Grimpoteuthis Explained

Grimpoteuthis[1] is a genus of pelagic cirrate (finned) octopods known as the dumbo octopuses.The name "dumbo" originates from their resemblance to the title character of Disney's 1941 film Dumbo, having two prominent ear-like fins which extend from the mantle above each eye. There are 17 species recognized in the genus.[2] [3] Prey include crustaceans, bivalves, worms and copepods.[4] The average life span of various Grimpoteuthis species is 3–5 years.

Range and habitat

Species of Grimpoteuthis are assumed to have a worldwide distribution, living in the cold, abyssal depths ranging from – Specimens have been found off the coasts of Oregon, the Philippines, Martha's Vineyard, the Azores, New Zealand, Australia, California, Papua and New Guinea, and in the Gulf of Mexico.

A fairly recent observation was on 21 June 2022 at by the vessel Normand Ocean, which inspects drilling platforms with underwater drones; the vessel was examining chains and risers on the Aasta Hansteen platform outside Trøndelag, Norway. The most recent observation was on 24 May 2023 at this time in Guyana by the vessel Far Samson, which also uses underwater drones.

Dumbo octopuses are the deepest living octopuses known, with some specimens captured or observed at hadal depths. One Grimpoteuthis sp. specimen was captured 60 km southeast of Grand Cayman at but this depth is uncertain (as the specimen may have been captured while the net was descending to this depth).[5] However, in 2020, Grimpoteuthis was spotted deep in the Java Trench, confirming the hadal distribution of this genus.[6]

Species and taxonomy

As noted below, many species collected on the Challenger expedition were initially classified in the genera Cirroteuthis and Stauroteuthis.Several species formerly classified as Grimpoteuthis were moved to genera Cirroctopus and Opisthoteuthis.A new family, Grimpoteuthididae (alternatively spelled Grimpoteuthidae), has been proposed to accommodate Grimpoteuthis and those of genera Enigmatiteuthis, Cryptoteuthis, and Luteuthis.[7] The persistent confusion and disparity about the taxonomy of these species has been attributed to the poor quality and limited number of specimens available for study.[7]

width=100ptSpecies namewidth=100ptReferencewidth=190ptGeographic rangeDepth range
(meters)
width=190pt class="unsortable"Taxonomic notes
Grimpoteuthis abyssicola[8] [9] Tasman Sea (off New Zealand and southeastern Australia)Known from two specimens.
Grimpoteuthis angularis[10] (off New Zealand)628 mKnown from a single specimen. Internal shell form distinct from others in genus.
Grimpoteuthis bathynectes[11] North Pacific (Tufts and Cascadia abyssal Plains, off Oregon)
Grimpoteuthis boylei[12] [13] Northeast Atlantic (Porcupine and Madeira abyssal plains)
Grimpoteuthis challengeri[14] Northeast Atlantic (Porcupine abyssal plain)
Grimpoteuthis discoveryi[15] Northeast Atlantic
Grimpoteuthis greeniSouthern Australia480–Known from three specimens.
Grimpoteuthis hippocrepium[16] [17] East Pacific (off Malpelo Island)Previously assigned to genus Stauroteuthis; known from a single, "sadly mutilated" individual according to Hoyle. The internal shell form is similar to G. abyssicola.
Grimpoteuthis imperator[18] Emperor Seamounts, North PacificKnown from a single specimen.
Grimpoteuthis innominata[19] South Pacific (east of New Zealand)Alternatively classified as Enigmatiteuthis
Grimpoteuthis meangensis[20] [21] West Pacific (off Meangis Islands, near Philippines)925 mPreviously assigned to genera Cirroteuthis and Stauroteuthis
Grimpoteuthis megapteraVerrill (1885)[22] Northwest Atlantic (southeast of Martha's Vineyard)Previously assigned to genus Cirroteuthis
Grimpoteuthis pacifica[23] South Pacific (off Papua New Guinea)Previously assigned to genus Cirroteuthis
Grimpoteuthis plenaVerrill (1886)[24] Northwest AtlanticPreviously assigned to genus Cirroteuthis
Grimpoteuthis tuftsi[25] North Pacific (Tufts and Cascadia abyssal plains off Oregon)
Grimpoteuthis umbellataFischer (1883)[26] North Atlantic (off Morocco, Canary Islands, and the Azores) Previously assigned to genus Cirroteuthis
Grimpoteuthis wuelkeri[27] [28] Northeast and northwest Atlantic

Movement, characteristics, and food supply

Observations of animals in the Atlantic reveal that Grimpoteuthis often rest on the seafloor with the arms and web spread out and uses its arms to slowly crawl along the seafloor. When disturbed the webbing and arms are contracted to push the animal off the seafloor with it then transitioning to movement using the mantle fins for rapid locomotion.[29] The cushiony cartilage that can be found in the proximal position of the fin of the octopus is responsible for acting as a support for the thick muscles that are attached, these muscles are what allow for rapid locomotion.

