MarBEF Data System - ERMS - Calanus glacialis Jaschnov, 1955

ERMS taxon details

Calanus glacialis Jaschnov, 1955

Calanus glacialis

AphiaID

104465 (urn:lsid:marinespecies.org:taxname:104465)

Classification

Status

accepted

Rank

Species

Parent

Calanus Leach, 1816

Original name

Calanus glacialis Jaschnov, 1955

Environment

marine, ~~brackish~~, ~~fresh~~, ~~terrestrial~~

Original description

Jaschnov, V.A. (1955). Morfologiya rasprostranenie i sistematika Calanus finmarchicus s.l. [Morphology, distribution and systematics of Calanus finmarchus s.l. ]. Zoologicheskii Zhurnal. 34(6):1210-1223, figs. 1-6. (15-xi-1955, Russian with English summary). [details] Available for editors

Taxonomic citation

Walter, T.C.; Boxshall, G. (2025). World of Copepods Database. Calanus glacialis Jaschnov, 1955. Accessed through: Costello, M.J.; Bouchet, P.; Boxshall, G.; Arvanitidis, C.; Appeltans, W. (2025) European Register of Marine Species at: http://www.marbef.org//www.marbef.org/data/aphia.php?p=taxdetails&id=104465 on 2026-02-10

Regional species database citation

Costello, M.J.; Bouchet, P.; Boxshall, G.; Arvanitidis, C.; Appeltans, W. (2026). European Register of Marine Species. Calanus glacialis Jaschnov, 1955. Accessed at: http://www.marbef.org/data/aphia.php/js/10.1017/images/aphia.php?p=taxdetails&id=104465 on 2026-02-10

Taxonomic edit history

Date

action

2004-12-21 15:54:05Z

created

Boxshall, Geoff

Licensing

The webpage text is licensed under a Creative Commons Attribution 4.0 License

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original description Jaschnov, V.A. (1955). Morfologiya rasprostranenie i sistematika Calanus finmarchicus s.l. [Morphology, distribution and systematics of Calanus finmarchus s.l. ]. Zoologicheskii Zhurnal. 34(6):1210-1223, figs. 1-6. (15-xi-1955, Russian with English summary). [details] Available for editors

context source (Deepsea) Intergovernmental Oceanographic Commission (IOC) of UNESCO. The Ocean Biogeographic Information System (OBIS), available online at http://www.iobis.org/ [details]

basis of record Boxshall, G. (2001). Copepoda (excl. Harpacticoida), in: Costello, M.J. et al. (Ed.) (2001). 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, 50: pp. 252-268 (look up in RoR) [details]

additional source Brunel, P., L. Bosse & G. Lamarche. (1998). Catalogue of the marine invertebrates of the estuary and Gulf of St. Lawrence. Canadian Special Publication of Fisheries and Aquatic Sciences, 126. 405 pp. (look up in RoR) [details] Available for editors

additional source Steen, H., D. Vogedes, F. Broms, S. Falk-Petersen & J. Berge. (2007). Little auks (Alle alle) breeding in a High Arctic fjord system: bimodal foraging strategies as a response to poor food quality?. Polar Research. 26(2):118-125., available online at https://doi.org/10.1111/j.1751-8369.2007.00022.x [details] Available for editors

additional source Tamelander, T., J.E. Søreide, H. Hop & M.L. Carroll. (2006). Fractionation of stable isotopes in the Arctic marine copepod Calanus glacialis: Effects on the isotopic composition of marine particulate organic matter. Journal of Experimental Marine Biology and Ecology. 333(2):231-340., available online at https://doi.org/10.1016/j.jembe.2006.01.001 [details] Available for editors

additional source Arachkevich, E.G. & K.N. Kosobokova. (1988). K voprosu o zhiznennoy strategii rastitel'noyadnykh veslonogikh rachkov: fiziologiya i biokhimicheskiy sostav zimuyushchego Calanus glacialis v usloviyakh golodaniya. [To the problem of life-stratigy of herbivorous copepods: physiology and biochemical composition of the overwintering Calanus glacialis in starvation conditions.]. Okeanologiya Oceanology. 28(4):657-672. (Russian with English summary.). [details] Available for editors

additional source Integrated Taxonomic Information System (ITIS). , available online at http://www.itis.gov [details]

