Jump to content

Saxidomus gigantea

From Wikipedia, the free encyclopedia
(Redirected from Butter clam)

Saxidomus gigantea
Scientific classification Edit this classification
Domain: Eukaryota
Kingdom: Animalia
Phylum: Mollusca
Class: Bivalvia
Order: Venerida
Family: Veneridae
Genus: Saxidomus
Species:
S. gigantea
Binomial name
Saxidomus gigantea
(Deshayes, 1839)[1]
Synonyms[1]
  • Saxidomus gigantea brevis Dall, 1916
  • Saxidomus giganteus Deshayes, 1839
  • Venerupis gigantea Deshayes, 1839
  • Venus maxima Philippi, 1846

Saxidomus gigantea is a large, edible saltwater clam, a marine bivalve mollusk in the family Veneridae, the venus clams.[2] It can be found along the western coast of North America, ranging from the Aleutian Islands to San Francisco Bay. Common names for this clam include butter clam, Washington clam, smooth Washington clam and money shell.[3]

Numerous valves of this species have been found in the shell middens on Sidney Island in British Columbia, Canada.[4]

Description

[edit]

This large clam can live for more than twenty years and grow to a length of 15 cm (6 in), with smaller individuals being nearly as high as they are long. The umbones are set at an angle of more than 110° and the ligament joining the valves is black and external. There are no radial ridges but the oval valves are sculpted by well-defined concentric rings. Each valve has three cardinal teeth. The general color of the exterior of the shell is white, but this may be stained reddish-brown by iron sulfide from the sediment. The interior of the shell is smooth and white, but not glossy, with a pallial line, a pallial sinus and two adductor muscle scars of equal size. The siphons are united and about 4 cm (1.6 in) long, and have black tips.[3]

Right and left valve of the same specimen:

Distribution and habitat

[edit]

S. gigantea is native to shallow waters in the northeastern Pacific Ocean. Its range extends from the Bering Sea and the Aleutian Islands southwards to San Francisco Bay in California, although it rarely occurs south of Humboldt Bay. It is found buried in soft sediments such as sand, muddy sand and gravel, from the low intertidal zone down to about 40 m (130 ft).[3]

Ecology

[edit]

This clam lives buried in soft sediments, sometimes burrowing as deep as 35 cm (14 in) below the surface.[3] It is a filter feeder and when feeding it extends its siphons to draw in a respiratory current of water, removes the phytoplankton and other planktonic organic particles, and expels the remaining water.[5] Small pea crabs such as Pinnixa faba sometimes live symbiotically inside the mantle cavity, and the clam is preyed on by the larger Dungeness crab, the Lewis's moon snail, sunflower sea stars, mottled stars and sea otters.[3]

Saxitoxins

[edit]

Saxitoxins are a family of at least 21 neurotoxins[6] produced by dinoflagellates that bioaccumulate in the clams and other bivalve mollusks as these algae are consumed and can cause paralytic shellfish poisoning (PSP) when the clams are eaten.[3][7] According to a 1996 report from the Marine Advisory Program at the University of Alaska, the United States Food and Drug Administration (FDA) considers seafood unsafe if it contains more than 80 μg of PSP-causing toxins per 100 g of tissue of the seafood.[6][8] It is clear that PSP-causing toxin levels are typically much higher in the summer months[9] though this does not mean the seafood is necessarily safe at other times.[10] Risks also vary based on species[6][8] but seafood available for retail sale is required to meet the FDA standards.[10] Although humans cannot detect the toxins in the tainted clams, it seems that sea otters and seabirds are able to do so, and avoid feeding on them.[3]

In PSP poisonings that occurred in the summer of 1993 in Kodiak, Alaska, saxitoxin levels as high as 19,600 μg / 100 g were measured in the Alaskan blue mussel Mytilus edulis – sufficient to provide a lethal dose in a single 2.5 g mussel.[6] By contrast, the highest measured level of saxitoxin in the Pacific littleneck clam Leukoma staminea was 580 μg / 100 g according to this 1996 report.[8] Butter clams "tend to accumulate the highest levels of PSP toxins"[11] with levels as high as 7,500 μg / 100 g having been recorded.[8] The toxicity difference between these two clams can be attributed to the fact that the littleneck clam has an enzyme that converts saxitoxin into decarbamoylsaxitoxin, a capability that significantly reduces the quantity of saxitoxins present and that is not shared by the blue mussel nor by the butter clam.[12][13]

