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Phylogenetic relationships among genera in the Calanidae (Crustacea: Copepoda) based on morphology

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Bradford-Grieve, Janet M., Ahyong, Shane T. (2010): Phylogenetic relationships among genera in the Calanidae (Crustacea: Copepoda) based on morphology. Journal of Natural History 44 (5-6): 279-299, DOI: 10.1080/00222930903359644, URL: http://dx.doi.org/10.1080/00222930903359644

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urn:lsid:plazi.org:pub:FFBDFF84FF97E7042C7EFFBDFFF9FF8D

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Figure: 10.5281/zenodo.5207188 (DOI)
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Figure: 10.5281/zenodo.5207196 (DOI)

References

  • Albers CS, Kattner G, Hagen W. 1996. The composition of wax esters, triacylglycerols and phospholipids in Arctic and Antarctic copepods: evidence of energetic adaptations. Mar Chem. 55:347-358.
  • Ambler JW, Miller CB. 1987. Vertical habitat-partitioning by copepodites and adults of subtropical oceanic copepods. Mar Biol. 94:561-577.
  • Andronov VN. 1974. [Phylogenetic relations of large taxa within the suborder Calanoida (Crustacea, Copepoda).] Zool Zh. 53:1002-1012 (in Russian).
  • Atkinson A, Schnack-Schiel SB, Ward P, Marin V. 1997. Regional differences in the life cycle of Calanoides acutus (Copepoda: Calanoida) within the Atlantic sector of the Southern Ocean. Mar Ecol Prog Ser. 130:85-96.
  • Bottjer DJ, Clapham ME, Faiser ML, Powers CM. 2008. Understanding mechanisms for the end-Permian mass extinction and the protracter Early Triassic aftermath and recovery. Geol Soc Am Today. 18(9):4-10.
  • Boxshall GA, Halsey SH. 2004. An introduction to copepod diversity. London: The Ray Society.
  • Boxshall GA, Huys R. 1998. The ontogeny and phylogeny of copepod antennules. Phil Trans R Soc London B. 353:763-786.
  • Bradford JM. 1988. Review of the taxonomy of the Calanidae (Copepoda) and the limits to the genus Calanus. Hydrobiologia. 167/168:73-81.
  • Bradford JM, Jillett JB 1974. A revision of generic definitions in the Calanidae (Copepoda, Calanoida). Crustaceana. 27:5-16.
  • Bradford-Grieve JM. 1994. The marine fauna of New Zealand: Megacalanidae, Calanidae, Paracalanidae, Mecynoceridae, Eucalanidae, Spinocalanidae, Clausocalanidae. N Z Oceanogr Inst Mem. 102:1-160.
  • Bradford-Grieve JM. 2002. Colonization of the pelagic realm by calanoid copepods. Hydrobiologia. 485:223-244.
  • Brodsky KA. 1972. [Phylogeny of the family Calanidae on the basis of a comparative morphological analysis of its characters.] Issled Fauny Morei 12(10):5-110. [English translation 1975: Jerusalem, Israel Program for Scientific Translations.]
  • Brodsky KA, Vyshkvartzeva NB, Kos MC, Markhaseva EL. 1983. [The oar-footed crustacean (Copepoda: Calanoida) of the oceans of the CCCP and bordering seas.] Opredeli po Faune SSSR, Izdav Zool Inst Akad Nauk SSSR, Leningr Nauka. 135(1), 358 pp (in Russian).
  • Bucklin A, Frost BW, Bradford-Grieve JM, Allen LD, Copley NJ. 2003. Molecular systematic and phylogenetic assessment of 34 calanoid copepod species of the Calanidae and Clausocalanidae. Mar Biol. 142:333-343.
  • Cuoc C, Defaye D, Brunet M, Notonier R, Mazza J. 1997. Female genital structures of Metridinidae (Copepoda: Calanoida). Mar Biol. 129:651-665.
  • Dallwitz MJ, Paine TA, Zurcher EJ. 1993. User's guide to the DELTA System: a general system for processing taxonomic descriptions. Edition 4. Canberra, CSIRO Division of Entomology.
  • Damkaer DM. 2000. Determination and enthusiasm: Richard Norris Wolfenden (1985-1926), his Plankton Studies and other things oceanographical. Archiv Nat Hist. 27(2):209-229.
  • Davis AD, Weatherley TM, Hartline DK, Lenz PH. 1999. Myelin-like sheaths in copepod axons. Nature, London. 398:571.
