Advanced search
Publication Cover
Polar Research Volume 37, 2018 - Issue 1
Journal homepage
3,676
Views
0
CrossRef citations to date
0
Altmetric
Research Articles

Large versus small zooplankton in relation to temperature in the Arctic shelf region

Kaja BalazyDepartment of Marine Ecology, Institute of Oceanology, Polish Academy of Sciences, Sopot, PolandCorrespondence[email protected]
ORCID Iconhttp://orcid.org/0000-0001-5377-3574View further author information
ORCID Icon,
Emilia TrudnowskaDepartment of Marine Ecology, Institute of Oceanology, Polish Academy of Sciences, Sopot, PolandORCID Iconhttp://orcid.org/0000-0003-3471-6632View further author information
ORCID Icon,
Marcin WichorowskiDepartment of Marine Ecology, Institute of Oceanology, Polish Academy of Sciences, Sopot, PolandORCID Iconhttp://orcid.org/0000-0002-1498-9492View further author information
ORCID Icon &
Katarzyna Błachowiak-SamołykDepartment of Marine Ecology, Institute of Oceanology, Polish Academy of Sciences, Sopot, PolandView further author information
Article: 1427409 | Published online: 12 Feb 2018

References

  • Alcaraz M., Felipe J., Grote U., Arashkevich E. & Nikishina A. 2014. Life in a warming ocean: thermal thresholds and metabolic balance of Arctic zooplankton. Journal of Plankton Research 36, 3–12.
  • Basedow S., Zhou M. & Tande K.S. 2014. Secondary production at the Polar Front, Barents Sea, August 2007. Journal of Marine Systems 130, 147–159.
  • Basedow S.L., Tande K.S. & Zhou M. 2010. Biovolume spectrum theories applied: spatial patterns of trophic levels within a mesozooplankton community at the polar front. Journal of Plankton Research 32, 1105–1119.
  • Beaugrand G., Reid P.C., Ibañez F., Lindley A. & Edwards M. 2002. Reorganization of North Atlantic marine copepod biodiversity and climate. Science 296, 1692–1694.
  • Blachowiak-Samolyk K., Søreide J.E., Kwasniewski S., Sundfjord A., Hop H., Falk-Petersen S. & Nøst Hegseth E. 2008. Hydrodynamic control of mesozooplankton abundance and biomass in northern Svalbard waters (79–81°N). Deep Sea Research Part II: Topical Studies in Oceanography II 55, 2210–2224.
  • Blindheim J., Borokov V., Hansen B., Malmberg S.A., Turrell W.R. & Østerhus S. 2000. Upper layer cooling and freshing in the Norwegian Sea in relation to atmospheric forcing. Deep Sea Research Part I: Oceanographic Research Papers 47, 655–680.
  • Bohrer R.N. 1980. Experimental studies on diel vertical migration. In W.C. Kerfoot (ed.): Evolution and ecology of zooplankton communities. Pp. 111–121. London: University Press of New England.
  • Broms C., Melle W. & Kaartvedt S. 2009. Oceanic distribution and life cycle of Calanus species in the Norwegian Sea and adjacent waters. Deep Sea Research Part II: Topical Studies in Oceanography II 56, 1910–1921.
  • Brown Z.W., Welcker J., Harding A.M.A., Walkusz W. & Karnovsky N.J. 2012. Divergent diving behavior during short and long trips of a bimodal forager, the little auk Alle alle. Journal of Avian Biology 43, 215–226.
  • Buchholz F., Werner T. & Buchholz C. 2012. First observation of krill spawning in the High Arctic Kongsfjorden, west Spitsbergen. Polar Biology 35, 1273–1279.
  • Carstensen J., Weydmann A., Olszewska A. & Kwasniewski S. 2012. Effects of environmental conditions on the biomass of Calanus spp. in the Nordic Seas. Journal of Plankton Research 34, 951–966.
  • Colwell R.K., Mao C.X. & Chang J. 2004. Interpolating, extrapolating and comparing incidence-based species accumulation curves. Ecology 85, 2717–2727.
  • Conover R.J. & Huntley M. 1991. Copepods in ice-covered seas – distribution, adaptations to seasonally limited food, metabolism, growth patterns and life cycle strategies in polar seas. Journal of Marine Research 2, 1–41.
  • Daase M. & Eiane K. 2007. Mesozooplankton distribution in northern Svalbard waters in relation to hydrography. Polar Biology 30, 969–981.
