Octopus conispadiceus

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Octopus conispadiceus
Octopus conispadiceus.JPG
Scientific classification OOjs UI icon edit-ltr.svg
Domain: Eukaryota
Kingdom: Animalia
Phylum: Mollusca
Class: Cephalopoda
Order: Octopoda
Family: Octopodidae
Genus: Octopus
Species:
O. conispadiceus
Binomial name
Octopus conispadiceus
Sasaki, 1917

Octopus conispadiceus (commonly the chestnut octopus [1] ) is a species of long-ligula [2] octopus, [3] provisionally placed in the genus Octopus . [4] It was first described by Madoka Sasaki in 1917 [5] based on specimens bought at a fish market in Sapporo, Japan. [6]

Contents

Description

O. conispadiceus is large, [5] with a mantle length of up to 210 millimeters and a total length of at least 120 centimeters; its arms are moderate in length, around three times the length of the mantle. [3] There are 140 to 150 suckers on each arm in males and 170 to 190 in females, and suckers are larger in males than females. O. conispadiceus is firm and muscular, [5] with smooth skin, [3] and light gray-blue in color [5] with a white line across its head. It has seven rows of teeth and an ink sac. [3] O. conispadiceus has small eyes. [7]

Distribution

O. conispadiceus is found in cold temperate waters [8] off northern Japan [5] and the Kuril Islands. [3] [9] It is a benthic shelf species, living from depths of around 50 to 100 meters, [3] mostly in sandy or muddy substrates. [9]

Life cycle

O. conispadiceus reaches maturity quickly, [9] around 10 to 11 months in cold waters. [10] Juveniles look much like adults, but have a different skin texture. [7] The species has a short life span, with estimates between under two years [9] and three to four years. [3] Females lay from 400 [11] up to 1,200 eggs at a time; [3] the eggs are very large, [11] up to 28 millimeters. [5] The size of the eggs suggests that hatchlings are benthic. [3] [11]

Use by humans

O. conispadiceus is fished commercially in Japan. [12] [3] It is the second most common species of octopus in fish markets in Hokkaido, [9] and is sometimes bycatch in gillnet fishing, especially in Russia [13] [14]

Related Research Articles

<span class="mw-page-title-main">Octopodiformes</span> Superorder of molluscs

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.

<i>Cirroteuthis</i> Genus of octopuses

Cirroteuthis muelleri, also known as the big-finned jellyhead, 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.

Eledone massyae, the combed octopus, is a small benthic octopus found off the Atlantic coasts of southern South America, particularly Argentina and southern Brazil.

<i>Histioteuthis heteropsis</i> Species of squid

Histioteuthis heteropsis, known as the strawberry squid, is a species of small cock-eyed squid. The scientific nomenclature of these squid stems from their set of differently sized eyes, one being small and blue and the other being large and yellow. It is thought that the large eye is used to see objects against dim light, while the smaller eye is more able to view bioluminescent light sources. The squid's vernacular name arose due to its rich red skin pigmentation and the presence of photophores along its body, making it appear like a strawberry with seeds.

<i>Octopus tetricus</i> Species of mollusc

Octopus tetricus, the gloomy octopus or the common Sydney octopus, is a species of octopus from the subtropical waters of eastern Australia and New Zealand. O.tetricus belongs to the Octopus vulgaris species group and is a commercially prized species. All species within the O. vulgaris group are similar in morphology. The English translation of O. tetricus (Latin) is 'the gloomy octopus'.

<i>Pinnoctopus cordiformis</i> Species of mollusc

Pinnoctopus cordiformis is a species of octopus found around the coasts of New Zealand. It is one of the most common species of octopus in the country.

Sepia braggi, the slender cuttlefish, is a species of cuttlefish native to the Indo-Pacific Ocean. It has been found in coastal waters of southern Australia. This species was first collected in South Australia by its namesake, William Lawrence Bragg. Sepia braggi was then described by Sir Joseph Cooke Verco in 1907.Sepia braggi is part of the subgenus Doratosepion which contains to 41 species of cuttlefish in total.

<i>Octopus minor</i> Species of cephalopod

Octopus minor, also known as the long arm octopus or the Korean common octopus, is a small-bodied octopus species distributed along the benthic coastal waters bordering China, Japan, and the Korean Peninsula. It lives at depths ranging from 0 to 200 metres. O. minor is commonly found in the mudflats of sub-tidal zones where it is exposed to significant environmental variation. It is grouped within the class Cephalopoda along with squids and cuttlefish.

