Overview

Brief Summary

Introduction

Stauroteuthids are peculiar, gelatinous cirrates with a mantle opening that forms a complete tube around the funnel. They also have peculiar gills and internal shells and a large web that is nearly equally developed between all arms. When observed from submersibles, this octopod commonly has its arms and web formed into a bell-shape (bell-shape posture). Sometimes when the octopod is disturbed, it will inflate the web and draw the arms together at their tips to form a "balloon" with the arms and web (balloon posture). These postures are thought to be involved in feeding and/or defense (Vecchione and Young, 1997).

Brief diagnosis:

A cirrate with ...

  • long cirri and secondary webs.
  • U-shaped shell.
  • tubular anterior mantle.

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Comprehensive Description

Nomenclature

Chunioteuthis Grimpe, 1916 is placed as a junior synonym of Stauroteuthis by Collins and Henriques (2000).

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Comparisons Between Species

The two species are separated geographically (see below) but are very similar morphologically. Separation relies primarily on the differences in size and position of the suckers as seen in the following table:

S. syrtensis
Males
S. syrtensis
Females
S. gilchristi
Males
S. gilchristi
Females
Max. sucker diam., mm2.2-61.2-2.25.7-9.03.9-4.8
Position of largest suckers12-161-39-149-14
Sucker index (rel. to head W.)0.06-0.100.02-0.050.09-0.130.09-0.12

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Characteristics

  1. External morphology
    1. Shape
      1. Anterior-posterior elongation of body pronounced; body extends well posterior to shell.
    2. Mantle
      1. Anterior mantle opening modified into a complete cyclinder formed by muscular mantle and encircling funnel base.(See "Comments" below.)
    3. Web
      1. Primary and secondary webs present.
      2. Web nodules absent.
    4. Cirri
      1. Cirri begin between suckers 2-6.
      2. Cirri length: Longest more than twice arm diameter.
      3. Cirri absent from arm tips. Cirri end before sucker 18-24.
    5. Suckers
      1. Suckers small, cylindrical.
      2. Suckers enlarged in male S. syrtensis.

  2. Mantle cavity
    1. Mantle septum
      1. Thick, open posteriorly.
    2. Olfactory organ
      1. Lies well inside of mantle cavity from free mantle margin. (See "Comments" below.)
    3. Gills
      1. Gills have a diagnostic form. The secondary and tertiary lamellae are highly branching; the primary lamellae are difficult to recognize and don't form a symmetrical series along the gill; a large afferent vessel does not dominate the "top" of the gill.

        Figure. "Top" view (i.e. opposite the attachment to the mantle wall) of the preserved gill of S. syrtensis captured by submersible off Cape Hatteras, western North Atlantic. Photograph by R. Young.

    4. Internal anatomy
      1. Salivary glands
        1. "Anterior" salivary glands present.
      2. Radula
        1. Absent.
      3. Digestive gland
        1. Unilobular.
      4. Digestive tract
        1. Simple U-shaped digestive tract.
        2. Large posterior lip glands present.

          Figure. Lateral view of the digestive tract of S. syrtensis. Drawing modified from Vecchione and Young, 1997.

      5. Optic lobe
        1. Optic lobe spherical.
        2. Single optic nerve bundle passes through the white body.

          Figure. Dorsal views of the eye, optic lobe, white body and optic nerve of S. syrtensis. Drawing from Collins and Henriques, 2000.

  3. Shell
    1. The shell is U-shaped.

      Figure. Anterior (?) view of the shell of a young S. syrtensis. Photograph by R. Young.

  4. Pigmentation

Figure. Views of S. syrtensis. Left - ventral view. Right - dorsal view. These two photographs show the color variation observed in two different fresh/living octopods of approximately the same size. The significance of this variation is unknown. Photographs by R. Young.

Comments

One of the most unusual features of the family is the cyclindrical, muscular mantle opening. Stauroteuthis spp. are the only cirrates in which the free edges of the mantle fuse dorsally to form a tube. The two photos taken at the right in a aquarium show the tubular opening in one stage of contraction. The opening appears like an elevated ring around the base of the slender, protruding funnel. Judging from preserved octopods (see drawing below), this ring can be greatly extended. In other octopods, the mantle attaches anteriorly, on either side, to the cephalic cartilage; as a result the dorsal wall of the mantle cavity, in this region, consists of the head.

Figure. Lateral views of the head and mantle of S. syrtensis, alive. Video frames from a video taken by Edith Widder of the octopod in a planktonkreissel.