  • Daase M., Eiane K., Aksnes D.L. & Vogedes D. 2008. Vertical distribution of Calanus spp. and Metridia longa at four Arctic locations. Marine Biology Research 4, 193–207.
  • Daase M., Falk-Petersen S., Varpe Ø., Darnis G., Søreide J.E., Wold A., Leu E., Berge J., Philippe B. & Fortier L. 2013. Timing of reproductive events in the marine copepod Calanus glacialis: a pan-Arctic perspective. Canadian Journal of Fisheries and Aquatic Sciences 70, 871–884.
  • Dale T., Kaartvedt S., Ellertsen B. & Amundsen R. 2001. Large-scale oceanic distribution and population structure of Calanus finmarchicus, in relation to physical environment, food and predators. Marine Biology 139, 561–574.
  • Dalpadado P., Ingvaldsen R.B., Stige L.C., Bogstad B., Knutsen T., Ottersen G. & Ellertsen B. 2012. Climate effects on Barents Sea ecosystem dynamics. ICES Journal of Marine Science 69, 1303–1316.
  • Daro M.H. 1988. Migratory and grazing behavior of copepods and vertical distributions of phytoplankton. Bulletin of Marine Science 43, 710–729.
  • Daufresne M., Lengfellner K. & Sommer U. 2009. Global warming benefits the small in aquatic ecosystems. Proceedings of the National Academy of Sciences of the USA 106, 12788–12793.
  • Espinasse B., Carlotti F., Zhou M. & Devenon J.L. 2014. Defining zooplankton habitats in the Gulf of Lion (NW Mediterranean Sea) using size structure and environmental conditions. Marine Ecology Progress Series 506, 31–46.
  • Falkenhaug T., Tande K.S. & Semenova T. 1997. Diel, seasonal and ontogenic variations in the vertical distribution of four marine copepods. Marine Ecology Progress Series 149, 105–119.
  • Falk-Petersen S., Dahl T.M., Scott C.L., Sargent J.R., Gulliksen B., Kwasniewski S., Hop H. & Millar R.M. 2002. Lipid biomarkers and trophic linkages between ctenophores and copepods in Svalbard waters. Marine Ecology Progress Series 227, 187–194.
  • Falk-Petersen S., Haug T., Hop H., Nilssen K.T. & Wold A. 2009. Transfer of lipids from plankton to bubbler of harp and hooded seals off East Greenland. Deep Sea Research Part II: Topical Studies in Oceanography 56, 2080–2086.
  • Falk-Petersen S., Sargent J.R. & Hopkins C.C.E. 1990. Trophic relationships in the pelagic Arctic food web. In  M. Barnes & R.N. Gibson (eds.): Trophic relationships in the marine environment. Pp. 315–333. Aberdeen: Scotland University Press.
  • Frandsen M.S., Fort J., Rigét F.F., Galatius A. & Mosbech A. 2014. Composition of chick meals from one of the main little auk (Alle alle) breeding colonies in northwest Greenland. Polar Biology 37, 1055–1060.
  • Gaardsted F., Tande K.S. & Basedow S.L. 2010. Measuring copepod abundance in deep water winter habitats in the NE Norwegian Sea: intercomparison of results from laser optical plankton counter and multinet. Fisheries Oceanography 19, 480–492.
  • Garzke J., Ismar S.M.H. & Sommer U. 2016. Climate change affects low trophic level marine consumers: warming decreases copepod size and abundance. Oecologia 177, 849–860.
  • Gluchowska M., Trudnowska E., Goszczko I., Kubiszyn A.M., Blachowiak-Samolyk K., Walczowski W. & Kwasniewski S. 2017. Variations in the structural and functional diversity of zooplankton over vertical and horizontal environmental gradients en route to the Arctic Ocean through the Fram Strait. PLoS One 12, e0171715, doi: 10.1371/journal.pone.0171715
  • González-Bergonzoni I., Johansen K.L., Mosbech A., Landkildehus F., Jeppesen E. & Davidson T.A. 2017. Small birds, big effects: the little auk (Alle alle) transforms High Arctic ecosystems. Proceedings of the Royal Society B: Biological Sciences 284, 1849.
  • Hallegraeff G.M. 2010. Ocean climate change, phytoplankton community responses, and harmful algal blooms: a formidable predictive challenge. Journal of Phycology 46, 220–235.
