Under Construction

Magnapinnidae Vecchione and Young, 1998

Magnapinna Vecchione and Young, 1998

Bigfin squid

Michael Vecchione and Richard E. Young
Click on an image to view larger version & data in a new window
Click on an image to view larger version & data in a new window
taxon links [up-->]Magnapinna atlantica [up-->]Magnapinna sp. B [up-->]Magnapinna talismani [up-->]Magnapinna pacifica [up-->]Magnapinna sp. C [down<--]Chiroteuthid families Interpreting the tree
close box

This tree diagram shows the relationships between several groups of organisms.

The root of the current tree connects the organisms featured in this tree to their containing group and the rest of the Tree of Life. The basal branching point in the tree represents the ancestor of the other groups in the tree. This ancestor diversified over time into several descendent subgroups, which are represented as internal nodes and terminal taxa to the right.

example of a tree diagram

You can click on the root to travel down the Tree of Life all the way to the root of all Life, and you can click on the names of descendent subgroups to travel up the Tree of Life all the way to individual species.

For more information on ToL tree formatting, please see Interpreting the Tree or Classification. To learn more about phylogenetic trees, please visit our Phylogenetic Biology pages.

close box
Containing group: Chiroteuthid families

Introduction

The family Magnapinnidae was originally based on a single species, Magnapinna pacifica. However, the discovery of a second species, M. atlantica, and the realization that other known specimens and species belong in the family indicate that this poorly known deep-sea family may have as many as five species based on only eleven specimens. However, as only three of the species are well-described, and four of them are weakly separated from one another, we cannot infer yet that this is a highly speciose family.

Vecchione et al. (2002) described the occurrence of a strange, large squid recorded only by submersible or ROV observations (see title photograph). The authors suggested that these squid belong in the family Magnapinnidae. With the discovery of more species, although based only on small individuals, we are now confident that these large deep-sea squid are magnapinnids, and we include them here. The title photograph shows the thicker regions of the arms and tentacles that are often held at nearly right angles to the body axis and the long, slender portions of the arms and tentacles that trail the squid and are nearly parallel to the body axis. Apparent counterparts for these regions of the arms/tentacles are present in the juveniles. For ease of description we give separate names to these two regions: the proximal-arms/tentacles and the distal-arms/tentacles.

Based on similarity (cladistic analyses have not been made), this family apparently belongs with the "chiroteuthid families" (Vecchione and Young, 1998). These families include the Chiroteuthidae, Mastigoteuthidae, Joubiniteuthidae, Batoteuthidae and Promachoteuthidae. It shares the following characteristics with these families:

A few additional characters are shared with the Chiroteuthidae and Mastigoteuthidae:

Brief diagnosis:

One of the chiroteuthid families with ...

Characteristics

  1. Arms
    1. Arms with two regions: short, proximal-arms with large suckers and long, very slender distal-arms covered with minute suckers.
    2. Arms suckers with bi- to quadra-serial suckers on proximal-arms, multiple irregular series on distal arms.
    3. Click on an image to view larger version & data in a new window
      Click on an image to view larger version & data in a new window
       Figure. Ventral and dorsal views of the brachial crowns of M. pacifica, 51 mm ML . Drawing from Vecchione and Young (1998).

       

    The differentiation of arms from tentacles and the determination of the total number of appendages in Magnapinna videos/photographs are often difficult to determine. Here we have taken three frame-grabs from an MBARI ROV video taken in Hawaiian waters and labeled the arms and tentacles.

    This squid has the tips of the right Arm I and left arm IV and left tentacle broken off. The left arm IV has the left tentacle partially cradled in its lateral membrane and this can be recognized in all three photographs. Apparently this Magnapinna uses a lateral membrane in guiding each tentacle as in most chiroteuthids, mastigoteuthids and Joubiniteuthis. The right Arm IV shows the same cradling of the right tentacle in the top left and bottom photographs while the top right photograph shows the tentacle mostly free from Arm IV. The proximal thick portion of arms III are much shorter than in the other arms which can cause these arms to be mistaken for tentacles because of their position if the true tentacles are hidden within the lateral membranes of arms IV.

