Argonauta argo

Greater argonaut
	Argonauta argo inside its shell
	Illustration from I Cefalopodi viventi nel Golfo di Napoli (1896)
Conservation status
	; Least Concern (IUCN 3.1)
Scientific classification
Kingdom:	Animalia
Phylum:	Mollusca
Class:	Cephalopoda
Order:	Octopoda
Family:	Argonautidae
Genus:	Argonauta
Species:	A. argo
Binomial name
	Argonauta argo; Linnaeus, 1758
Synonyms
	List Argonauta papyracea; Röding, 1798; Argonauta grandiformis; Perry, 1811; ?Argonauta striata; Perry, 1811; Ocythoe antiquorum; Leach, 1817; Trichocephalus acetabularis; Chiaie, 1827 in 1823-1831; ?Todarus argo nom. nud.; Rafinesque, 1840; Argonauta minor; Risso, 1854; Argonauta naviformis; Conrad, 1854; Argonauta papyria; Conrad, 1854; ?Argonauta argo f. agglutinans; Von Martens, 1867; ?Argonauta argo f. aurita; Von Martens, 1867; ?Argonauta argo f. mutica; Von Martens, 1867; ?Argonauta argo f. obtusangula; Von Martens, 1867; Argonauta bulleri; Kirk, 1886; ?Argonauta argo var. americana; Dall, 1889; Argonauta cygnus; Monterosato, 1889; Argonauta ferussaci; Monterosato, 1914; Argonauta argo mediterranea; Monterosato, 1914; ?Argonauta monterosatoi; Coen in Monterosato, 1914; ?Argonauta monterosatoi; Coen, 1914; ?Argonauta monterosatoi; Coen, 1915; Argonauta sebae; Valenciennes in Monterosato, 1914;

Last updated April 14, 2023

Argonauta argo, also known as the greater argonaut, is a species of pelagic octopus belonging to the genus Argonauta . The Chinese name for this species translates as "white sea-horse's nest".^[2]

Description

A. argo is the largest species in the genus and also produces the largest eggcase. Live animals have a characteristic blue sheen on the first arm pair and around the eyes.^[2] The eggcase is characterised by two rows of small, sharp tubercles running along a narrow keel, smooth ribs across the walls of the shell, and a thickening along the shell aperture, which forms distinct protrusions or 'horns' on either side.^[2]Argonauta cygnus Monterosato, 1889 was described based on a shell which lacked these protrusions, although it is now considered a junior synonym of A. argo. The greatest recorded size of an A. argo eggcase is 300 mm.^[4]^[5]

A damaged beak of a female A. argo (ML = 40.0 mm; caught at 20°56′N175°33′W / 20.933°N 175.550°W / 20.933; -175.550 ), measuring 4.3 mm in hood length and 7.8 mm in crest length, is mentioned in A Handbook for the Identification of Cephalopod Beaks.^[6]

Distribution and habitat

A. argo is cosmopolitan, occurring in tropical and subtropical waters worldwide.^[2] A dwarf form exists in the Mediterranean Sea, which was described as Argonauta argo mediterranea Monterosato, 1914, although this taxon is now regarded as invalid.

Biology

The female of the species, like all argonauts, creates a paper-thin eggcase that coils around the octopus much like the way a nautilus lives in its shell, hence the name paper nautilus.

A. argo is thought to feed primarily on pelagic molluscs. The species is preyed on by numerous predators. It has been reported in the stomach contents of Alepisaurus ferox from the south-western Pacific.^[7]

Males of this species reach sexual maturity at a mantle length (ML) of 8 mm.^[8] Females mature at about double the size of Argonauta bottgeri and Argonauta hians .^[8] They begin to secrete an eggcase at 6.5–7.0 mm ML.^[8] Eggs are usually laid when females reach 14–15 mm ML, although the size at which this takes place differs across the animal's range.^[9] A small A. argo residing in an 88 mm long eggcase was estimated to be carrying 48,800 embryos.^[10] Females grow to 100 mm ML, while males do not exceed 20 mm ML.^[2]