  • Ferrari FD, Dahms H-U. 2007. Post-embryonic development of the Copepoda. Crust Monogr. 8:229 pp.
  • Flint MV, Drits AV, Pasternak AF. 1991. Characteristic features of body composition and metabolism in some interzonal copepods. Mar Biol. 111:199-205.
  • Giesbrecht W. 1893. Systematik und Faunistik der pelagischen Copepoden des Golfes von Neapel und der angrenzenden Meeres- Abschnitte. Fauna Flora Golf Neapel. 19:1-831.
  • Hassett RP, Boehlert GW. 1999. Spatial and temporal distributions of copepods to leeward and windward of Oahu, Hawaiian Archipelago. Mar Biol. 134:571-584.
  • Heath MR, Jonasdottir SH. 1999. Distribution and abundance of overwintering Calanus finmarchicus in the Faroe-Shetland Channel. Fish Oceanogr. 8(Suppl.1):40-60.
  • Hind A, Gurney WSC, Heath M, Bryant AD. 2000. Overwintering strategies of Calanus finmarchicus. Mar Ecol Prog Ser. 193:94-108.
  • Hirche HJ, Muyakshin S, Klages M, Auel H. 2006. Aggregation of the Arctic copepod Calanus hyperboreus over the ocean floor of the Greenland Sea. Deep-Sea Res I. 53:310-320.
  • Huntley ME, Zhou M, Lopez MDG. 1994. Calanoides acutus in Gerlache Strait, Antarctica. 2. Solving an inverse problem in population dynamics. Deep-Sea Res II. 41(1):209-227.
  • Huys R, Boxshall GA. 1991. Copepod evolution. London: The Ray Society.
  • Ikeda T, Sano F, Yamaguchi A, Matsuishi T. 2006. Metabolism of mesopelagic and bathypelagic copepods in the western North Pacific Ocean. Mar Ecol Prog Ser. 322:199-211.
  • Kidder DL, Worsley TR. 2004. Causes and consequences of extreme Permo-Triassic warming to globally equable climate and relation to the Permo-Triassic extinction and recovery. Palaeogeog Palaeoclimatol Palaeoecol. 203:207-237.
  • Kobari T, Nagaki T, Takahashi K. 2004. Seasonal changes in abundance and development of Calanus pacificus (Crustacea: Copepoda) in the Oyashio-Kuroshio Mixed Region. Mar Biol. 144(4):713-721.
  • Lenz PH, Hartline DK, Davis AD. 2000. The need for speed. I. Fast reactions and myelinated axons in copepods. J Compar Physiol A. 186:337-345.
  • Machida RJ, Miya MU, Nishida M, Nishida S. 2006. Molecular phylogeny and evolution of the pelagic genus Neocalanus (Crustacea: Copepoda). Mar Biol. 148:1071-1079.
  • Maddison DR, Maddison WP. 2000. MacClade 4: Analysis of phylogeny and character evolution. CD-ROM. Sunderland. (Mass): Sinauer Associates.
  • Marcotte BM. 1999. Turbidity, arthropods and the evolution of perception: towards a new paradigm of marine phanerozoic diversity. Mar Ecol Prog Ser. 191:267-288.
  • Mauchline J, Gordon JDM. 1991. Oceanic pelagic prey of benthopelagic fish in the benthic boundary layer of a marginal oceanic region. Mar Ecol Prog Ser. 74:109-115.
  • Miller CB, Clemons MJ. 1988. Revised life history for large grazing copepods in the subarctic Pacific Ocean. Prog Oceanogr. 20:293-313.
  • Miller CB, Frost BW, Batchelder MJ, Clemons MJ, Conway RE. 1984. Life histories of large, grazing copepods in a subarctic ocean gyre: Neocalanus cristatus, Neocalanus plumchrus and Eucalanus bungii in the Northeast Pacific. Prog Oceanogr. 13:210-243.
  • Nishida S. 1989. Distribution, structure and importance of the cephalic dorsal hump, a new sensory organ in calanoid copepods. Mar Biol. 101:173-185.
  • Ohman MD. 1987. Energy sources for recruitment of the subantarctic copepod Neocalanus tonsus. Limnol Oceanogr 32:1317-1330.
  • Ohman MD, Drits AV, Clarke ME, Plourde S. 1998. Differential dormancy of co-occurring copepods. Deep-Sea Res II. 45:1709-1740.
  • Ohtsuka S, Boxshall GA, Roe HSJ. 1994. Phylogenetic relationships between arietellid genera (Copepoda: Calanoida), with the establishment of three new genera. Bull Br Mus Nat Hist (Zool). 60:105-172.
