Pleuromamma xiphias (Giesbrecht, 1889)

Dataset

GBIF Backbone Taxonomy

Rank

SPECIES

Published in

World of Copepods database. Pleuromamma xiphias (Giesbrecht, 1889). Accessed through: World Register of Marine Species at: http://www.marinespecies.org/aphia.php?p=taxdetails&id=104643 on 2020-02-17

Classification

kingdom

Animalia

phylum

Arthropoda

class

Copepoda

order

Calanoida

family

Metridinidae

genus

Pleuromamma

species

Pleuromamma xiphias

Name

Synonyms

Pleuromma xiphias Giesbrecht, 1889

Homonyms

Pleuromamma xiphias (Giesbrecht, 1889)

Common names

劍乳點水蚤 in Chinese

이마돌기젖꼭지노벌레 in Korean

Bibliographic References

1. Arcos, D.F. (1975). Copépodes calanoídeos de la Bahía de Concepción, Chile. Conocimiento sistemático y variación estacional. [Calanoid Copepods of the Concepcion Bay, Chile, Systematic study and seasonal variation.]. <em>Gayana, Zoología.</em> 32:3-31, figs. 1-7, pls. 1-9 with figs. 1-78, map.
2. Bannister, N.J. & P.J. Herring. (1989). Distribution and structure of luminous cells in four marine copepods. Journal of the Marine Biological Association of the United Kingdom 69(3):523-533, figs. 1-5. (viii.1989)
3. Boxshall, G. (2001). Copepoda (excl. Harpacticoida), <B><I>in</I></B>: Costello, M.J. <i>et al.</i> (Ed.) (2001). <i>European register of marine species: a check-list of the marine species in Europe and a bibliography of guides to their identification. Collection Patrimoines Naturels,</i> 50: pp. 252-268
4. Bradford-Grieve, J.M. (1999). The Marine Fauna of New Zealand: Pelagic Calanoid Copepoda: Bathypontiidae, Arietellidae, Augaptilidae, Heterorhabdidae, Lucicutiidae, Metrodinidae, Phyllopodidae, Centropagidae, Pseudodiaptomidae, Temoridae, Candaciidae, Pontellidae, Sulcanidae, Acartiid National Institute of Water and Atmospheric Research (NIWA) Biodiversity Memoir, Wellington 111:1-268.
5. Brun, P., M.R. Payne & T. Kiørboe. (2017). A trait database for marine copepods. <em>Earth System Science Data.</em> 9(1):99-113. 10.5194/essd-9-99-2017
6. Buskey, E.J., K.S. Baker, R.C. Smith & E. Swift. (1989). Photosensitivity of the oceanic copepods Pleuromamma gracilis and Pleuromamma xiphias and its relationship to light penetration and daytime depth distribution. Marine Ecology Progress Series 55(2):207-216.
7. Chang, C. (2017). The Influence of Biophysical Factors on the Connectivity of Holoplanktonic Copepods. <em>M.Sc. Thesis, University of Hawaii – Manoa, Hawaii, USA.</em> ix + 81 pp. Aug 2016.
8. Chiba, T. (1956). Studies on the development and the systematics of Copepoda. Journal of the Shimonoseki College of Fisheries 6(1):1-90. (xi-1956). (In Japanese, English summary.)
9. Ferrari, F.D. & A. Benforado. (1998). Relationships between arthrodial membrane formation and addition of setae to swimming legs 1-4 during development of Dioithona oculata, Ridgewayia klausruetzleri, Pleuromamma xiphias, and Temora longicornis (Copepoda). Crustaceana, Leiden 71(5):545-564. (vii.1998)
10. Ferrari, F.D. & A. Benforado. (1998). Setation and setal groups on antenna 1 of Ridgewayia klausreutzleri, Pleuromamma xiphias, and Pseudocalanus elongatus (Crustacea: Copepoda: Calanoida) during the copepodid phase of their development. Proceedings of the Biological Society of Washington 111(1):209-221. (6.iv.1998)
11. Ferrari, F.D. & L.A.C. Hayek. (1990). Monthly differences in distributions of sex and asymmetry in a looking-glass copepod, Pleuromamma xiphias, off Hawaii. Journal of Crustacean Biology 10(1):114-127.
12. Ferrari, F.D. (1985). Postnaupliar development of a looking-glass copepod, Pleuromamma xiphias (Giesbrecht, 1889), with analyses of distributions of sex and asymmetry. Smithsonian Contributions to Zoology 420:i-iii, 1-55, figs. 1-23.
13. Fields, D.M. & J. Yen. (1996). The escape behavior of Pleuromamma xiphias from a quantifiable fluid mechanical disturbance. Chapter 3. <em>In: Lenz, P.H., D.K. Hartline, J.E. Purcell & D.L. Macmillan (eds.). Zooplankton: Sensory Ecology and Physiology. Vol. 1. Gordan and Breach Publishers, Amsterdam.</em> :323-340.
14. Giesbrecht, W. (1899). Die Asterocheriden des Golfes von Neapel und der angrenzenden Meeres- Abschnitte. The Asterocherids of the Gulf of Naples and the adjacent marine areas. <em>Fauna und Flora des Golfes von Neapel und der Angrenzenden Meeres-Abschnitte, Herausgegeben von der Zoologischen Station zu Neapel.</em> 25:i-vi, 1-217, pls. 1-11.
15. Goetze, E. (2011). Population differentiation in the open sea: Insights from the pelagic copepod Pleuromamma xiphias. Integrative & Comparative Biology 51(4):580-597.
16. Goetze, E., P.T. Hüdepohl, C. Chang, L. Van Woudenberg, M. Iacchei & K.T.C.A. Peijnenburg. (2017). Ecological dispersal barrier across the equatorial Atlantic in a migratory planktonic copepod. <em>Progress In Oceanography.</em> 158:203-212. 10.1016/j.pocean.2016.07.001
17. Grice, G.D. & K. Hulsemann. (1967). Bathypelagic calanoid copepods of the western Indian Ocean. <em>Proceedings of the United States National Museum.</em> 122(3583):1-67, figs. 1-319.
18. Hartline, D.K., E.J. Buskey & P.H. Lenz. (1999). Rapid jumps and bioluminescence elicited by controlled hydrodynamic stimuli in a mesopelagic copepod, Pleuromamma xiphias. Biological Bulletin, Woods Hole 197(2):132-143.
19. ICES Zooplankton: Copepoda. sheet n° 32.
20. Iwanicki, T., J.W. Chen, J. Hirai, H. DeTurk, M. Steck, E. Goetze & M.L. Porter. (2024). Shining new light on naupliar eyes: A novel molecular phylogeny for Pleuromamma (Family: Metridinidae) and the characterization of luciferase and opsin expression. <em>Molecular Phylogenetics And Evolution.</em> 201: 1-10. 108200. Dec 2024. 10.1016/j.ympev.2024.108200