    Click on an image to view larger version & data in a new window
    Click on an image to view larger version & data in a new window

    Figure. Three views of the same M. pacifica needed to identify arms and tentacles. 1-4 =  arm numbers; t = tentacles. Photographed at a depth of 3376 m. © 1013 MBARI.

    A portion of the MBARI video from with the above images were taken is seen here.

  2. Tentacles
    1. Tentacles with two regions: short, proximal-tentacles that may or may not bear numerous suckers and long, very slender distal-tentacles covered with numerous minute suckers.
    2. Tentacles without keels, terminal pads or locking apparatuses.

  3. Buccal crown
    1. Buccal connectives attach to ventral margins of arms IV.

  4. Head
    1. Eyes large.
    2. Head short without distinct neck or brachial pillar.

  5. Funnel
    1. Funnel with oval locking-apparatus without tragus or antitragus.

  6. Fins
    1. Fins terminal.
    2. Fins large, ca. 70-90% of ML.
    3. Muscular mantle restricted to the anterior 10-15% of the sessile region (ie, attached region of fins that doesn't include the free anterior fin lobes) of the fins.
    4. Short tail usually present. May represent drawn-out tip of fins that have been damaged.
    5. Click on an image to view larger version & data in a new window
      Click on an image to view larger version & data in a new window

      Figure. Ventral view of Magnapinna pacifica, holotype. Note that the muscular mantle terminates in the anterior region of the fins. Photograph from Vecchione and Young (1998), modified.

  7. Photophores
    1. Photophores absent.

Comments

Most described specimens are based on paralarvae or juveniles. The adult/subadult squid, observed from submersibles or ROVs, have the following features: The arms and tentacles typically are held in an unusual position: They extend at sharp angles to the body axis then abruptly (sometimes at a 90° angle) turn anteriorly. The "elbow" is, roughly, two thirds of the length of the mantle away from the body axis. This arm posture recalls the way in which the tentacles of Mastigoteuthis spp. are held apart although with the aid of the ventral arms. Rough estimates from videos indicate total lengths up to 7 m (Vecchione, et al, 2001). Arms and tentacles are approximately equal in thickness and length. The tentacles are usually not easily recognizable in videos; the arms and tentacles, therefore, appear as 10 equal appendages. Length of the arms/tentacles of the squid pictured below are about 10 times the ML although they are highly contractile. Guerra et al (2002) estimated that an individual they observed had arms/tentacles about 15-20 times the ML. The relative length of the arms/tentacles is far greater than in any other squid. The head appears to be small. Fin Length of the specimen pictured below is about 80% of the ML. Guerra et al (2002) estimated the fin length of their specimen at about two thirds of the ML. The fin position is terminal.

Click on an image to view larger version & data in a new window
Click on an image to view larger version & data in a new window

Figure. In-situ images of Magnapinna sp., Gulf of Mexico. Left - Side view showing long appendages. Right - Dorsal view showing common posture with proximal-arms/tentacles at nearly right angles to the body axis. Video frames of taken by DSV Alvin, Woods Hole Oceanographic Institution. Dives co-sponsored by NOAA Undersea Research Program, Minerals Management Service and National Energy Technology Lab.

  Tentacle base much wider than arm IV base Proximal-tentacle with numerous suckers Proximal-tentacle with glandular structures. Chromatophores abundant
Habitat
M. pacifica Yes Yes No Yes North Pacific, North Atlantic
M. atlantica No No Yes Yes North Atlantic
Magnapinna sp. B No ? ? No North Atlantic
Magnapinna sp. C No No ? Yes South Atlantic
M. talismani No No ? Yes North Atlantic

Due to the poor condition of the single specimens of Magnapinna spp. B and C and M. talismani, our present understanding of the species in the family may be flawed. M. atlantica, M. talismani and Magnapinna sp. C could belong to the same species. The feature that most clearly separates M. atlantica is the presence of glandular structures on the proximal-tentacles. The recent discovery that these structures become relatively smaller with size and are easily lost due to damage indicates that these structures may have been lost in M. talismani and Magnapinna spp. B and C. Magnapinna sp. B, however, appears to differ from the others in the longer free-of-the-fin mantle and the broader orifices of the proximal-arm suckers.