  • Ohtsuka S, Huys R. 2001. Sexual dimorphism in calanoid copepods: morphology and function. Hydrobiologia. 453-454:441-466.
  • Park TS. 1965. The biology of a calanoid copepod Epilabidocera amphrites McMurrich. La Cellule 66:129-251, 10 pl.
  • Park TS. 1986. Phylogeny of calanoid copepods. Syllogeus. 58:191-196.
  • Pasternak AF, Schnack-Schiel SB. 2001. Feeding patterns of dominant Antarctic copepods: an interplay of diapause, selectivity, and availability of food. Hydrobiologia. 453(1-3):25-36.
  • Pu X-M, Sun S, Yanf B, Ji P, Zhang Y-S, Zhang F. 2004. The combined effects of temperature and food supply on Calanus sinicus in the southern Yellow Sea in summer. J Plankton Res. 26:1049-1057.
  • Sars GO. 1902. An account of the Crustacea of Norway with short descriptions and figures of all the species. 4. Copepoda, Calanoida, Parts 3-12. Bergen: Bergen Museum.
  • Sars GO. 1924, 1925. Copepodes particulierement bathypelagiques provenant des campagnes scientifiques du Prince Albert 1er de Monaco. Res Camp Sci accomp Prince Albert 1er de Monaco. 69:Atlas 1924, 127 pls; Text 1925, 408 pp.
  • Schnack-Schiel SB. 2001. Aspects of the study of the life cycles of Antarctic copepods. Hydrobiologia. 453(1-3):9-24.
  • Schnack-Schiel SB, Hagen W. 1995. Life-cycle strategies of Calanoides acutus, Calanus propinquus, and Metridia gerlachei (Copepoda: Calanoida) in the eastern Weddell Sea, Antarctica. ICES J Mar Sci. 52:541-548.
  • Sewell RBS. 1929. The Copepoda of Indian Seas. Mem Indian Mus. 10:1-221.
  • Spiridonov VA, Kosobokova KN. 1997. Winter ontogenetic migrations and the onset of gonad development in large dominant calanoid copepods in the Weddell Gyre (Antarctica). Mar Ecol Prog Ser. 157:233-246.
  • Swofford DL. 2002: Phylogenetic Analysis Using Parsimony (*and other methods) Version 4 [Internet]. Sinauer Associates, Sunderland (MA). Available from: http://paup.csit.fsu.edu/ Cmd_ref_v2.pdf
  • Taniguchi M, Kanehisa T, Sawbe T, Christen R, Ikeda T. 2004. Molecular phylogeny of Neocalanus copepods in the subarctic Pacific Ocean, with notes on non-geographical genetic variation for Neocalanus cristatus. J Plankton Res. 26:1249-1255.
  • Thuesen EV, Miller CB, Childress JJ. 1998. Ecophysiological interpretation of oxygen consumption rates and enzymatic activities of deep-sea copepods. Mar Ecol Prog Ser. 168:95-107.
  • Tsuda A, Miller CB. 1998. Mating finding behaviour in Calanus marshellae Frost. Phil Trans R Soc London B. 353:713-720.
  • Verheye HM, Hagen W, Auel H, Ekau W, Loick N, Rheenen I, Wencke P, Jones S. 2005. Life strategies, energetics and growth characteristics of Calanoides carinatus (Copepoda) in the Angola-Benguela frontal region. Afr J Mar Sci. 27(3):641-651.
  • Vervoort W. 1951. Plankton copepods from the Atlantic sector of the Antarctic. Verh K. ned Akad Wet Afd Natuurk, Ser. 2. 47(4):1-156.
  • Vyshkvartzeva N. 1976. The functional morphology of mouth-parts of the species of Calanus s.l. (Copepoda, Calanoida). Issled Fauny Morei XVIII(XXVI):11-69 (in Russian).
  • Vyshkvartzeva N. 1977. Functional morphology of mouth-parts of the genus Calanus s.l. (Copepoda, Calanoida) III. Morpho-functional groups of Calanus species. IV. Adaptive structural features of the mouth apparatus of Calanus species. Issledovaniya Fauny Morei XX(XXVII):96-143 (in Russian).
  • Weatherby TM, Davis AS, Hartline DK, Lenz PH. 2000. The need for speed II: Myelin in calanoid copepods. J Comp Physiol A. 186:347-357.
  • Wignall PB, Morathe R, Newton R. 1998. The Permo-Triassic transition in Spitsbergen: d13Corg chemostratigraphy, Fe and S geochemistry, facies, fauna and trace fossils. Geol Mag. 135:47-62.
  • Williams R, Conway DVP. 1988. Vertical distribution and seasonal numerical abundance of the Calanidae in oceanic water to the south-west of the British Isles. Hydrobiologia. 167/ 168:259-266.