additional source Ástthórsson, O. & A. Gislason. (2003). Seasonal variations in abundance, development and vertical distribution of Calanus finmarchicus, C. hyperboreus and C. glacialis in the East Icelandic Current. Journal of Plankton Research. 25(7): 843-854., available online at https://doi.org/10.1093/plankt/25.7.843 [details] Available for editors

additional source Barthel, K.G. (1990). Relationships of food uptake and body components of Calanus finmarchicus, C. glacialis and C. hyperboreus to particulate matter and water characteristics in Fram Strait. Polar Biology 10(5):343-350, figs. 1-7, tabs. 1-5. (v.1990), available online at https://doi.org/10.1007/bf00237821 [details] Available for editors

additional source Brodsky, K.A. (1961). Comparison of Calanus species (Copepoda) from the southern and northern hemispheres. Contributions of the New Zealand Oceanographic Institute [Translation of part of Brodsky, K.A. 1959. Zool. Zh. 33:1537-1552.] 95:5-22, pls. 1-4, tab. 1. (Also as:Inf. Ser. Dep. scient. ind. Res. N.Z., 33). [details] Available for editors

additional source Bucklin, A., B.W. Frost & T.D. Kocher. (1995). Molecular systematics of six Calanus and three Metridia species (Calanoida: Copepoda). Marine Biology 121(4):655-664., available online at https://doi.org/10.1007/bf00349301 [details] Available for editors

additional source Bucklin, A., M. Guarnieri, R.S. Hill, A.M. Bentley & S. Kaartvedt. (1999). Taxonomic and systematic assessment of planktonic copepods using mitochondrial COI sequence variation and competitive, species-specific PCR. Hydrobiologia, The Hague. 401:239-254., available online at https://doi.org/10.1023/a:1003790411424 [details] Available for editors

additional source Corkett, C.J., I.A. McLaren & J.M. Sevigny. (1986). The rearing of the marine calanoid copepods Calanus finmarchicus (Gunnerus), C. glacialis Jaschnov and C. hyperboreus Kröyer with comment on the equiproportional rule. In: Schriever, G., H.K. Schminke & C.-t. Shih (eds.). Proceedings of the Second International Conference on Copepoda, Ottawa, Canada, 13-17 August, 1984. Syllogeus 58:539-546, figs. 1-4, tab. 1. [details] Available for editors

additional source Escribano, R., I.A. McLaren & W.C.M. Klein Breteler. (1992). Innate and aquired variation of nuclear DNA contents of marine copepods. Genome. 35(4):602-610. (French summary.)., available online at https://doi.org/10.1139/g92-090 [details] Available for editors

additional source Escribano, R. (1992). Tamaño dependencia del crecimiento corporal en copepodos marinos. [Size-dependent growth of body size in marine copepods. ]. Estudios Oceanológicos, Univ. Antofagasta, Chile. 11:29-37. [details] Available for editors

additional source Escribano, R. & I.A. McLaren. (1992). Influence of food and temperature on lengths and weights of two marine copepods. Journal of Experimental Marine Biology and Ecology. 159(1):77-88., available online at https://doi.org/10.1016/0022-0981(92)90259-D [details] Available for editors

additional source Escribano, R. & I.A. McLaren. (1992). Testing hypotheses of exponential growth and size-dependent molting rate in two copepod species. Marine Biology, Berlin 114(1):31-39., available online at https://doi.org/10.1007/bf00350853 [details] Available for editors

additional source Frost, B.W. (1971). Taxonomic status of Calanus finmarchicus and C. glacialis (Copepoda), with special reference to adult males. Journal of the Fisheries Research Board of Canada 28(1):23-30, figs. 1-6, tab. 1. (i-1971), available online at https://doi.org/10.1139/f71-004 [details] Available for editors

additional source Grainger, E.H. (1961). The copepods Calanus glacialis Jaschnov and Calanus finmarchicus (Gunnerus) in Canadian Arctic-Subarctic waters. Journal of the Fisheries Research Board of Canada 18(5): 663-678. (ix-1961)., available online at https://doi.org/10.1139/f61-051 [details] Available for editors

additional source Hirche, H.J. (1989). Egg production of the Arctic copepod Calanus glacialis: laboratory experiments. Marine Biology, Berlin 103(3):311-318, figs. 1-8, tab. 1. (xi.1989), available online at https://doi.org/10.1007/bf00397264 [details] Available for editors