Sasakiopus is a genus of octopus containing only one species, Sasakiopus salebrosus, the rough octopus. It is part of the family Enteroctopodidae. Genetic analysis appeared to show that S. salebrosus is the sister taxon of the genera Benthoctopus and Vulcanoctopus, although the former is now considered a synonym of Bathypolypus, the only genus in the family Bathypolypodidae, and the latter as a synonym of Muusoctopus.

<i>Rossia</i> Genus of molluscs

Rossia is a genus of 10 species of benthic bobtail squid in the family Sepioidae found in all oceans. They live at depths greater than 50 m (164 ft) and can grow up to 9 cm in mantle length. This genus was first discovered in 1832 by Sir John Ross and his nephew James Clark Ross in the Arctic Seas, showing a resemblance to another genus under the same family, Sepiola. After returning from their expedition, Sir Richard Owen officially classified Rossia to be a new genus, naming it after Sir John and James Clark Ross.

Opisthoteuthis bruuni is a species of finned cirrate octopus found along the western coast of South America. Their tissue is almost jelly-like, and they have short, round bodies.

<i>Bathypolypus sponsalis</i> Species of mollusc

Bathypolypus sponsalis, commonly called the globose octopus, is a deep sea cephalopod that can be found in both the eastern Atlantic Ocean and the Mediterranean Sea. It possesses many morphological traits adapted to a deep sea environment, including large eggs, reduced gills, no ink sac, and subgelatinous tissues. A distinguishing factor are the relatively large reproductive organs. Their diet consists of predominantly crustaceans and molluscs, but they sometimes consume fish as well. Bathypolypus sponsalis usually dies quickly after reproduction and only spawns once in their lifetime. Sexually mature females have a mantle length of at least 34 mm and sexually mature males have a mantle length of about 24 mm. Juveniles are white and transition to dark brown then to dark purple once maturity is reached.

<i>Octopus sinensis</i> Species of octopus

Octopus sinensis is a mollusk belonging to the class Cephalopoda. Octopus sinensis is a well-known shallow-water benthic octopus species found in the coastal, temperature waters of South Korea, China, and Japan, with the species name, sinensis being Latin for Chinese. Octopus sinensis is closely related to the Atlantic and Mediterranean common octopus, Octopus vulgaris. Because of the morphological similarities, O. sinensis was considered synonymous with Octopus vulgaris until 2017. Octopus sinensis are carnivores that prey upon on many shallow-water animals such as crustaceans and mollusks.

<i>Octopus californicus</i> Species of octopus

Octopus californicus is an octopus in the family Octopodidae. It is provisionally assigned to the genus Octopus, but some scholars have concluded it belongs in other genera. O. californicus was first documented by S. Stillman Berry in 1911.

<i>Octopus superciliosus</i> Species of octopus

Octopus superciliosus is a species of octopus. It was first described in 1832 by Jean René Constant Quoy and Joseph Paul Gaimard based on a specimen found off Victoria during the 1826 to 1829 voyage of the Astrolabe.

<i>Octopus vitiensis</i> Species of octopus

Octopus vitiensis, or the bighead octopus, is a species of octopus provisionally placed in the genus Octopus. It was described by William Evans Hoyle in 1885 based on a specimen found in reefs in Kandavu, Fiji during a voyage of HMS Challenger.

<i>Abdopus abaculus</i> Species of octopus

Abdopus abaculus, or the mosaic octopus, is a species of pygmy octopus. It was first described as Octopus abaculus by M. D. Norman and M. J. Sweeney in 1997 based on specimens caught in Zamboanga del Norte, Philippines.

<i>Callistoctopus rapanui</i> Species of mollusc

Callistoctopus rapanui, or the rapanui octopus, is the only endemic octopus species in Rapa Nui. It was first described by Gilbert L. Voss in 1979 as Octopus rapanui.

<i>Amphioctopus aegina</i> Species of mollusc

Amphioctopus aegina, commonly referred to as the marbled octopus or the sandbird octopus, is a bottom dwelling species residing in the coastal zone of the Indo-West Pacific. Planktonic hatchlings and eggs are laid by females predominantly during the months of January and October, however they have been known to reproduce year-round.

<i>Octopus hubbsorum</i> Species of Octopus

Octopus hubbsorum, is an octopus in the family Octopodidae. It is commonly found along tropical waters along the central Pacific Coast of Mexico. Here, they are one of the most commonly caught cephalopods and are commercially extremely important for the economy.

