Squid





































Squid
Temporal range: (at least) Late Cretaceous–Recent[1]

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Photo of squid with 8 short arms and two longer tentacles

European squid (Loligo vulgaris)

Scientific classification edit
Kingdom:
Animalia
Phylum:
Mollusca
Class:
Cephalopoda
Superorder:
Decapodiformes
Order:
Teuthida
A. Naef, 1916

Suborders

†Plesioteuthididae (incertae sedis)
Myopsida
Oegopsida



Squid are cephalopods of the two orders Myopsida and Oegopsida, which were formerly regarded as two suborders of the order Teuthida, however recent research shows Teuthida to be paraphyletic. The two current orders comprise around 304 species.[2] Like all other cephalopods, squid have a distinct head, bilateral symmetry, a mantle, and arms. Squid, like cuttlefish, have eight arms arranged in pairs and two, usually longer, tentacles.




Contents






  • 1 Taxonomy


    • 1.1 Evolution




  • 2 Description


    • 2.1 Nervous system


    • 2.2 Reproductive system


    • 2.3 Digestive system


    • 2.4 Cardiovascular system


    • 2.5 Head


    • 2.6 Size




  • 3 Commercial fishing


  • 4 As food


  • 5 See also


  • 6 References


  • 7 External links





Taxonomy





Bathyteuthis abyssicola





Grimalditeuthis bonplandi





Histioteuthis reversa





Mastigoteuthis flammea





Onychoteuthis banksii





Pterygioteuthis giardi


Squid are members of the class Cephalopoda, subclass Coleoidea, the two orders, Myopsida and Oegopsida (including giant squid such as Architeuthis dux). A valid Teuthida would have been the largest cephalopod order with around 300 species classified into 29 families.


The orders Myopsida and Oegopsida are classified in the superorder Decapodiformes (from the Greek for "ten legs"). Two other orders of decapodiform cephalopods are also called squid, although they are taxonomically distinct from squids and differ recognizably in their gross anatomical features. They are the bobtail squid of order Sepiolida and the ram's horn squid of the monotypic order Spirulida. The vampire squid, however, is more closely related to the octopuses than to any squid.



  • Class Cephalopoda

    • Subclass Nautiloidea: nautilus

    • Subclass Coleoidea: squid, octopus, cuttlefish

      • Superorder Octopodiformes

      • Superorder Decapodiformes

        • ?Order †Boletzkyida

        • Order Spirulida: ram's horn squid

        • Order Sepiida: cuttlefish

        • Order Sepiolida: bobtail squid

        • Order Myopsida

          • Family Australiteuthidae

          • Family Loliginidae: inshore, calamari, and grass squid



        • Order Oegopsida

          • Family Ancistrocheiridae: sharpear enope squid

          • Family Architeuthidae: giant squid

          • Family Bathyteuthidae deepsea squid

          • Family Batoteuthidae: bush-club squid

          • Family Brachioteuthidae

          • Family Chiroteuthidae

          • Family Chtenopterygidae: comb-finned squid

          • Family Cranchiidae: glass squid, including colossal squid

          • Family Cycloteuthidae

          • Family Enoploteuthidae

          • Family Gonatidae: armhook squid

          • Family Histioteuthidae: jewel squid

          • Family Joubiniteuthidae: Joubin's squid

          • Family Lepidoteuthidae: Grimaldi scaled squid

          • Family Lycoteuthidae

          • Family Magnapinnidae: bigfin squid

          • Family Mastigoteuthidae: whip-lash squid

          • Family Neoteuthidae

          • Family Octopoteuthidae

          • Family Ommastrephidae: flying squid

          • Family Onychoteuthidae: hooked squid

          • Family Pholidoteuthidae

          • Family Promachoteuthidae

          • Family Psychroteuthidae: glacial squid

          • Family Pyroteuthidae: fire squid

          • Family Thysanoteuthidae: rhomboid squid

          • Family Walvisteuthidae

            • Parateuthis tunicata (incertae sedis)


          • Family †Plesioteuthididae (incertae sedis)










Evolution




Fossil Rhomboteuthis from the Lower Callovian of La Voulte-sur-Rhône, France


Squid have differentiated from their ancestral molluscs such that the body plan has been condensed antero-posteriorly and extended dorso-ventrally. What before may have been the foot of the ancestor is modified into a complex set of tentacles and highly developed sense organs, including advanced eyes similar to those of vertebrates.