additional source Hirche, H.J. (1998). Dormancy in three Calanus species (C. finmarchicus, C. glacialis and C. hyperboreus) from the North Atlantic. Ergebnisse der Limnologie (Advances in Limnology), Special Issue 52:359-369. [details] Available for editors

additional source Hirche, H.J. & G. Kattner. (1993). Egg production and lipid content of Calanus glacialis in spring: indication of a food-dependent and food-independent reproductive mode. Marine Biology, Berlin 117(4):615-622., available online at https://doi.org/10.1007/bf00349773 [details] Available for editors

additional source Hirche, H.J. & K. Kosobokova. (2003). Early reproduction and development of dominant calanoid copepods in the sea ice zone of the Barents Seaneed for a change of paradigms? Marine Biology 143(4):769-781., available online at https://doi.org/10.1007/s00227-003-1122-8 [details] Available for editors

additional source Hirche, H.J. & R.N. Bohrer. (1987). Reproduction of the Arctic copepod Calanus glacialis in Fram Strait. Marine Biology, Berlin 94(1):11-17, figs. 1-6, tab. 1. (ii.1987), available online at https://doi.org/10.1007/bf00392894 [details] Available for editors

additional source Hirche, H.J. & R.N. Bohrer. (1988). Egg production of Calanus finmarchicus and C. glacialis. In: Hirche, H.J. (ed.). Data Report of RV 'Polarstern' cruise ARK IV/1, 1987 to the Arctic and Polar Fronts. Berichte zur Polarforschung, 226 pp. 44:222-223., available online at https://doi.org/10.2312/BzP_0044_1988 [details] Available for editors

additional source Bailey, A., P. Thor, H.I. Browman, D.M. Fields, J. Runge, A. Vermont, R. Bjelland, C. Thompson, S. Shema, C.M.F. Durif & H. Hop. (2017). Early life stages of the Arctic copepod Calanus glacialis are unaffected by increased seawater pCO(2). ICES Journal Of Marine Science. 74(4):996-1004., available online at https://doi.org/10.1093/icesjms/fsw066 [details] Available for editors

additional source Frank-Gopolos, T., E.F. Møller & T.G. Nielsen. (2017). The role of egg cannibalism for the Calanus succession in the Disko Bay, Western Greenland. Limnology And Oceanography. 62(3):865-883., available online at https://doi.org/10.1002/lno.10472 [details] Available for editors

additional source Bailey, A., P. De Wit, P. Thor, H.I. Browman, R. Bjelland, S. Shema, D.M. Fields, J.A. Runge, C. Thompson & H. Hop. (2017). Regulation of gene expression is associated with tolerance of the Arctic copepod Calanus glacialis to CO2-acidified sea water. Ecology And Evolution, 7(18):7145-7160., available online at https://doi.org/10.1002/ece3.3063 [details] Available for editors

additional source Cleary, A.C., J.E. Soreide, D. Freese, B. Niehoff & T.M. Gabrielsen. (2017). Feeding by Calanus glacialis in a high arctic fjord: potential seasonal importance of alternative prey. ICES Journal of Marine Science. 74(7):1937-1946., available online at https://doi.org/10.1093/icesjms/fsx106 [details] Available for editors

additional source Weydmann, A., A. Przylucka, M. Lubosny, K.S. Walczynska, E.A. Serrao, G.A. Pearson & A. Burzynski. (2017). Mitochondrial genomes of the key zooplankton copepods Arctic Calanus glacialis and North Atlantic Calanus finmarchicus with the longest crustacean non-coding regions. Scientific Reports. 7:1-11., available online at https://doi.org/10.1038/s41598-017-13807-0 [details] Available for editors

additional source Bandara, K., O. Varpe, R. Ji & K. Eiane. (2018). A high-resolution modeling study on diel and seasonal vertical migrations of high-latitude copepods. Ecological Modelling, 368:357-376., available online at https://doi.org/10.1016/j.ecolmodel.2017.12.010 [details] Available for editors

additional source Choquet, M., H.J.A. Monteiro, J. Bengtsson-Palme & G. Hoarau. (2017). The complete mitochondrial genome of the copepod Calanus glacialis. Mitochondrial Dna Part B-Resources, 2(2):506-507., available online at https://doi.org/10.1080/23802359.2017.1361357 [details] Available for editors

