Argonaut (animal)


The argonauts are a group of pelagic octopuses. They are also called paper nautiluses, 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 Argonauta. It is used as a brood chamber and for trapped surface air to maintain buoyancy. It was once speculated that the argonauts did not manufacture their own eggcases but instead 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 was able to successfully rear argonaut young and observe the development of their shells.
Argonauts are found in tropical and subtropical waters worldwide; they live in the open ocean, i.e. they are pelagic. Like most octopuses, they have a rounded body, eight arms and no fins. However, unlike most octopuses, argonauts live close to the sea surface rather than on the seabed. Argonauta species are characterised by very large eyes and small distal webs. The funnel–mantle locking apparatus is a major diagnostic feature of this taxon. It consists of knob-like cartilages in the mantle and corresponding depressions in the funnel. Unlike the closely allied genera Ocythoe and Tremoctopus, Argonauta species lack water pores.
Of its names, "argonaut" means "sailor of the Argo.” "Paper nautilus" is derived from the Greek ναυτίλος nautílos, which literally means "sailor,” as paper nautiluses were thought to use two of their arms as sails. This is not the case, as argonauts swim by expelling water through their funnel. The chambered nautilus was later named after the argonaut, but belongs to a different cephalopod order, Nautilida.

Description

Sexual dimorphism and reproduction

Argonauts exhibit extreme sexual dimorphism in size and lifespan. Females grow up to 10 cm and make shells up to 30 cm, while males rarely surpass 2 cm. The males only mate once in their short lifetime, whereas the females are iteroparous, capable of having offspring many times over the course of their lives. In addition, the females have been known since ancient times, while the males were only described in the late 19th century.
The males lack the dorsal tentacles used by the females to create their eggcases. The males use a modified arm, the hectocotylus, to transfer sperm to the female. For fertilization, the arm is inserted into the female's pallial cavity and then becomes detached from the male. The hectocotylus when found in females was originally described as a parasitic worm.

Eggcase

Female argonauts produce a laterally-compressed calcareous eggcase in which they reside. This "shell" has a double keel fringed by two rows of alternating tubercles. The sides are ribbed with the centre either flat or having winged protrusions. The eggcase curiously resembles the shells of extinct ammonites. It is secreted by the tips of the female's two greatly expanded dorsal tentacles before egg laying. After she deposits her eggs in the floating eggcase, the female takes shelter in it, often retaining the male's detached hectocotylus. She is usually found with her head and tentacles protruding from the opening, but she retreats deeper inside if disturbed. These ornate curved white eggcases are occasionally found floating on the sea, sometimes with the female argonaut clinging to it. It is not made of aragonite as most other shells are, but of calcite, with a three-layered structure and a higher proportion of magnesium carbonate than other cephalopod shells.
The eggcase contains a bubble of air that the animal captures at the surface of the water and uses for buoyancy, similarly to other shelled cephalopods, although it does not have a chambered phragmocone as do other shelled cephalopods. Once thought to contribute to occasional mass strandings on beaches, the air bubble is under sophisticated control, evident from the behaviour of animals from which air has been removed under experimental diving conditions.
Most other octopuses lay eggs in caves; Neale Monks and C. Phil Palmer speculate that, before ammonites died out during the Cretaceous–Paleogene extinction event, the argonauts may have evolved to use discarded ammonite shells for their egg laying, eventually becoming able to mend the shells and perhaps make their own shells. However, this is uncertain and it is unknown whether this is the result of convergent evolution.
Argonauta argo is the largest species in the genus and also produces the largest eggcase, which may reach a length of 300 mm. The smallest species is Argonauta bottgeri, with a maximum recorded size of 67 mm.

Beak

The beaks of Argonauta species are distinctive, being characterised by a very small rostrum and a fold that runs to the lower edge or near the free corner. The rostrum is 'pinched in' at the sides, making it much narrower than in other octopuses, with the exception of the closely allied monotypic genera Ocythoe and Vitreledonella. The jaw angle is curved and indistinct. Beaks have a sharp shoulder, which may or may not have posterior and anterior parts at different slopes. The hood lacks a notch and is very broad, flat, and low. The hood to crest ratio is approximately 2–2.4. The lateral wall of the beak has no notch near the wide crest. Argonaut beaks are most similar to those of Ocythoe tuberculata and Vitreledonella richardi, but differ in 'leaning back' to a greater degree than the former and having a more curved jaw angle than the latter.