In the open ocean, A. argo has been observed attached to jellyfish.^[11] This behaviour has been known for a long time,^[11]^[12] although little was understood about the relationship prior to the work of Heeger et al. in 1992.^[13]^[14] In "Predation on jellyfish by the cephalopod Argonauta argo", Heeger et al. describe their observations of a female A. argo found atop a host jellyfish. The argonaut was seen holding on to the aboral (exumbrellar) surface of the jellyfish using its lateral and ventral arms. The authors found that about half of the animal's aboral surface was damaged and large pieces of mesoglea were missing, presumably removed by the argonaut. Additionally, two holes, apparently bite marks, were found in the center of this area with channels leading from these holes into the gastral cavity of the jellyfish. The argonaut presumably used these channels to suck food particles from the gastral cavity. Heeger et al. suggested that "the association provided shelter or camouflage for the argonaut".^[13]^[14]

Observations of captive A. argo females suggest that the expanded webs of the dorsal arms may aid the animal in feeding. Mark Norman mentions, "when food was touched against the spread webs, an arm shot out of the shell in a sweeping action, grabbing the prey".^[2] Argonauts are not thought to actively hunt, but employ this method to catch animals that bump into them in the open ocean.^[2]

A. argo is occasionally involved in mass strandings along the South African and southern Australian coastlines. The strandings are seasonal and generally occur between April and August, towards the end of the animals' spawning season.

Culture

In Japanese, this species is called "Aoi-gai" (kanji: 葵貝, Katakana: アオイガイ^[15]), which means "Shell of Aoi" (not Malva but Asarum caulescens ).^[16] Japanese have compared two eggcases of argonauts lapped each other to a leaf of Asarum caulescens.^[16] Another name is "Kaidako" (kanji: 貝蛸 or 貝鮹, Katakana: カイダコ^[15]), which means "Shell Octopus".

Gallery

Eggcase of A. argo
Upper beak of a female
One of the earliest known depictions of A. argo, from Index Testarum Conchyliorum (1742) by Niccolò Gualtieri
Illustration of a female A. argo without its shell

Related Research Articles

<span class="mw-page-title-main">Octopus</span> Soft-bodied eight-limbed order of molluscs

An octopus is a soft-bodied, eight-limbed mollusc of the order Octopoda. The order consists of some 300 species and is grouped within the class Cephalopoda with squids, cuttlefish, and nautiloids. Like other cephalopods, an octopus is bilaterally symmetric with two eyes and a beaked mouth at the center point of the eight limbs. The soft body can radically alter its shape, enabling octopuses to squeeze through small gaps. They trail their eight appendages behind them as they swim. The siphon is used both for respiration and for locomotion, by expelling a jet of water. Octopuses have a complex nervous system and excellent sight, and are among the most intelligent and behaviourally diverse of all invertebrates.

A cephalopod is any member of the molluscan class Cephalopoda such as a squid, octopus, cuttlefish, or nautilus. These exclusively marine animals are characterized by bilateral body symmetry, a prominent head, and a set of arms or tentacles modified from the primitive molluscan foot. Fishers sometimes call cephalopods "inkfish", referring to their common ability to squirt ink. The study of cephalopods is a branch of malacology known as teuthology.

The Argonautidae are a family of pelagic cephalopods that inhabit tropical and temperate oceans of the world. The family encompasses the modern paper nautiluses of the genus Argonauta along with several extinct genera of shelled octopods. Though argonauts are derived from benthic octopuses, they have evolved to depart the sea floor and live their life-cycle in the open seas.

The argonauts are a group of pelagic octopuses. They are also called paper nautili, referring to the paper-thin eggcase that females secrete. This structure lacks the gas-filled chambers present in chambered nautilus shells and is not a true cephalopod shell, but rather an evolutionary innovation unique to the genus. It is used as a brood chamber, and to trap surface air to maintain buoyancy. It was once speculated that argonauts did not manufacture their eggcases but utilized shells abandoned by other organisms, in the manner of hermit crabs. Experiments by pioneering marine biologist Jeanne Villepreux-Power in the early 19th century disproved this hypothesis, as Villepreux-Power successfully reared argonaut young and observed their shells' development.