additional source Elliott, S.M., C.J. Ashjian, Z.X. Feng, B. Jones, C.S. Chen & Y. Zhang. (2017). Physical control of the distributions of a key Arctic copepod in the Northeast Chukchi Sea. Deep-Sea Research Part II Topical Studies in Oceanography. 144:37-51., available online at https://doi.org/10.1016/j.dsr2.2016.10.001 [details] Available for editors

additional source Feng, Z.X., R.B. Ji, C. Ashjian, R. Campbell & J.L. Zhang. (2018). Biogeographic responses of the copepod Calanus glacialis to a changing Arctic marine environment. Global Change Biology, 24(1):E159-E170., available online at https://doi.org/10.1111/gcb.13890 [details] Available for editors

additional source Thor, P., F. Vermandele, M.H. Carignan, S. Jacque & P. Calosi. (2018). No maternal or direct effects of ocean acidification on egg hatching in the Arctic copepod Calanus glacialis. Plos One, 13(2)., available online at https://doi.org/10.1371/journal.pone.0192496 [details] Available for editors

additional source Choquet, M., K. Kosobokova, A. Kwasniewski, M. Hatlebakk, A.K.S. Dhanasiri, W. Melle, M. Daase, C. Svensen, J.E. Soreide & G. Hoarau (2018). Can morphology reliably distinguish between the copepods Calanus finmarchicus and C. glacialis, or is DNA the only way? Limnology And Oceanography Methods. 16(4):237-252., available online at https://doi.org/10.1002/lom3.10240 [details] Available for editors

additional source Espinasse, B., V. Tverberg, J.A. Kristensen, S. Skreslet & K. Eiane. (2018). Winter mortality in Calanus populations in two northern Norwegian fjords from 1984 to 2016. Polar Biology. 41(7):1405-1415., available online at https://doi.org/10.1007/s00300-018-2294-5 [details] Available for editors

additional source Toxvaerd, K., M. Pancic, H.O. Eide, J.E. Soreide, C. Lacroix, S. Le Floch, M. Hjorth & T.G. Nielsen (2018). Effects of oil spill response technologies on the physiological performance of the Arctic copepod Calanus glacialis. Aquatic Toxicology. 199:65-76, available online at https://doi.org/10.1016/j.aquatox.2018.03.032 [details] Available for editors

additional source Weydmann, A., A. Przylucka, M. Lubosny, K.S. Walczynska, E.A. Serrao, G.A. Pearson & A. Burzynski (2018). Postglacial expansion of the Arctic keystone copepod Calanus glacialis. Marine Biodiversity. 48(2):1027-1035, available online at https://doi.org/10.1007/s12526-017-0774-4 [details] Available for editors

additional source Toxvaerd, K., K.V. Dinh, O. Henriksen, M. Hjorth & T.G. Nielsen. (2018). Impact of pyrene exposure during overwintering of the arctic copepod Calanus glacialis. Environmental Science & Technology. 52(18):10328-10336., available online at https://doi.org/10.1021/acs.est.8b03327 [details] Available for editors

additional source Hatlebakk, M., M. Graeve, L. Boissonnot & J.E. Søreide. (2019). Lipid storage consumption and feeding ability of Calanus glacialis Jaschnov, 1955 males. Journal Of Experimental Marine Biology And Ecology. 521:1-10., available online at https://doi.org/10.1016/j.jembe.2019.151226 [details] Available for editors

additional source Skottene, E., A.M. Tarrant, A.J. Olsen, D. Altin, M.A. Ostensen, B.H. Hansen, M. Choquet, B.M. Jenssen & R.E.R. Olsen. (2019). The beta-oxidation pathway is downregulated during diapause termination in Calanus copepods. Scientific Reports, 9:1-13., available online at https://doi.org/10.1038/s41598-019-53032-5 [details] Available for editors

additional source Schmid, M.S. & K. Fortier. (2019). The intriguing co-distribution of the copepods Calanus hyperboreus and Calanus glacialis in the subsurface chlorophyll maximum of Arctic seas. Elementa-Science Of The Anthropocene. 7:1-17., available online at https://doi.org/10.1525/elementa.388 [details]

additional source Freese, D., B. Niehoff, J.E. Søreide & F.J. Sartori. (2015). Seasonal patterns in extracellular ion concentrations and pH of the Arctic copepod Calanus glacialis. Limnology And Oceanography. 60(6):2121-2129., available online at https://doi.org/10.1002/lno.10158 [details] Available for editors