References

  1. "Order No. 229 of the Ministry of Agriculture establishing fisheries restrictions related to some species of aquatic biological resources for the period of 2018". UNEP Law and Environment Assistance Platform. UN Environment Program. 2018-06-04. Retrieved 2023-01-20.
  2. Rigby, Patricia Robin (2004-01-09). Ecology of immature octopus Enteroctopus dofleini: Growth, movement and behaviour. OCLC   1225501710.
  3. 1 2 3 4 5 6 7 8 9 10 Norman, M. D.; Finn, J. K. (2016). "Family Octopodidae". In Jereb, Patrizia; Roper, Clyde F. E.; Norman, Mark D.; Finn, Julian K. (eds.). Cephalopods of the World: An Annotated and Illustrated Catalogue of Cephalopod Species Known to Date. Vol. 3. Octopods and Vampire Squids. Rome, Italy: Food and Agriculture Organization of the United Nations. ISBN   978-92-5-107989-8.
  4. Norman, M. D.; Nabhitabhata, J.; Lu, C. C. (2016-06-29). "An updated checklist of the cephalopods of the South China Sea". Raffles Bulletin of Zoology (Supplement 34): 566–92.
  5. 1 2 3 4 5 6 Voss, Nancy A.; Vecchione, Michael; Toll, Ronald B.; Sweeney, Michael J., eds. (1998). "Systematics and Biogeography of Cephalopods: Volume II". Smithsonian Contributions to Zoology (586): 277–599. doi:10.5479/si.00810282.586.277. ISSN   0081-0282.
  6. Sasaki, Madoka (1915-07-27). "Notes on Cephalopoda". Annotationes Zoologicae Japonenses. 9 (1): 361–7 via Biodiversity Heritage Library.
  7. 1 2 Sasaki, Madoka (1929-01-31). "A Monograph of the Dibranchiate Cephalopods of the Japanese and Adjacent Waters". Journal of the Faculty of Agriculture, Hokkaido Imperial University. 20 (Supplement): 1–397.
  8. Gleadall, Ian G. (2004). "Some Old and New Genera of Octopus". Interdisciplinary Information Sciences. 10 (2): 99–112. doi: 10.4036/iis.2004.99 . ISSN   1347-6157.
  9. 1 2 3 4 5 Ma, Yuanyuan; Zheng, Xiaodong; Cheng, Rubin; Li, Qi (2014-06-27). "The complete mitochondrial genome of Octopus conispadiceus (Sasaki, 1917) (Cephalopoda: Octopodidae)". Mitochondrial DNA . 27 (2): 1058–1059. doi:10.3109/19401736.2014.928866. ISSN   1940-1736. PMID   24971549. S2CID   39849240.
  10. Boletzky, S. V. (1994). "Embryonic development of cephalopods at low temperatures". Antarctic Science . 6 (2): 139–142. doi:10.1017/s0954102094000210. ISSN   0954-1020. S2CID   84124491.
  11. 1 2 3 Sweeney, Michael J.; Roper, Clyde F. E.; Mangold, Katharina M.; Clark, Malcolm R.; Boletzky, Sigurd V. (1992-02-10). ""Larval" and juvenile cephalopods: a manual for their identification". Smithsonian Contributions to Zoology (513): 1–182. doi:10.5479/si.00810282.513. ISSN   0081-0282.
  12. Kubodera, Tsunemi (2009). "A Review of the Deep-sea Cephalopod Fauna off the Pacific Coast of Northeastern Japan". In Fujita, T. (ed.). Deep-sea Fauna and Pollutants off Pacific Coast of Northern Japan (PDF). Tokyo, Japan: National Museum of Nature and Science Monographs. pp. 385–404.
  13. Maeda, Saki; Sakurai, Kenji; Akamatsu, Tomonari; Matsuda, Ayaka; Yamamura, Orio; Kobayashi, Mari; Matsuishi, Takashi Fritz (2021-02-11). "Foraging activity of harbour porpoises around a bottom-gillnet in a coastal fishing ground, under the risk of bycatch". PLoS ONE . 16 (2): e0246838. doi: 10.1371/journal.pone.0246838 . ISSN   1932-6203. PMC   7877735 . PMID   33571306.
  14. Besednova, N. N.; Zaporozhets, T. S.; Kovalev, N. N.; Makarenkova, I. D.; Yakovlev, Yu. M. (2017-03-01). "Cephalopods: The potential for their use in medicine". Russian Journal of Marine Biology. 43 (2): 101–110. doi:10.1134/S1063074017020031. ISSN   1608-3377. S2CID   255014727.


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