The ancestral shell has been lost, with only an internal gladius, or pen, remaining. The pen is a feather-shaped internal structure that supports the squid's mantle and serves as a site for muscle attachment. It is made of a chitin-like material.



Description




Composite diagram illustrating basic squid features (ventral aspect)


The main body mass is enclosed in the mantle, which has a swimming fin along each side. These fins, unlike in other marine organisms, are not the main source of locomotion in most species.


The skin is covered in chromatophores, which enable the squid to change color to suit its surroundings, making it practically invisible. The underside is also almost always lighter than the topside, to provide camouflage from both prey and predator.


Under the body are openings to the mantle cavity, which contains the gills (ctenidia) and openings to the excretory and reproductive systems. At the front of the mantle cavity lies the siphon, which the squid uses for locomotion via precise jet propulsion.[3] In this form of locomotion, water is sucked into the mantle cavity and expelled out of the siphon in a fast, strong jet. The direction of the siphon can be changed, to suit the direction of travel.


Inside the mantle cavity, beyond the siphon, lies the visceral mass, which is covered by a thin, membranous epidermis. Under this are all the major internal organs.


Squid are strong swimmers and certain species can "fly" for short distances out of the water.[4]



Nervous system


The giant axon, which may be up to 1 mm (0.04 in) in diameter in some larger species, innervates the mantle and controls part of the jet propulsion system.


As cephalopods, squid exhibit relatively high intelligence among invertebrates. For example, groups of Humboldt squid hunt cooperatively, using active communication. (See Cephalopod intelligence.)



Reproductive system


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A dissected male specimen of Onykia ingens, showing a nonerect penis (the white tubular structure located below most of the other organs)




A specimen of the same species exhibiting elongation of the penis to 67 cm



In females, the ink sac is hidden from view by a pair of white nidamental glands, which lie anterior to the gills. Also, red-spotted accessory nidamental glands are present. Both organs are associated with nutrient manufacture and shells for the eggs. Females also have a large translucent ovary, situated towards the posterior of the visceral mass.


Males do not possess these organs, but instead have a large testis in place of the ovary, and a spermatophoric gland and sac. In mature males, this sac may contain spermatophores, which are placed inside the female's mantle during mating.


Shallow-water species of the continental shelf and epipelagic/mesopelagic zones are characterised by the presence of hectocotyli, specially modified arms used to fertilise the female's eggs.[5] Most deep-sea squid lack hectocotyli and have longer penises; Ancistrocheiridae and Cranchiinae are exceptions.[5]Giant squid of the genus Architeuthis are unusual in that they possess both a large penis and modified arm tips, although whether the latter are used for spermatophore transfer is uncertain.[5] Penis elongation has been observed in the deep-water species Onykia ingens; when erect, the penis may be as long as the mantle, head, and arms combined.[5][6] As such, deep-water squid have the greatest known penis length relative to body size of all mobile animals, second in the entire animal kingdom only to certain sessile barnacles.[5]



Digestive system


Like all cephalopods, squid have complex digestive systems. The muscular stomach is found roughly in the midpoint of the visceral mass. From there, the bolus moves into the caecum for digestion. The caecum, a long, white organ, is found next to the ovary or testis. In mature squid, more priority is given to reproduction such that the stomach and caecum often shrivel up during the later life stages. Finally, food goes to the liver (or digestive gland), found at the siphon end, for absorption. Solid waste is passed out of the rectum. Beside the rectum is the ink sac, which allows a squid to rapidly discharge black ink into the mantle cavity.



Diagram labeling siphon, intestine, nidamental gland, accessory nidamental gland, renal pore, and branchial heart.

Ventral view of the viscera of the female Chtenopteryx sicula



Cardiovascular system


Squid have three hearts. Two branchial hearts feed the gills, each surrounding the larger systemic heart that pumps blood around the body. Squid blood contains the copper-rich protein hemocyanin for transporting oxygen. The faintly greenish hearts are surrounded by the renal sacs – the main excretory system. The kidneys are difficult to identify and stretch from the hearts (located at the posterior side of the ink sac) to the liver. The systemic heart is made of three chambers, a lower ventricle and two upper auricles.