additional source Ershova, E.A., K.N. Kosobokova, N.S. Banas, I. Ellingsen, B. Niehoff, N. Hildebrandt & H.J. Hirche. (2021). Sea ice decline drives biogeographical shifts of key Calanus species in the central Arctic Ocean. Global Change Biology. 27(9):1-16 Mar 2021., available online at https://doi.org/10.1111/gcb.15562 [details] Available for editors

additional source Choquet, M., G. Burckard, S. Skreslet, G. Hoarau & J.E. Soreide. (2021). No evidence for hybridization between Calanus finmarchicus and Calanus glacialis in a subarctic area of sympatry. Limnology and Oceanography. 66:314-325. JAN 2021., available online at https://doi.org/10.1002/lno.11583 [details] Available for editors

additional source Smolina, I. (2015). Calanus in the North Atlantic: species identiﬁcation, stress response, and population genetic structure. Ph.D. Thesis, University of Nordland, Norway. 15:1-64. [details] Available for editors

additional source Freese, D. (2015). Life history traits of copepods in a changing Arctic - Seasonal patterns in the physiology of Calanus glacialis. Ph.D. Thesis, Universitat Bremen, Germany. 156 pp. [details] Available for editors

additional source Tarrant, A.M., L.B. Eisner & D.G. Kimmel. (2021). Lipid-related gene expression and sensitivity to starvation in Calanus glacialis in the eastern Bering Sea. Marine Ecology Progress Series. 674:73-88. Sep 2021., available online at https://doi.org/10.3354/meps13820 [details] Available for editors

additional source Parent, G.J., S. Plourde, H.I. Browman, J. Turgeon & A. Petrusek. (2021). Defining what constitutes a reliable dataset to test for hybridization and introgression in marine zooplankton: Comment on Choquet et al. 2020 'No evidence for hybridization between Calanus finmarchicus and C. glacialis in a subarctic area of sympatry'. Limnology and Oceanography. 66(10):3597-3602. Oct 2021., available online at https://doi.org/10.1002/lno.11725 [details] Available for editors

additional source Lizano, A.M., I. Smolina, M. Choquet, M. Kopp & G. Hoarau. (2022). Insights into the species evolution of Calanus copepods in the northern seas revealed by de novo transcriptome sequencing. Ecology And Evolution. 12(2):1-15. e8606. Feb 2022., available online at https://doi.org/10.1002/ece3.8606 [details] Available for editors

additional source Swalethorp, R., S. Kjellerup, M. Dünweber, T.G. Nielsen, E.F. Møller, S. Rysaard & B.W. Hansen. (2011). Grazing, egg production, and biochemical evidence of differences in the life strategies of Calanus finmarchicus, C. glacialis and C. hyperboreus in Disko Bay, western Greenland. Marine Ecology Progress Series. 429:125-144., available online at https://doi.org/10.3354/meps09065 [details] Available for editors

additional source Hatlebakk, M., B. Niehoff, M. Choquet, H. Hop, A. Wold, G. Hoarau & J.E. Søreide. (2022). Seasonal Enzyme Activities of Sympatric Calanus glacialis and C. finmarchicus in the High-Arctic. Frontiers In Marine Science. 9:1-13. 877904 . Jun 2022., available online at https://doi.org/10.3389/fmars.2022.877904 [details] Available for editors

additional source Yadetie, F., N.R. Brun, J. Giebichenstein, K. Dmoch, K. Hylland, K. Borga, O.A. Karlsen & A. Goksøyr. (2022). Transcriptome responses in copepods Calanus finmarchicus, Calanus glacialis and Calanus hyperboreus exposed to phenanthrene and benzo[a]pyrene. Marine Genomics. 65:1-13. 100981. Oct 2022., available online at https://doi.org/10.1016/j.margen.2022.100981 [details] Available for editors

additional source Rossel, S., P. Kaiser, M. Bode-Dalby, J. Renz, S. Laakmann, H. Auel, W. Hagen, P. Martínez Arbizu & J. Peters. (2022). Proteomic fingerprinting enables quantitative biodiversity assessments of species and ontogenetic stages in Calanus congeners (Copepoda, Crustacea) from the Arctic Ocean. Molecular Ecology Resources. 22(9):1-14. Sep 2022., available online at https://doi.org/10.1111/1755-0998.13714 [details] Available for editors