Argonauta nouryi, also known as Noury's argonaut, is a species of pelagic octopus. The female of the species, like all argonauts, creates a paper-thin eggcase that coils around the octopus much like the way a nautilus lives in its shell. The shell is usually approximately 80 mm in length, although it can exceed 90 mm in exceptional specimens; the world record size is 95.5 mm.

Argonauta hians, also known as the winged argonaut, muddy argonaut or brown paper nautilus, is a species of pelagic octopus. The common name comes from the grey to brown coloured shell. The Chinese name for this species translates as "Grey Sea-horse's Nest". The female of the species, like all argonauts, creates a paper-thin eggcase that coils around the octopus much like the way a nautilus lives in its shell. The eggcase is characterised by a wide keel that gives it a square appearance, few rounded tubercles along the keel, and less than 40 smooth ribs across the sides of the shell. The shell is usually approximately 80 mm in length, although it can exceed 120 mm in exceptional specimens; the world record size is 121.5 mm.

Argonauta cornuta is a species of pelagic octopus belonging to the genus Argonauta. The female of the species, like all argonauts, creates a paper-thin eggcase that coils around the octopus reminiscent of the way a nautilus lives in its shell. The shell is usually approximately 80 mm in length, although it can exceed 90 mm in exceptional specimens; the world record size is 98.6 mm.

Argonauta pacifica, also known as the Pacific argonaut, is a species of pelagic octopus. The female of the species, like all argonauts, creates a paper-thin eggcase that coils around the octopus much like the way a nautilus lives in its shell. The shell is usually approximately 150 mm in length, although it can exceed 200 mm in exceptional specimens; the world record size is 220.0 mm.

Argonauta nodosus [previously known as Argonauta nodosa], also known as the knobby or knobbed argonaut, is a species of pelagic octopus. The female of the species, like all argonauts, creates a paper-thin eggcase that coils around the octopus much like the way a nautilus lives in its shell. The shell is usually approximately 150 mm in length, although it can exceed 250 mm in exceptional specimens; the world record size is 292.0 mm. A. nodosus produces a very characteristic shell, which is covered in many small nodules on the ridges across the shell, hence the specific epithet nodosus and common name. These nodules are less obvious or even absent in juvenile females, especially those under 5 cm in length. All other argonaut species have smooth ridges across the shell walls.

Argonauta bottgeri, also known as Böttger's argonaut, is a species of pelagic octopus belonging to the genus Argonauta. The female of the species, like all argonauts, creates a paper-thin eggcase that coils around the octopus much like the way a nautilus lives in its shell.

Incirrata is a suborder of the order Octopoda. The suborder contains the classic "benthic octopuses," as well as many pelagic octopus families, including the paper nautiluses. The incirrate octopuses are distinguished from the cirrate octopuses by the absence in the former of the "cirri" filaments for which the cirrates are named, as well as by the lack of paired swimming fins on the head, and lack of a small internal shell.

Octopodiformes is a superorder of the subclass Coleoidea, comprising the octopuses and the vampire squid. All living members of Octopodiformes have eight arms, either lacking the two tentacles of squid or modifying the tentacles into thin filaments. Octopodiformes is often considered the crown group of octopuses and vampire squids, including all descendants of their common ancestor. Some authors use the term Vampyropoda for the same general category, though others use "Vampyropoda" to refer to the total group. Another term is Octobranchia, referring to cephalopods without prominent tentacles.

Cephalopods, which include squids and octopuses, vary enormously in size. The smallest are only about 1 centimetre (0.39 in) long and weigh less than 1 gram (0.035 oz) at maturity, while the largest—the giant and colossal squids—can exceed 10 metres (33 ft) in length and weigh close to half a tonne (1,100 lb), making them the largest living invertebrates. Living species range in mass more than three-billion-fold, or across nine orders of magnitude, from the lightest hatchlings to the heaviest adults. Certain cephalopod species are also noted for having individual body parts of exceptional size. The giant and colossal squids, for example, have the largest known eyes among living animals.

Izumonauta is an extinct genus of shelled octopods from the Mid to Late Miocene of Japan and New Zealand.