Head


The head end bears eight arms and two tentacles, each a form of muscular hydrostat containing many suckers along the edge. These tentacles do not grow back if severed. In the mature male, the outer half of one of the left arms is hectocotylised – and ends in a copulatory pad rather than suckers. This is used for depositing a spermatophore inside the mantle cavity of a female.[7]


The mouth is equipped with a sharp, horny beak mainly made of chitin[8] and cross-linked proteins, and is used to kill and tear prey into manageable pieces. The beak is very robust, but does not contain minerals, unlike the teeth and jaws of many other organisms, including marine species.[9]
Captured whales often have indigestible squid beaks in their stomachs. The mouth contains the radula (the rough tongue common to all molluscs except bivalvia).


The eyes, on either side of the head, each contain a hard lens. The image is focused by changing the position of the lens, as in a camera or telescope, rather than changing the shape of the lens, as in the human eye.


Squid appear to have limited hearing.[10]



Size



Photo of squid with prominiently visible eye

A frozen giant squid in Melbourne Aquarium



The majority are no more than 60 cm (24 in) long, although the giant squid may reach 13 m (43 ft).[11]


In 1978, sharp, curved claws on the suction cups of squid tentacles cut up the rubber coating on the hull of the USS Stein. The size suggested the largest squid known at the time.[12]


In 2003, a large specimen of an abundant[13] but poorly understood species, Mesonychoteuthis hamiltoni (the colossal squid), was discovered. This species may grow to 14 m (46 ft) in length, making it the largest invertebrate.[14] Squid have the largest eyes in the animal kingdom. The kraken is a legendary tentacled monster possibly based on sightings of real giant squid.


In February 2007, a New Zealand fishing vessel caught a colossal squid weighing 495 kg (1,091 lb) and measuring around 10 m (33 ft) off the coast of Antarctica.[15] This specimen represents the largest cephalopod to ever be scientifically documented.



Commercial fishing


According to the FAO, the cephalopod catch for 2002 was 3,173,272 tonnes (6.995867×109 lb). Of this, 2,189,206 tonnes, or 75.8 percent, was squid.[16] The following table lists the squid species fishery catches which exceeded 10,000 tonnes (22,000,000 lb) in 2002.


















































































World squid catch in 2002[16]
Species
Family
Common name
Catch
tonnes
Percent

Loligo gahi or Doryteuthis gahi

Loliginidae

Patagonian squid
24,976
1.1

Loligo pealei

Loliginidae

Longfin inshore squid
16,684
0.8
Common squid nei[17]

Loliginidae

225,958
10.3

Ommastrephes bartramii

Ommastrephidae

Neon flying squid
22,483
1.0

Illex argentinus

Ommastrephidae
Argentine shortfin squid
511,087
23.3

Dosidicus gigas

Ommastrephidae

Humboldt squid
406,356
18.6

Todarodes pacificus

Ommastrephidae

Japanese flying squid
504,438
23.0

Nototodarus sloanii

Ommastrephidae
Wellington flying squid
62,234
2.8
Squid nei[17]
Various

414,990
18.6

Total squid


2,189,206
100.0


As food




Photo of rings of breaded, fried squid

Fried calamari: breaded, deep-fried squid


Many species are popular as food in cuisines as diverse as American, Basque, Canadian, Chinese, Egyptian, English, Filipino, Greek, Italian, Japanese, Korean, Portuguese, Spanish, Tunisian, Turkish and Vietnamese.


In English-speaking countries, squid as food is often marketed using the Italian word calamari. Squid are found abundantly in certain areas, and provide large catches for fisheries. The body can be stuffed whole, cut into flat pieces, or sliced into rings. The arms, tentacles, and ink are also edible; the only parts not eaten are the beak and gladius (pen). Squid is a good food source for zinc and manganese, and high in copper,[18]selenium, vitamin B12, and riboflavin.[19]