additional source Weydmann-Zwolicka, A., F. Cottier, J. Berge, S. Majaneva, P. Kuklinnski & A. Zwolicki. (2022). Environmental niche overlap in sibling planktonic species Calanus finmarchicus and C. glacialis in Arctic fjords. Ecology And Evolution. 12(12): e9569. Dec 2022., available online at https://doi.org/10.1002/ece3.9569 [details] Available for editors

additional source Yurikova D.A., K.N. Kosobokova & A.V. Savchenko. (2023). Investigation of the reproductive system in calanoid copepods: A new approach using 3D reconstructions from serial semi-thin crosssections in Calanus glacialis and Metridia longa. Arthropod Structure & Development. 73(12-14):1-9. 101249., available online at https://doi.org/10.1016/j.asd.2023.101249 [details] Available for editors

additional source Schmid, M. (2017). The race for lipids : ontogeny of the fine-scale vertical co-distribution of arctic calanoid copepods and their phytoplankton food as elucidated by artificial intelligence coupled with an imaging profiler. Thèse de Doctorat, Université Laval, Montréal, Québec, Canada. 131 pp. [details] Available for editors

additional source Parent, G. (2013). Hybridation entre Calanus finmarchicus et C. glacialis (Copepoda). [Hybridization between Calanus finmarchicus and C. glacialis (Copepoda).]. Ph.D. Thesis, Université Laval, Québec City, Québec, Canada. 110 pp. [In French; English abstract]. [details] Available for editors

additional source Bergentz, S.H.A. (2016). Produced water components: uptake kinetics and effects on the metabolism of the Arctic copepod Calanus glacialis. Norwegian University of Science and Technology, Trondheim, Norway. 66 pp., available online at http://hdl.handle.net/11250/2433560 [details] Available for editors

additional source Møller, E.F., P. Thor & T.G. Nielsen. (2003). Production of DOC by the copepods Calanus finmarchicus, C. glacialis and C. hyperboreus through sloppy feeding and leakage from fecal pellets. Marine Ecology Progress Series. 262:185-191. [details] Available for editors

additional source Park, Y.K., C.E. Lee, H.S. Lee, H.Y. Koh, S.J. Kim, S.G. Lee, J.E. Kim, J.H. Yim, J.M. Hong, R.O. Kim, S.J. Han & I.C. Kim. (2020). The Effect of Translationally Controlled Tumor Protein (TCTP) of the Arctic Copepod Calanus glacialis on Protecting Escherichia coli Cells against Oxidative Stress. Journal of Life Science. 30(11):931-938., available online at https://doi.org/10.5352/JLS.2020.30.11.931 [details] Available for editors

additional source Balazy, K.. E. Trudnowska, K. Wojczulanis-Jakubas, D. Jakubas, K. Praebel, M. Choquet, M.M. Brandner, M. Schultz, J. Bitz-Thorsen, R. Boehnke, M. Szeligowska, S. Descamps, H.Strom & K. Blachowiak-Samolyk. (2023). Molecular tools prove little auks from Svalbard are extremely selective for Calanus glacialis even when exposed to Atlantification. Scientific Reports. 13(1): 1-15. Aug 2023., available online at https://doi.org/10.1038/s41598-023-40131-7 [details] Available for editors

additional source Sullaway, G.H., C. Cunningham, D.G. Kimmel, J.M. Nielsen, D. Pilcher, A.I. Pinchuk & P.J. Stabeno. (2025). Impacts of climate change on Bering Sea copepod phenology and reproductive strategy. Marine Ecology Progress Series. 755:45-61. Feb 2025., available online at https://doi.org/10.3354/meps14796 [details] Available for editors

additional source Trudnowska, E., A. Bukhari, M. Gluchowska, M. Schultz, I. Smolina, J. Ston-Egiert, J. Swiezewski & K. Balazy. (2025). From Pixels to Patterns: Trait Plasticity and Species Overlap of Calanus spp. in Arctic Fjords. Ecology And Evolution. 15(5):1-17. May 2025., available online at https://doi.org/10.1002/ece3.71366 [details] Available for editors

additional source Jaschnov, V.A. (1972). On the systematic status of Calanus glacialis, Calanus finmarchicus and Calanus helgolandicus. Crustaceana, Leiden 22(3):279-284, figs. 1-3, tab. 1. (1-vi-1972), available online at https://doi.org/10.1163/156854072x00561 [details] Available for editors