Figure. Twisting dorsolateral view of the anterior mantle of S. syrtensis showing the intertwining muscles that form the dorsal wall of the mantle at its anterior end. In this preserved octopod, the anterior mantle was contracted into a tube that, at first, appeared to be the funnel. The true funnel was withdrawn inside of the mantle cavity. The mantle opening, in this drawing, is colored purple and is at the lower right of the drawing. The skin has been removed showing the mantle muscles. Beneath the dorsal mantle muscles, the dark violet lining of the mantle cavity is seen.

In a fresh, translucent Stauroteuthis (below), the pigmented mantle cavity has the shape of a bow tie due to the large, central unpigmented region occupied by the thick mantle septum and the pigmented extensions of the mantle cavity anterolaterally leading to the dorsal mantle cavity.

Figure. Mantle cavity of S. gilchristi, photograph modified from Collins and Henriques, 2000. Scale bar = 100 mm.

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Distribution

Presently stauroteuthids are known only from the Atlantic Ocean. They are thought to be benthopelagic in distribution (Collins and Henriques, 2000). That is, they are pelagic but reside in close proximity to the ocean floor.

Figure. Distribution map, modified from Collins and Henriques, 2000. The red dots indicate capture locations of S. syrtensis and the yellow squares represent the capture locations of S. gilchristi.

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Ecology

Habitat

Depth range based on 35 specimens in 3 taxa.
Water temperature and chemistry ranges based on 32 samples.

Environmental ranges
  Depth range (m): 53 - 4707
  Temperature range (°C): 0.113 - 12.411
  Nitrate (umol/L): 4.461 - 32.884
  Salinity (PPS): 34.182 - 35.652
  Oxygen (ml/l): 4.496 - 6.416
  Phosphate (umol/l): 0.501 - 2.280
  Silicate (umol/l): 3.319 - 119.961

Graphical representation

Depth range (m): 53 - 4707

Temperature range (°C): 0.113 - 12.411

Nitrate (umol/L): 4.461 - 32.884

Salinity (PPS): 34.182 - 35.652

Oxygen (ml/l): 4.496 - 6.416

Phosphate (umol/l): 0.501 - 2.280

Silicate (umol/l): 3.319 - 119.961
 
Note: this information has not been validated. Check this *note*. Your feedback is most welcome.

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Life History and Behavior

Behavior

Submersible observations have been made on S. syrtensis and we assume that they apply to both species. S. syrtensis is commonly seen, when first approached, with the web inflated into a bell-shape (below left) with the arms separated from the primary web by the secondary web. A ballooning posture is occasionally seen (below right), usually following disturbance, in which the web is extremely inflated and closed at the arm tips.

Figure. Lateral views of S. syrtensis. Left - Bell posture. Right - balloon posture. Submersible photographs.

Locomotion is via movement of the fins or the expulsion of water from the web. The latter method, however, is weak perhaps because of the loss of the strong connection of the web to the arms due to the presence of the secondary web. Small copepods have been found in the stomachs. This and the presence of large secretory lip glands suggest that mucous may be involved in the capture of prey. The above is summarized from Vecchione and Young, 1997.

Johnsen, et al. (1999) found that mechanical stimulation induced luminescence associated with the basal suckers of S. syrtensis (sex unknown). This is the only known case of bioluminescence in cirrate octopods and suggests that careful observations of living material may be useful. The function of the luminescence is unknown.

Figure. Left - Oral view of bioluminescence of S. syrtensis. Right - Oblique-oral view to show arrangement of suckers for comparison with Left photograph. Photographs by P. Flood who writes, "The bioluminescence was stimulated by brief electrical AC pulses from a 12V power supply unit. The bioluminescent suckers lit up one after the other in perfect succession from mouth to periphery when stimulated near the mouth area. They were never seen to flicker independent of their neighbours in the same row.

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Molecular Biology and Genetics

Molecular Biology

Statistics of barcoding coverage

Barcode of Life Data Systems (BOLD) Stats
                                        
Specimen Records:3Public Records:1
Specimens with Sequences:2Public Species:1
Specimens with Barcodes:2Public BINs:1
Species:2         
Species With Barcodes:2         
          
Creative Commons Attribution 3.0 (CC BY 3.0)

© Barcode of Life Data Systems

Source: Barcode of Life Data Systems (BOLD)

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Barcode data

Creative Commons Attribution 3.0 (CC BY 3.0)

© Barcode of Life Data Systems

Source: Barcode of Life Data Systems (BOLD)

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Locations of barcode samples

Collection Sites: world map showing specimen collection locations for Stauroteuthis

Creative Commons Attribution 3.0 (CC BY 3.0)

© Barcode of Life Data Systems

Source: Barcode of Life Data Systems (BOLD)

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Wikipedia

Stauroteuthis

Stauroteuthis is a genus of deepwater octopus, a cephalopod mollusk. This is the only genus in the family Stauroteuthidae, and only two species have been described in this genus.

Species within the genus Staurotethis

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Source: Wikipedia

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