Obinautilus is an extinct genus of shelled cephalopod that has been variously identified as an argonautid octopod or a nautilid. It is known from the Late Oligocene to Pliocene of Japan. The shell is discoidal and very involute, with rapidly expanding and compressed whorls, fine radial ribs, a rounded venter with a shallow furrow, and almost closed umbilicus.

Argonauta tokunagai is an extinct species of octopus. It was described in 1913 based on fossil material from the Middle Miocene Huzina Formation of Japan.

Cirroteuthis muelleri was the first cirrate octopus species to be scientifically described. It is closely related to the genus Cirrothauma within the family Cirroteuthidae. At present the genus contains a single recognized species restricted to the Arctic Ocean and northern basins of the Atlantic and Pacific, but other species may be present in the southern hemisphere.

All extant cephalopods have a two-part beak, or rostrum, situated in the buccal mass and surrounded by the muscular head appendages. The dorsal (upper) mandible fits into the ventral (lower) mandible and together they function in a scissor-like fashion. The beak may also be referred to as the mandibles or jaws.

Argonauta oweri is an extinct species of argonautid octopus. It is known from the early Pliocene of New Zealand.

Argonautoidea is a superfamily of the suborder Incirrata containing all known argonautoids.

References

↑ Allcock, L. (2014). "Argonauta argo". IUCN Red List of Threatened Species . 2014: e.T163080A969616. doi: 10.2305/IUCN.UK.2014-3.RLTS.T163080A969616.en . Retrieved 12 November 2021.
1 2 3 4 5 6 7 Norman, M. (2000). Cephalopods: A World Guide. ConchBooks. pp. 190–191.
↑ Current Classification of Recent Cephalopoda Archived December 10, 2006, at the Wayback Machine
↑ Pisor, D. L. (2005). Registry of World Record Size Shells (4th ed.). Snail's Pace Productions and ConchBooks. p. 12.
↑ (in Russian) Nesis, K. N. (1982). Abridged key to the cephalopod mollusks of the world's ocean. Light and Food Industry Publishing House, Moscow, 385+ii pp. [Translated into English by B. S. Levitov, ed. by L. A. Burgess (1987), Cephalopods of the world. T. F. H. Publications, Neptune City, NJ, 351 pp.]
↑ Clarke, M. R. (1986). A Handbook for the Identification of Cephalopod Beaks. Oxford University Press. p. 244.
↑ Rancurel, P. (1970). "Les contenus stomacaux d' Alepisaurus ferox dans le sud-ouest Pacifique (Céphalopodes)". Cah. O.R.S.T.O.M. Ser. Océanogr. (in French). 8 (4): 4–87.
1 2 3 Naef, A. (1923). "Die Cephalopoden, Systematik". Fauna Flora Golf. Napoli (35) (in German). 1: 1–863.
↑ Nesis, K. N. (1977). "The biology of paper nautiluses, Argonauta boettgeri and A. hians (Cephalopoda, Octopoda), in the western Pacific and the seas of the East Indian Archipelago". Zool. Zh. 56: 1004–1014.
↑ Okutani, T.; T. Kawaguchi (1983). "A mass occurrence of Argonauta argo (Cephalopoda: Octopoda) along the coast of Shimane Prefecture, Western Japan Sea". Venus. 41: 281–290.
1 2 David, P. M. (1965). "The surface fauna of the ocean". Endeavour. Oxford. 24 (92): 95–100. doi:10.1016/0160-9327(65)90007-4.
↑ Kramp, P. L. (1956). "Pelagic Fauna". In A. Bruun; S.V. Greve; H. Mielche; R. Spärck (eds.). The Galathea Deep Sea Expedition 1950-1952. pp. 65–86.
1 2 Heeger, T.; U. Piatkowski & H. Möller (1992). "Predation on jellyfish by the cephalopod Argonauta argo". Marine Ecology Progress Series. 88: 293–296. doi: 10.3354/meps088293 .
1 2 Mangold, K. M.; M. Vecchione & R. E. Young. "Argonauta". Tree of Life web project. Retrieved 2006-09-13.
1 2 Okutani, Takashi [in Japanese]; Masaru, Tagawa; Hiroshi, Horikawa (1987). Cephalopods from Continental Shelf and Slope Around Japan: The Intensive Research of Unexploited Fishery Resource on Continental Slopes (日本陸棚周辺の頭足類大陸棚斜面未利用資源精密調査). Japan Fisheries Resource Conservation Association (社団法人日本水産資源保護協会). pp. 184–185. [In Japanese and English]
1 2 Shinmura Izuru (2008-01-11). 広辞苑第六版 (Kōjien 6th ed.). Iwanami Shoten. p. 15頁. ISBN 9784000801218.