additional source Jaschnov, V.A. (1974). O sistematicheskom statuse tikhookeanskikh Calanus glacialis, Calanus sinicus i Calanus orientalis. [On the systematic status of Pacific Calanus glacialis, C. sinicus and C. orientalis sp. n.]. Zoologicheskii Zhurnal. 54(1):32-39, figs. 1-4. (30-xii-1974, Russian with English summary). [details] Available for editors

additional source Kiørboe, T. & M. Sabatini. (1994). Reproductive and life cycle strategies in egg-carrying cyclopoid and free-spawning calanoid copepods. Journal of Plankton Research 16(10):1353-1366., available online at https://doi.org/10.1093/plankt/16.10.1353 [details] Available for editors

additional source Kosobokova, K.N. (1998). Novyye dannyye o zhiznennom tsikle Calanus glacialis v Belom more (po dannym sezonnykh nablyudeniy za razvitiyem yego polovoy sistemy). [New data on the life cycle of Calanus glacialis in the White Sea (based on the seasonal observations of the development of its genital system).]. Okeanologiya. 38(3):387-396. (v-vi.1998; Russian). [details] Available for editors

additional source Kosobokova, K.N. (1999). The reproductive cycle and life history of the Arctic copepod Calanus glacialis in the White Sea. Polar Biology 22(4):254-263. (x.1999), available online at https://doi.org/10.1007/s003000050418 [details] Available for editors

additional source Madsen, S.D., T.G. Nielsen & B.W. Hansen. (2001). Annual population development and production by Calanus finmarchicus, C. glacialis and C. hyperboreus in Disko Bay, western Greenland. Marine Biology, Berlin 139(1):75-93., available online at https://doi.org/10.1007/s002270100552 [details] Available for editors

additional source Melle, W. & H.R. Skjoldal. (1998). Reproduction and development of Calanus finmarchicus, C. glacialis and C. hyperboreus in the Barents Sea. Marine Ecology Progress Series 169:211-228. (6.viii.1998), available online at https://doi.org/10.3354/meps169211 [details] Available for editors

additional source Matthews, J.B.L. (1966). Experimental investigations of the systematic status of Calanus finmarchicus and C. glacialis (Crustacea, Copepoda). In: Barnes, H. (ed.). Some contemporary studies in marine science. George Allen & Unwin Ltd., London :479-492. [details] Available for editors

additional source Matthews, J.B.L. (1966). The systematic status of Calanus finmarchicus, C. helgolandicus and C. glacialis. Reports of the Challenger Society 3(18):40. [details] Available for editors

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additional source Perueva, E.G. & V.Y. Vilenkin. (1970). Pitanie Calanus glacialis (Yashnov) Pri Raznoi Kontsentratsii Vodoroslei. [Feeding of Calanus glacialis (Jashnov) under Various Concentrations of Algae.]. Doklady Akademii Nauk SSSR,. 194(4): 943-945, figs. 1-2, tab. 1. (2-X-1970, Russian). [details]

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additional source Tande, K.S. & U. Bamstedt. (1985). Grazing rates of the copepods Calanus glacialis and C. finmarchicus in arctic waters of the Barents Sea. Marine Biology, Berlin 87(3):251-258, figs. 1-8, tabs. 1-3. (vii-1985), available online at https://doi.org/10.1007/bf00397802 [details] Available for editors

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redescription Eilertsen, H.C., K.S. Tande & J.P. Taasen. (1989). Vertical distribution of primary production and grazing by Calanus glacialis Jaschnov and C. hyperboreus Kroyer in Arctic waters (Barents Sea). Polar Biology 9(4):253-260, figs. 1-6, tabs. 1-5., available online at https://doi.org/10.1007/bf00263773 [details] Available for editors

redescription Arnkvaern, G., M. Daase & K. Eiane. (2005). Dynamics of coexisting Calanus finmarchicus, Calanus glacialis and Calanus hyperboreus populations in a high-Arctic fjord. Polar Biology. 28(7):528-538., available online at https://doi.org/10.1007/s00300-005-0715-8 [details] Available for editors

ecology source Brun, P., M.R. Payne & T. Kiørboe. (2017). A trait database for marine copepods. Earth System Science Data. 9(1):99-113., available online at https://doi.org/10.5194/essd-9-99-2017 [details] Available for editors