Although it has been suggested that species of Grimpoteuthis are capable of jet-propulsion (while swimming using the fins), this has since been deemed unlikely.[29]

Feeding behavior has not been directly observed in Grimpoteuthis, but presumably is similar to Opisthoteuthis that trap small prey items in the webbing (either by enclosing the prey in the arm webbing or between the webbing and the seafloor) and then use the cirri (fingerlike projections along the arms) to move food to the mouth. Known prey items (from dissected animals) include benthic polychaetes, benthopelagic copepods, amphipods and isopods.

Breeding

The cirrate octopuses are classified as 'continuous spawners': Females carry multiple eggs in various stages of maturation, and only lay one or two eggs at a time, with no seasonality in spawning (however, most of these aspects of reproductive biology have only been confirmed in Opisthoteuthis, not Grimpoteuthis). Mating in cirrate octopuses has never been observed, and unlike other octopuses, members of Cirrata lack a hectocotylus for the transfer of sperm packets.Cirrate octopus eggs are large and have a tough casing surrounding the chorion (not found in other octopuses), and Grimpoteuthis in particular attach their eggs to deep sea corals (octocorals).[30] The female cirrate octopus does not guard or incubate the eggs (again unlike other octopuses).Grimpoteuthis hatchlings emerge as "fully competent" juveniles with all of the sensory and motor features to survive on their own.[31] [30]

Sexual dimorphism between males and females is less noticeable and consistent in Grimpoteuthis compared to other cirrate octopuses (such as Opisthoteuthis). In some species (e.g., G. bathynectes[1] and G.. discoveryi),[12] the males have enlarged suckers relative to the females, but no such enlargement is found in other Grimpoteuthis species.

Threats

Species of Grimpoteuthis face few direct threats from humans, living at depths of 1000meters and below. Natural predators of cirrate octopuses include large teleost fish and sharks, and even marine mammals such as sperm whales and seals, but these are mostly predators of other cirrate genera, and Grimpoteuthis has only been recorded in the stomach contents of a shark.[32]

The Grimpoteuthis do not have an ink sac (as is the case with all cirrate octopuses). Furthermore, the cirrate octopuses lack innervated chromatophores and are therefore not capable of changing color[32] (despite some unreferenced statements to the contrary).[33] How cirrate octopuses escape or avoid predators is largely unknown.

