Sea Cruise with descriptions of four new species (Bivalvia). Vita Malacologica 8: 9-96
{{Wikispecies, Tridacna maxima Tridacna Fauna of Western Australia Bivalves described in 1798 Taxa named by Peter Friedrich Röding