See also


  • Paralarva







References





  1. ^ Tanabe, K.; Hikida, Y.; Iba, Y. (2006). "Two Coleoid Jaws from the Upper Cretaceous of Hokkaido, Japan". Journal of Paleontology. 80 (1): 138–145. doi:10.1666/0022-3360(2006)080[0138:TCJFTU]2.0.CO;2..mw-parser-output cite.citation{font-style:inherit}.mw-parser-output q{quotes:"""""""'""'"}.mw-parser-output code.cs1-code{color:inherit;background:inherit;border:inherit;padding:inherit}.mw-parser-output .cs1-lock-free a{background:url("//upload.wikimedia.org/wikipedia/commons/thumb/6/65/Lock-green.svg/9px-Lock-green.svg.png")no-repeat;background-position:right .1em center}.mw-parser-output .cs1-lock-limited a,.mw-parser-output .cs1-lock-registration a{background:url("//upload.wikimedia.org/wikipedia/commons/thumb/d/d6/Lock-gray-alt-2.svg/9px-Lock-gray-alt-2.svg.png")no-repeat;background-position:right .1em center}.mw-parser-output .cs1-lock-subscription a{background:url("//upload.wikimedia.org/wikipedia/commons/thumb/a/aa/Lock-red-alt-2.svg/9px-Lock-red-alt-2.svg.png")no-repeat;background-position:right .1em center}.mw-parser-output .cs1-subscription,.mw-parser-output .cs1-registration{color:#555}.mw-parser-output .cs1-subscription span,.mw-parser-output .cs1-registration span{border-bottom:1px dotted;cursor:help}.mw-parser-output .cs1-hidden-error{display:none;font-size:100%}.mw-parser-output .cs1-visible-error{font-size:100%}.mw-parser-output .cs1-subscription,.mw-parser-output .cs1-registration,.mw-parser-output .cs1-format{font-size:95%}.mw-parser-output .cs1-kern-left,.mw-parser-output .cs1-kern-wl-left{padding-left:0.2em}.mw-parser-output .cs1-kern-right,.mw-parser-output .cs1-kern-wl-right{padding-right:0.2em}


  2. ^ "Teuthida". World Register of Marine Species.


  3. ^ Johnson, W.; Soden, P. D.; Trueman, E. R. (1972). "A Study in Jet Propulsion: An analysis of the motion of the squid, Loligo vulgaris". Journal of Experimental Biology. 56 (1): 155–165.


  4. ^ Jabr, F. (2 August 2010). "Fact or Fiction: Can a Squid Fly Out of the Water?". Scientific American.


  5. ^ abcde Arkhipkin, A. I.; Laptikhovsky, V. V. (2010). "Observation of penis elongation in Onykia ingens: implications for spermatophore transfer in deep-water squid". Journal of Molluscan Studies. 76 (3): 299–300. doi:10.1093/mollus/eyq019.


  6. ^ Walker, M. (7 July 2010). "Super squid sex organ discovered". BBC Earth News.


  7. ^ Ruppert, Edward E.; Fox, Richard, S.; Barnes, Robert D. (2004). Invertebrate Zoology, 7th edition. Cengage Learning. p. 363. ISBN 978-81-315-0104-7.


  8. ^
    Clarke, M. R. (1986). A Handbook for the Identification of Cephalopod Beaks. Oxford: Clarendon Press. ISBN 0-19-857603-X.



  9. ^
    Miserez, A.; Li, Y.; Waite, H.; Zok, F. (2007). "Jumbo squid beaks: Inspiration for design of robust organic composites". Acta Biomaterialia. 3 (1): 139–149. doi:10.1016/j.actbio.2006.09.004. PMID 17113369.



  10. ^ Walker, Matt (15 June 2009). "The cephalopods can hear you". BBC. Retrieved 2010-04-02.


  11. ^
    O'Shea, S. (2003). "Giant Squid and Colossal Squid Fact Sheet". The Octopus News Magazine Online.



  12. ^ Johnson, C. Scott "Sea Creatures and the Problem of Equipment Damage" United States Naval Institute Proceedings August 1978 pp. 106–107


  13. ^ Xavier, J. C.; Rodhouse, P. G.; Trathan, P. N.; Wood, A. G. (1999). "A Geographical Information System (GIS) Atlas of cephalopod distribution in the Southern Ocean". Antarctic Science. 11 (1): 61–62. doi:10.1017/S0954102099000097.


  14. ^
    Anderton, Jim (22 February 2007). "World's largest squid landed in NZ". New Zealand Government website.



  15. ^
    "Microwave plan for colossal squid". BBC News. March 22, 2007.



  16. ^ ab
    Rodhouse, Paul G. (2005). "Review of the state of world marine fishery resources: Fisheries technical paper". World squid resources. FAO (457). ISBN 92-5-105267-0.



  17. ^ ab nei: not elsewhere included


  18. ^ Squid – Overview: Food Market Exchange – B2B e-marketplace for the food industry Archived March 27, 2010, at the Wayback Machine.


  19. ^ "California Market Squid". FishWatch. Retrieved 27 March 2017.




External links











  • CephBase: Teuthida

  • Colossal Squid at the Museum of New Zealand Te Papa Tongarewa

  • Market squid mating, laying eggs (video)

  • Scientific American – Giant Squid

  • The Cephalopod Page

  • The Octopus News Magazine Online












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