Ophiomyxa vivipara Studer, 1876
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publication ID |
https://doi.org/ 10.11646/zootaxa.5124.1.1 |
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publication LSID |
lsid:zoobank.org:pub:C015F8CB-799B-4A92-90AE-02B4C576089E |
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DOI |
https://doi.org/10.5281/zenodo.6404728 |
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persistent identifier |
https://treatment.plazi.org/id/C72D87A1-5341-FFB0-FEA3-8039FD59FEB3 |
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treatment provided by |
Plazi |
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scientific name |
Ophiomyxa vivipara Studer, 1876 |
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Ophiomyxa vivipara Studer, 1876 View in CoL View at ENA
Fig. 13A–B View FIGURE 13
Ophiomyxa vivipara Studer, 1876: 462 View in CoL .— Mortensen 1933a: 301–304, fig. 27–29.
Ophiomyxa vivipara var capensis Mortensen 1936: 242 View in CoL .
Ophiomyxa vivipara capensis View in CoL .— Olbers et al. 2019: 155–156, fig. 146–147.
Material examined. MD 50 CP7, MNHN IE.2009.1605 (6). MD 50 DC108, MNHN IE.2009.1606 (24). MD 50 CP145, MNHN IE.2009.1607 (3).
Distribution. S America (6–507 m), W Atlantic (94–156 m), S Africa (80–755 m), W Indian (373–1179 m), E Indo-W Pacific (385–888 m), S Australia (522–2170 m), New Zealand (150–1408 m). SPA (460–1680 m).
Remarks. The numerous MD 50 specimens ( Fig. 13A–B View FIGURE 13 ) measure up to 11.8 mm dd and have the thin ovalto-trapezoid perforated unfragmented DAPs that cover the vertebrae that are diagnostic for the O. vivipara - O. serpentaria Lyman, 1883 complex of species (see Mortensen 1933c, fig. 1–2). Analysis of COI sequences ( O’Hara et al. 2014), showed that O. serpentaria specimens from the North Atlantic form a distinct clade to O. vivipara , as do populations from subtropical SW Australia and NE New Zealand, but O. vivipara sequences from the Falkland Islands, Tristan da Cunha, South Africa, Coral Seamount on the SW Indian Ridge, SE Australia, New Zealand and the Macquarie Ridge were not distinguishable. However, there are inter-population differences in life history. Specimens from off South America brood juveniles in their bursal sacs but specimens in other regions do not ( Mortensen 1933c, 1936; O’Hara et al. 2013). Mortensen (1936) suggested that the number of segments at the base of the arm that only have one arm spine was a way of distinguishing South American (one segment) from South African specimens (5–6 segments). However, in our experience this result is not consistent across all specimens from these regions. The current specimens have one arm spine only for the first segment, however, despite having mature gonads they show no sign of bursal viviparity.
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Museum Donaueschingen |
| MNHN |
Museum National d'Histoire Naturelle |
| IE |
Cepario de Hongos del Instituto de Ecologia |
No known copyright restrictions apply. See Agosti, D., Egloff, W., 2009. Taxonomic information exchange and copyright: the Plazi approach. BMC Research Notes 2009, 2:53 for further explanation.
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Ophiomyxa vivipara Studer, 1876
| O’Hara, Timothy D. & Thuy, Ben 2022 |
Ophiomyxa vivipara capensis
| Olbers, J. M. & Griffiths, C. L. & O'Hara, T. D. & Samyn, Y. 2019: 155 |
Ophiomyxa vivipara var capensis
| Mortensen, T. 1936: 242 |
Ophiomyxa vivipara
| Mortensen, T. 1933: 301 |
| Studer, T. 1876: 462 |