References

[edit]
  1. ^ a b Rosenberg, Gary (2011). Bieler R, Bouchet P, Gofas S, Marshall B, Rosenberg G, La Perna R, Neubauer TA, Sartori AF, Schneider S, Vos C, ter Poorten JJ, Taylor J, Dijkstra H, Finn J, Bank R, Neubert E, Moretzsohn F, Faber M, Houart R, Picton B, Garcia-Alvarez O (eds.). "Saxidomus gigantea (Deshayes, 1839)". MolluscaBase. World Register of Marine Species. Retrieved 22 January 2019.
  2. ^ Telnack, Jennifer (2008). "Saxidomus giganteus – The Butter Clam". Intertidal Marine Invertebrates of the South Puget Sound. Archived from the original on 16 February 2012.
  3. ^ a b c d e f g Cowles, Dave (2005). "Saxidomus gigantea (Deshayes, 1839)". Invertebrates of the Salish Sea. Rosario Beach Marine Laboratory (a campus of Walla Walla University, Washington). Retrieved 22 January 2019.
  4. ^ Butler, Robert William (1997). "The Coastal realm of the Great Blue Heron". The Great Blue Heron: A Natural History and Ecology of a Seashore Sentinel. Vancouver: UBC Press. p. 33. ISBN 9780774806343.
  5. ^ Ruppert, Edward E.; Fox, Richard S.; Barnes, Robert D. (2004). Invertebrate Zoology (7th ed.). Cengage Learning. p. 376. ISBN 978-81-315-0104-7.
  6. ^ a b c d RaLonde, Raymond (October 1996). "Paralytic Shellfish Poisoning: The Alaska Problem" (PDF). Alaska's Maritime Resources. Marine Advisory Board, the University of Alaska. pp. 1–7.
  7. ^ Clark, R. F.; Williams, S. R.; Nordt, S. P.; Manoguerra, A. S. (1999). "A review of selected seafood poisonings" (PDF). Undersea & Hyperbaric Medicine. 26 (3): 175–184. PMID 10485519. Archived from the original on June 17, 2012.{{cite journal}}: CS1 maint: unfit URL (link)
  8. ^ a b c d "How Toxic Are Alaska's Most Common Shellfish?" (PDF). Alaska's Maritime Resources. Marine Advisory Board, the University of Alaska. October 1996. pp. 10–11.
  9. ^ Gessner, Brad (October 1996). "Epidemiology of Paralytic Shellfish Poisoning Outbreaks in Alaska" (PDF). Alaska's Maritime Resources. Marine Advisory Board, the University of Alaska. pp. 16–17, 19.
  10. ^ a b "Truths and Myths about PSP" (PDF). Alaska's Maritime Resources. Marine Advisory Board, the University of Alaska. October 1996. pp. 14–15.
  11. ^ Alaska Sea Grant Program (13 August 2015). "Paralytic Shellfish Poisoning in Alaska Facts and Discussion". College of Fisheries and Ocean Sciences at the University of Alaska Fairbanks. Retrieved 22 January 2019.
  12. ^ Deeds, Jonathan R.; Landsberg, Jan H.; Etheridge, Stacey M.; Pitcher, Grant C.; Longan, Sara Watt (2008). "Non-Traditional Vectors for Paralytic Shellfish Poisoning". Marine Drugs. 6 (2): 308–348. doi:10.3390/md6020308. PMC 2525492. PMID 18728730.
  13. ^ Sullivan, John J.; Iwaoka, Wayne T.; Liston, John (1983). "Enzymatic transformation of PSP toxins in the littleneck clam (Protothaca staminea)". Biochemical and Biophysical Research Communications. 114 (2): 465–472. doi:10.1016/0006-291X(83)90803-3. PMID 6882435.