External links

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[iucn_status_12_November_2021-1] Allcock, L. (2014). "Argonauta argo". IUCN Red List of Threatened Species . 2014: e.T163080A969616. doi: 10.2305/IUCN.UK.2014-3.RLTS.T163080A969616.en . Retrieved 12 November 2021.

[Norman-2] 1 2 3 4 5 6 7 Norman, M. (2000). Cephalopods: A World Guide. ConchBooks. pp. 190–191.

[3] Current Classification of Recent Cephalopoda Archived December 10, 2006, at the Wayback Machine

[4] Pisor, D. L. (2005). Registry of World Record Size Shells (4th ed.). Snail's Pace Productions and ConchBooks. p. 12.

[5] (in Russian) Nesis, K. N. (1982). Abridged key to the cephalopod mollusks of the world's ocean. Light and Food Industry Publishing House, Moscow, 385+ii pp. [Translated into English by B. S. Levitov, ed. by L. A. Burgess (1987), Cephalopods of the world. T. F. H. Publications, Neptune City, NJ, 351 pp.]

[Clarke-6] Clarke, M. R. (1986). A Handbook for the Identification of Cephalopod Beaks. Oxford University Press. p. 244.

[7] Rancurel, P. (1970). "Les contenus stomacaux d' Alepisaurus ferox dans le sud-ouest Pacifique (Céphalopodes)". Cah. O.R.S.T.O.M. Ser. Océanogr. (in French). 8 (4): 4–87.

[Naef-8] 1 2 3 Naef, A. (1923). "Die Cephalopoden, Systematik". Fauna Flora Golf. Napoli (35) (in German). 1: 1–863.

[9] Nesis, K. N. (1977). "The biology of paper nautiluses, Argonauta boettgeri and A. hians (Cephalopoda, Octopoda), in the western Pacific and the seas of the East Indian Archipelago". Zool. Zh. 56: 1004–1014.

[10] Okutani, T.; T. Kawaguchi (1983). "A mass occurrence of Argonauta argo (Cephalopoda: Octopoda) along the coast of Shimane Prefecture, Western Japan Sea". Venus. 41: 281–290.

[David-11] 1 2 David, P. M. (1965). "The surface fauna of the ocean". Endeavour. Oxford. 24 (92): 95–100. doi:10.1016/0160-9327(65)90007-4.

[12] Kramp, P. L. (1956). "Pelagic Fauna". In A. Bruun; S.V. Greve; H. Mielche; R. Spärck (eds.). The Galathea Deep Sea Expedition 1950-1952. pp. 65–86.

[Heeger-13] 1 2 Heeger, T.; U. Piatkowski & H. Möller (1992). "Predation on jellyfish by the cephalopod Argonauta argo". Marine Ecology Progress Series. 88: 293–296. doi: 10.3354/meps088293 .

[Mangold-14] 1 2 Mangold, K. M.; M. Vecchione & R. E. Young. "Argonauta". Tree of Life web project. Retrieved 2006-09-13.

[Continental-15] 1 2 Okutani, Takashi [in Japanese]; Masaru, Tagawa; Hiroshi, Horikawa (1987). Cephalopods from Continental Shelf and Slope Around Japan: The Intensive Research of Unexploited Fishery Resource on Continental Slopes (日本陸棚周辺の頭足類大陸棚斜面未利用資源精密調査). Japan Fisheries Resource Conservation Association (社団法人日本水産資源保護協会). pp. 184–185. [In Japanese and English]

[kojien-16] 1 2 Shinmura Izuru (2008-01-11). 広辞苑第六版 (Kōjien 6th ed.). Iwanami Shoten. p. 15頁. ISBN 9784000801218.

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