  • Haug T., Bogstad B., Chierici M., Gjøsæter H., Hallfredsson E.H., Høines Å.S., Hoel A.H., Ingvaldsen R.B., Jørgensen L.L., Knutsen T., Loeng H., Naustvoll L.J., Røttinger I. & Sunnanå K. 2017. Future harvest of living resources in the Arctic Ocean north of the Nordic and Barents seas: a review of possibilities and constraints. Fisheries Research 188, 38–57.
  • Heckmann L., Drossel B., Brose U. & Guill C. 2012. Interactive effects of body-size structure and adaptive foraging on food-web stability. Ecology Letters 15, 243–250.
  • Herman A.W. 1992. Design and calibration of a new optical plankton counter capable of sizing small zooplankton. Deep Sea Research Part A: Oceanographic Research Papers 39, 395–415.
  • Herman A.W., Beanlands B. & Phillips E.F. 2004. The next generation of Optical Plankton Counter: the Laser-OPC. Journal of Plankton Research 26, 1135–1145.
  • Houghton J.T., Ding Y., Griggs D.J., Noguer N., van der Linden P.J., Xiaosu D., Maskell K. & Johnson C.A. (eds.) 2001. Climate change 2001: the scientific basis. Contribution of Working Group I to the third assessment report of the Intergovernmental Panel on Climate Change. Cambridge: Cambridge University Press.
  • Hovinen J.E.H., Wojczulanis-Jakubas K., Jakubas D., Hop H., Berge J., Kidawa D., Karnovsky N.J. & Steen H. 2014. Fledging success of little auks in the High Arctic: do provisioning rates and the quality of foraging grounds matter? Polar Biology 37, 665–674.
  • Huntley M.E. & Lopez M.D.G. 1992. Temperature-dependent production of marine copepods: a global synthesis. The American Naturalist 140, 201–242.
  • Jackson G.A., Maffione R., Costello D.K., Alldredge A.L., Logan B.E. & Dam H.G. 1997. Particle size spectra between 1 μm and 1 cm at Monterey Bay determined using multiple instruments. Deep Sea Research Part I: Oceanographic Research Papers I 44, 1739–1767.
  • Jakubas D., Trudnowska E., Wojczulanis-Jakubas K., Iliszko L., Kidawa D., Darecki M., Blachowiak-Samolyk K. & Stempniewicz L. 2013. Foraging closer to the colony leads to faster growth in little auks. Marine Ecology Progress Series 489, 263–278.
  • Jakubas D., Wojczulanis-Jakubas K. & Walkusz W. 2007. Response of dovekie to changes in food availability. Waterbirds 30, 421–428.
  • Ji R., Jin M. & Varpe Ø. 2013. Sea-ice phenology and timing of primary production pulses in the Arctic Ocean. Global Change Biology 19, 734–741.
  • Karnovsky N.J., Harding A.M.A., Walkusz W., Kwasniewski S., Goszczko I., Wiktor Jr. J., Routti H., Bailey A., McFadden L., Brown Z.W., Beaugrand G. & Grémillet D. 2010. Foraging distributions of little auks Alle alle across the Greenland Sea: implications of present and future Arctic climate change. Marine Ecology Progress Series 415, 283–293.
  • Karnovsky N.J., Kwasniewski S., Weslawski J.M., Walkusz W. & Beszczynska-Möller A. 2003. The foraging behavior of little auks in a heterogeneous environment. Marine Ecology Progress Series 253, 289–303.
  • Kosobokova K.N. 1999. The reproductive cycle and life history of the Arctic copepod Calanus glacialis in the White Sea. Polar Biology 22, 254–263.
  • Kwasniewski S., Gluchowska M., Jakubas D., Wojczulanis-Jakubas K., Walkusz W., Karnovsky N.J., Blachowiak-Samolyk K., Cisek M. & Stempniewicz L. 2010. The impact of different hydrographic conditions and zooplankton communities on provisioning dovekies along the West coast of Spitsbergen. Progress in Oceanography 87, 72–82.
  • Kwasniewski S., Gluchowska M., Walkusz W., Karnovsky N.J., Jakubas D., Wojczulanis-Jakubas K., Harding A.M.A., Goszczko I., Cisek M., Beszczynska-Möller A., Walczowski W., Weslawski J.M. & Stempniewicz L. 2012. Interannual changes in zooplankton on the West Spitsbergen Shelf in relation to hydrography and their consequences for the diet of planktivorous seabirds. Journal of Marine Science 69, 890–901.