Feeding and defense

Feeding mostly occurs during the day. Argonauts use tentacles to grab prey and drag it toward the mouth. It then bites the prey to inject it with venom from the salivary gland. They feed on small crustaceans, molluscs, jellyfish and salps. If the prey is shelled, the argonaut uses its radula to drill into the organism, then inject the poison.
Argonauts are capable of altering their color. They can blend in with their surroundings to avoid predators. They also produce ink, which is ejected when the animal is being attacked. This ink paralyzes the olfaction of the attacker, providing time for the argonaut to escape. The female is also able to pull back the web covering of her shell, making a silvery flash, which may deter a predator from attacking.
Argonauts are preyed upon by tunas, billfishes, and dolphins. Shells and remains of argonauts have been recorded from the stomachs of Alepisaurus ferox and Coryphaena hippurus.
Male argonauts have been observed residing inside salps, although little is known about this relationship.

Classification

The genus Argonauta contains up to seven extant species. Several extinct species are also known.
The valid extant species are:
While the following taxon is regarded as a nomen dubium:
With the species regarded as valid extinct taxa are
Argonauta absyrtus Martill & Barker, 2006
Argonauta itoigawai Tomida, 1983
Argonauta joanneus Hilber, 1915
Argonauta oweri Fleming, 1945
Argonauta sismondai Bellardi, 1872
Argonauta tokunagai Yokoyama, 1913
The extinct species Obinautilus awaensis was originally assigned to Argonauta, but has since been transferred to the genus Obinautilus.

Dubious or uncertain taxa

The following taxa associated with the family Argonautidae are of uncertain taxonomic status:
Binomial name and author citationCurrent systematic statusType localityType repository
Argonauta arctica Fabricius, 1780UndeterminedUnresolved; ?Tullukaurfak, GreenlandUnresolved
Argonauta bibula Röding, 1798UndeterminedUnresolvedUnresolved
Argonauta compressa Blainville, 1826UndeterminedMer de IndesUnresolved;
Argonauta conradi Parkinson, 1856Species of uncertain status "New Nantucket, Pacific Ocean"Unresolved
Argonauta cornu Gmelin, 1791UndeterminedUnresolvedUnresolved; LS?
Argonauta cymbium Linné, 1758Non-cephalopod; foraminiferous shell Not designatedUnresolved
Argonauta geniculata Gould, 1852Species of uncertain status Near Sugarloaf Mountain, Rio de Janeiro, BrazilType not extant
Argonauta maxima Dall, 1871Nomen nudum
Argonauta navicula Lightfoot, 1786Species dubium Not designatedUnresolved
Argonauta rotunda Perry, 1811Non-cephalopod; Carcinaria sp.
Argonauta rufa Owen, 1836Incertae sedis "Indian seas" Unresolved; Museum of the Royal College of Surgeons? Holotype
Argonauta sulcata Lamarck, 1801Nomen nudum
Argonauta tuberculata f. aurita Von Martens, 1867UndeterminedUnresolvedZMB
Argonauta tuberculata f. mutica Von Martens, 1867UndeterminedCoast of BrazilZMB Holotype
Argonauta tuberculata f. obtusangula Von Martens, 1867UndeterminedNot designatedZMB Syntypes
Argonauta vitreus Gmelin, 1791UndeterminedNot designatedUnresolved; LS?
Octopus raricyathus Blainville, 1826Undetermined Not designatedMNHN Holotype; specimen not extant
Ocythoe punctata Say, 1819Argonauta sp. Atlantic Ocean near the North American coast Unresolved; ANSP? Holotype
Tremoctopus hirondellei Joubin, 1895Argonauta or Ocythoe MOM Holotype

In design

The argonaut was inspiration for a number of classical and modern art and decorative forms including use on pottery and architectural elements. Some early examples are found in Minoan art from Crete. A variation known as the double argonaut design was also found in Minoan jewelry.

In literature and etymology