External links

Notes and References

  1. Voss . Gilbert L. . Pearcy . William G. . 17 October 1990 . 1990–1992 . Deep-water octopods (Mollusca: Cephalopoda) of the northeastern Pacific . . 4th series . 47 . 3 . 47–94. . San Francisco, CA--> . biodiversitylibrary.org.
  2. Web site: Grimpoteuthis . 2022 . World Register of Marine Species (WoRMS) . marinespecies.org.
  3. Web site: Young . Richard . Grimpoteuthis . Tree of Life Web Project (tolweb.org) . 10 May 2014.
  4. Web site: Finned deep-sea octopuses . MarineBio.org . 558 . 8 May 2014.
  5. Book: Brunt . M.A. . Davies . J.E. . 1994 . The Cayman Islands: Natural history and biogeography . Kluwer Academic . 0-7923-2462-5 . Dordrecht, NL . 175.
  6. Jamieson . Alan J. . Vecchione . Michael . 26 May 2020 . First in situ observation of Cephalopoda at hadal depths (Octopoda: Opisthoteuthidae: Grimpoteuthis sp.) . Marine Biology . 167 . article 82 . 10.1007/s00227-020-03701-1 . free.
  7. Piertney . Stuart B. . Hudelot . Cendrine . Hochberg . F.G. . Collins . Martin A. . 2003 . Phylogenetic relationships among cirrate octopods (Mollusca: Cephalopoda) resolved using mitochondrial 16S ribosomal DNA sequences . Molecular Phylogenetics and Evolution . 27 . 2 . 348–353 . 12695097 . 10.1016/S1055-7903(02)00420-7.
  8. O'Shea . Steve . 1999 . The marine fauna of New Zealand: Octopoda (Mollusca: Cepahlopoda) . Niwa Biodiversity Memoirs . 112 . 5–278 . Wellington, NZ . NIWA Research . researchers.mq.edu.au.
  9. Web site: O'Shea . Steve . Young . Richard E. . 2003 . Grimpoteuthis abyssicola . Tree of Life Web Project (tolweb.org) . . 2020-02-27.
  10. Verhoeff . Tristan J. . O'Shea . Steve . 2022 . New records and two new species of Grimpoteuthis (Octopoda: Cirrata: Grimpoteuthididae) from southern Australia and New Zealand . Molluscan Research . 42 . 4–30 . 247020706 . 10.1080/13235818.2022.2035889 .
  11. Web site: Young . Richard E. . Vecchione . Michael . 2003 . Grimpoteuthis bathynectes . Tree of Life Web Project (tolweb.org) . . 2020-02-27.
  12. Collins . M.A. . 9 September 2003 . The genus Grimpoteuthis (Octopoda: Grimpoteuthidae) in the north-east Atlantic, with descriptions of three new species . . 139 . 93–127 . 10.1046/j.1096-3642.2003.00074.x . free . academic.oup.com.
  13. Web site: Collins . Martin . Vecchione . Michael . Young . Richard E. . 2003 . Grimpoteuthis boylei . Tree of Life Web Project (tolweb.org) . . 2020-02-28.
  14. Web site: Collins . Martin . Vecchione . Michael . Young . Richard E. . 2003 . Grimpoteuthis challengeri . Tree of Life Web Project (tolweb.org) . . 2020-02-28.
  15. Web site: Collins . Martin . Vecchione . Michael . Young . Richard E. . 2003 . Grimpoteuthis discoveryi . Tree of Life Web Project (tolweb.org) . . 2020-02-28.
  16. Hoyle . William E. . William Evans Hoyle . 1904 . Reports on the Cephalopoda . . 43 . 1 . 5–7 .
  17. Web site: Young . Richard E. . Vecchione . Michael . 2003 . Grimpoteuthis hippocrepium . Tree of Life Web Project (tolweb.org) . . 2020-02-28.
  18. Ziegler . Alexander . Sagorny . Christina . 2021-04-23 . Holistic description of new deep sea megafauna (Cephalopoda: Cirrata) using a minimally invasive approach . . 19 . 1 . 81 . 10.1186/s12915-021-01000-9 . free . 8063452 . 33888110 . 1741-7007.
  19. Web site: O'Shea . Steve . Young . Richard E. . Vecchione . Michael . 2003 . Grimpoteuthis innominata . Tree of Life Web Project (tolweb.org) . . 2020-02-28.
  20. Book: Hoyle, William Evans . William Evans Hoyle . 1886 . Report on the Cephalopoda collected by H.M.S. Challenger during the years 1873–1876 . Edinburgh, UK . Neill . 3, 230–233 . 10.5962/bhl.title.46542.
  21. Web site: Young . Richard E. . Vecchione . Michael . 2003 . Grimpoteuthis meangensis . Tree of Life Web Project (tolweb.org) . . 2020-02-28.
  22. Web site: Young . Richard E. . Vecchione . Michael . 2003 . Grimpoteuthis megaptera . Tree of Life Web Project (tolweb.org) . . 2020-02-28.
  23. Web site: Young . Richard E. . Vecchione . Michael . 2003 . Grimpoteuthis pacifica . Tree of Life Web Project (tolweb.org) . . 2020-02-28.
  24. Web site: Young . Richard E. . Vecchione . Michael . 2003 . Grimpoteuthis plena . Tree of Life Web Project (tolweb.org) . . 2020-02-28.
  25. Web site: Young . Richard E. . Vecchione . Michael . 2003 . . Grimpoteuthis tuftsi . Tree of Life Web Project (tolweb.org) . 2020-02-28.
  26. Web site: Collins . Martin . Vecchione . Michael . Young . Richard E. . 2003 . Grimpoteuthis umbellata . Tree of Life Web Project (tolweb.org) . 2020-02-28.
  27. Grimpe . G. . Georg Grimpe . 1920 . Teuthologische Mitteilungen v. Zwei neue Cirraten-Arten . de . Teuthological communications [on] two new cirrate species . . 51 . 230–243 . biodiversitylibrary.org.
  28. Web site: Collins . Martin . Vecchione . Michael . Young . Richard E. . 2003 . Grimpoteuthis wuelkeri . Tree of Life Web Project (tolweb.org) . . 2020-02-28 . https://web.archive.org/web/20210424205337/http://tolweb.org/Grimpoteuthis_wuelkeri/20130 . 2021-04-24.
  29. Villanueva . R. . Segonzac . M. . Guerra . A. . July 1997 . Locomotion modes of deep-sea cirrate octopods (Cephalopoda) based on observations from video recordings on the Mid-Atlantic Ridge . Marine Biology . 129 . 1 . 113–122 . 85848021 . 10.1007/s002270050152.
  30. Ziegler . Alexander . Miller . Abigail . Nagelmann . Nina . 2021 . Novel insights into early life stages of finned octopods (Octopoda: Cirrata) . Swiss Journal of Palaeontology . 140 . 245330726 . 10.1186/s13358-021-00240-0 . free.
  31. Shea . Elizabeth K. . Ziegler . Alexander . Faber . Cornelius . Shank . Timothy M. . February 2018 . Dumbo octopod hatchling provides insight into early cirrate life cycle . . 28 . 4 . R144–R145 . 29462576 . 10.1016/j.cub.2018.01.032 . free.
  32. Collins . Martin A. . Villanueva . Roger . 2006 . Taxonomy, ecology and behaviour of the cirrate octopods . . Annual Review . 44 . 277–322 . 10.1201/9781420006391.ch6 . 978-0-8493-7044-1.
  33. Hadjisolomou . Stavros P. . March 2017 . SpotMetrics: An open-source image-analysis software plugin for automatic chromatophore detection and measurement . . 8 . 106 . 28298896 . 5331055 . 10.3389/fphys.2017.00106 . free.