  • Lee R.F., Hagen W. & Kattner G. 2006. Lipid storage in marine zooplankton. Marine Ecology Progress Series 307, 273–306.
  • Leising A.W. & Franks P.J.S. 2000. Copepod vertical distribution within a spatially variable food source: a simple foraging-strategy model. Journal of Plankton Research 22, 999–1024.
  • Mackas D.L., Batten S. & Trudel M. 2007. Effects on zooplankton of a warmer ocean: recent evidence from the Northeast Pacific. Progress in Oceanography 75, 223–252.
  • Mackas D.L., Pepin P. & Verheye H. 2012. Interannual variability of marine zooplankton and their environments: within- and between-region comparisons. Progress in Oceanography 97-100, 1–14.
  • Manly B.J.F. 1977. A further note on Kiritani and Nakasuji’s model for stage frequency data including comments on the use of Tukey’s jackknife technique for estimating variances. Researches on Population Ecology 18, 177–186.
  • Matsuno K., Abe Y., Yamaguchi A. & Kikuchi T. 2016. Regional patterns and controlling factors on summer population structure of Calanus glacialis in the western Arctic Ocean. Polar Science 10, 503–510.
  • Mehlum F. & Gabrielsen G.W. 1993. The diet of High Arctic seabirds in coastal and ice-covered, pelagic areas near the Svalbard Archipelago. Polar Research 11, 1–20.
  • Møller E.F., Maar M., Jónasdóttir S.H., Nielsen T.G. & Tönnesson K. 2012. The effect of changes in temperature and food on the development of Calanus finmarchicus and Calanus helgolandicus populations. Limnology and Oceanography 57, 211–220.
  • Nilsen F., Cottier F., Skogseth R. & Mattson S. 2008. Fjord–shelf exchanges controlled by ice and brine production: the interannual variation of Atlantic Water in Isfjorden, Svalbard. Continental Shelf Research 28, 1838–1853.
  • Pearre S. 2003. Eat and run? The hunger/satiation hypothesis in vertical migration: history, evidence and consequences. Biological Reviews of the Cambridge Philosophical Society 78, 1–79.
  • Pinca S. & Huntley M.E. 2000. Spatial organization of particle size composition in an eddy-jet system off California. Deep Sea Research Part I: Oceanographic Research Papers 47, 973–996.
  • Post E. 2017. Implications of earlier sea ice melt for phenological cascades in Arctic marine food webs. Food Webs 13, 60–66.
  • Post E., Bhatt U.S., Bitz C.M., Brodie J.F., Fulton T.L., Hebblewhite M., Kerby J., Kutz S.J., Stirling I. & Walker D.A. 2013. Ecological consequences of sea-ice decline. Science 341, 519–524.
  • Sakshaug E., Johnsen G. & Kovacs K. 2009. Ecosystem Barents Sea. Trondheim: Tapir Academic Press.
  • Saloranta E. & Svendsen H. 2001. Across the Arctic Front west of Spitsbergen: high-resolution CTD sections from 1998-2000. Polar Research 20, 174–184.
  • Schauer U., Fahrbach E., Østerhus S. & Rohardt G. 2004. Arctic warming through the Fram Strait – oceanic heat transport from three years of measurements. Journal of Geophysical Research—Oceans 109, C06026, doi: 10.1029/203JC001823
  • Schlitzer R. 2015. Ocean data view software package, version 4.7.2. Accessed at http://odv.awi.de.
  • Schultes S. & Lopes R.M. 2009. Laser optical Plankton Counter and Zooscan intercomparison in tropical and subtropical marine ecosystems. Limnology and Oceanography: Methods 7, 771–784.
  • Scott C.L., Kwasniewski S., Falk-Petersen S. & Sargent J.R. 2000. Lipids and life strategies of Calanus finmarchicus, Calanus glacialis and Calanus hyperboreus in late autumn, Konsgsfjorden, Svalbard. Polar Biology 23, 510–516.
  • Slagstad D., Ellingsen I.H. & Wassmann P. 2011. Evaluating primary and secondary production in an Arctic Ocean void of summer sea ice: an experimental simulation approach. Progress in Oceanography 90, 117–131.
  • Stempniewicz L. 2001. Alle alle little auk. BWP Update. The Journal of Birds of the Western Palearctic 3, 175–201.