Nomenclature

A list of all nominal genera and species in the Magnapinnidae can be found here. The list includes the status and type species of all genera, and the status, type repository and type locality of all species and all pertinent references.

Life History

A paralarval stage is known for Magnapinna pacifica.

Distribution

Geographical distribution: Magnapinnids are probably found, at least in temperate to tropical latitudes, throughout the world's oceans.

Vertical distribution: Most magnapinnids have been photographed within a few meters of the bottom at great depths. The following photograph shows a small magnapinnid swimming just above the ocean floor at 4708 m in the Kermadec Trench. This squid appears to be under 100 mm in ML judging from the cross bar which shows a 100 mm distance between black tapes. Although the resolution is insufficient to be certain, the squid appears to not yet have the full development of the slender distal arms.

Click on an image to view larger version & data in a new window
Click on an image to view larger version & data in a new window

Figure. Magnapinna (arrow) photographed by a deployed camera monitoring fish-bait. © Timothy M. Shank, Woods Hole Oceanographic Institution.

The deepest record for a squid is 4735 m which was another magnapinnid photographed in the western Atlantic off Brazil (Vecchione, et al., 2001).

 

Other Names for Magnapinna Vecchione and Young, 1998

References

Guerra, A., Gonzalez, A. F., Rocha, F., Segonzac, M., Gracia, J. 2002. Observations from submersibles of rare long-arm bathypelagic squids. Sarsiae 87:189-192.

Vecchione, M., Young R. E. 1998. The Magnapinnidae, a newly discovered family of oceanic squid (Cephalopoda: Oegopsida). South African Journal of Marine Science, 20:429-437.

Vecchione, M., R.E. Young, A. Guerra, D.J. Lindsay, D.A. Clague, J.M. Bernhard, W.W. Sager, A.F. Gonzalez, F.J. Rocha, and M. Segonzac. 2001. Worldwide observations of remarkable deep-sea squids. Science 294: 2505-2506.

Vecchione, M. and R. E. Young. 2006. The squid family Magnapinnidae (Mollusca; Cephalopoda) in the North Atlantic with a description of Magnapinna atlantica, n. sp. Proc. Biol. Soc. Wash. 119 (3): 365-372.

Information on the Internet

Title Illustrations
Click on an image to view larger version & data in a new window
Click on an image to view larger version & data in a new window
Scientific Name Magnapinna sp.
Location Gulf of Mexico, 27°45'N, 88°31'W, at 1940 m depth
Specimen Condition Live Specimen
View Side
Size ca. 7 m
Copyright © NOAA Undersea Research Program, Minerals Management Service and National Energy Technology Lab.
About This Page


National Museum of Natural History, Washington, D. C. , USA


University of Hawaii, Honolulu, HI, USA

Page: Tree of Life Magnapinnidae Vecchione and Young, 1998. Magnapinna Vecchione and Young, 1998. Bigfin squid. Authored by Michael Vecchione and Richard E. Young. The TEXT of this page is licensed under the Creative Commons Attribution-NonCommercial License - Version 3.0. Note that images and other media featured on this page are each governed by their own license, and they may or may not be available for reuse. Click on an image or a media link to access the media data window, which provides the relevant licensing information. For the general terms and conditions of ToL material reuse and redistribution, please see the Tree of Life Copyright Policies.

Citing this page:

Vecchione, Michael and Richard E. Young. 2016. Magnapinnidae Vecchione and Young, 1998. Magnapinna Vecchione and Young, 1998. Bigfin squid. Version 29 August 2016 (under construction). http://tolweb.org/Magnapinna/52203/2016.08.29 in The Tree of Life Web Project, http://tolweb.org/

edit this page
close box

This page is a Tree of Life Branch Page.

Each ToL branch page provides a synopsis of the characteristics of a group of organisms representing a branch of the Tree of Life. The major distinction between a branch and a leaf of the Tree of Life is that each branch can be further subdivided into descendent branches, that is, subgroups representing distinct genetic lineages.

For a more detailed explanation of the different ToL page types, have a look at the Structure of the Tree of Life page.

close box

Magnapinna

Page Content

articles & notes

collections

people

Explore Other Groups

random page

  go to the Tree of Life home page
top