  • Stempniewicz L., Darecki M., Trudnowska E., Blachowiak-Samolyk K., Boehnke R., Jakubas D., Keslinka-Nawrot L., Kidawa D., Sagan S. & Wojczulanis-Jakubas K. 2013. Visual prey availability and distribution of foraging little auks (Alle alle) in the shelf waters of West Spitsbergen. Polar Biology 36, 949–955.
  • Svensen C., Seuthe L., Vasilyeva Y., Pasternak A. & Hansen E. 2011. Zooplankton distribution across Fram Strait in autumn: are small copepods and protozooplankton important? Progress in Oceanography 91, 534–544.
  • Taylor A.H., Allen I. & Clark P.A. 2002. Extraction of a weak climatic signal by an ecosystem. Nature 416, 629–632.
  • Trudnowska E., Basedow S. & Blachowiak-Samolyk K. 2014. Mid-summer mesozooplankton biomass, its size distribution, and estimated production within glacial Arctic fjord (Hornsund, Svalbard). Journal of Marine Systems 137, 55–66.
  • Trudnowska E., Gluchowska M., Beszczynska-Möller A., Blachowiak-Samolyk K. & Kwasniewski S. 2016. Plankton patchiness in the Polar Front region of the West Spitsbergen Shelf. Marine Ecology Progress Series 560, 1–18.
  • Trudnowska E., Sagan S., Kwasniewski S., Darecki M. & Blachowiak-Samaolyk K. 2015. Fine-scale zooplankton vertical distribution in relation to hydrographic and optical characteristics of the surface waters on the Arctic shelf. Journal of Plankton Research 37, 120–133.
  • Trudnowska E., Szczucka J., Hoppe L., Boehnke R., Hop H. & Blachowiak-Samolyk K. 2012. Multidimensional zooplankton observation on the northern West Spitsbergen Shelf. Journal of Marine Systems 98-99, 18–25.
  • Vinogradov G.M. 1997. Some problems of vertical distribution of meso- and macroplankton in the ocean. Advances in Marine Biology 32, 1–92.
  • Vogedes D., Eiane K., Båtnes A.S. & Berge J. 2014. Variability in Calanus spp. abundance on fine-to mesoscales in an Arctic fjord: implications for little auk feeding. Marine Biology Research 10, 437–448.
  • Walczowski W., Beszczynska-Möller A., Wieczorek P., Merchel M. & Grynczel A. 2017. Oceanographic observations in the Nordic Sea and Fram Strait in 2016 under the IO PAN long-term monitoring program AREX. Oceanologia 59, 187–194.
  • Walczowski W. & Piechura J. 2007. Pathways of the Greenland Sea warming. Geophysical Research Letters 34, L10608.
  • Walczowski W., Piechura J., Goszczko I. & Wieczorek P. 2012. Changes in Atlantic Water properties: an important factor in the European Arctic marine climate. ICES Journal of Marine Science 69, 864–869.
  • Weslawski J.M., Stempniewicz L., Mehlum F. & Kwasniewski S. 1999. Summer feeding strategy of the little auk Alle alle from Bjørnøya, Barents Sea. Polar Biology 21, 129–134.
  • Weydmann A., Carstensen J., Goszczko I., Dmoch K., Olszewska A. & Kwasniewski S. 2014. Shift towards the dominance of boreal species in the Arctic: inter-annual and spatial zooplankton variability in the West Spitsbergen Current. Marine Ecology Progress Series 501, 41–52.
  • Weydmann A. & Kwasniewski S. 2008. Distribution of Calanus populations in a glaciated fjord in the Arctic (Hornsund, Spitsbergen) – the interplay between biological and physical factors. Polar Biology 31, 1023–1035.
  • Wiebe P.H. & Benfield M.C. 2003. From the Hensen net toward four-dimensional biological oceanography. Progress in Oceanography 56, 7–136.
  • Woodworth-Jefcoats P.A., Polovina J.J. & Drazen J.C. 2016. Climate change is projected to reduce carrying capacity and redistribute species richness in North Pacific pelagic marine ecosystems. Global Change Biology 23, 1000–1008.
  • Zhou M., Tande K.S., Zhu Y. & Basedow S. 2009. Productivity, trophic levels and size spectra of zooplankton in northern Norwegian shelf regions. Deep Sea Research Part II: Topical Studies in Oceanography II 56, 1934–1944.

Related research

People also read lists articles that other readers of this article have read.

Recommended articles lists articles that we recommend and is powered by our AI driven recommendation engine.

Cited by lists all citing articles based on Crossref citations.
Articles with the Crossref icon will open in a new tab.