Abstract
Increased public awareness of the global significance of polar regions and opening of the Russian Arctic to foreign researchers have led to a pronounced intensification of benthic research in Arctic seas. The wealth of information gathered in these efforts has markedly enhanced our knowledge on the Arctic benthos. While some scientific concepts have been corroborated by the novel findings (e.g., low endemism and high faunistic affinity to northern Atlantic assemblages), other common notions need to be revised, particularly with regard to the often-cited differences between Arctic seas and the Southern Ocean. It has been demonstrated that benthos assemblages vary broadly in diversity between Arctic regions and that, hence, the idea of a consistently poor Arctic benthos—being in stark contrast to the rich Antarctic bottom fauna—is an undue overgeneralization. In terms of biogeographic diversity, both Arctic and Antarctic waters seem to be characterized by intermediate species richness. Levels of disturbance—a major ecological agent known to heavily affect benthic diversity and community structure—have been assumed to be relatively high in the Arctic but exceptionally low in the Southern Ocean. The discovery of the great role of iceberg scouring in Antarctic shelf ecosystems, which has largely been overlooked in the past, calls for a reconsideration of this notion. The novel data clearly demonstrate that there are marked differences in geographical and environmental setting, impact of fluvial run-off, pelagic production regime, strength of pelago–benthic coupling and, hence, food supply to the benthos among the various Arctic seas, impeding the large-scale generalization of local and regional findings. Field evidence points to the great significance of meso-scale features in hydrography and ice cover (marginal ice zones, polynyas, and gyres) as ‘hot spots’ of tight pelago–benthic coupling and, hence, high benthic biomass. In contrast, the importance of terrigenic organic matter discharged to the Arctic seas through fluvial run-off as an additional food source for the benthos is still under debate. Studies on the partitioning of energy flow through benthic communities strongly suggest that megafauna has to be adequately considered in overall benthic energy budgets and models of carbon cycling, particularly in Arctic shelf systems dominated by abundant echinoderm populations. Much progress has been made in the scientific exploration of the deep ice-covered Arctic Ocean. There is now evidence that it is one order of magnitude more productive than previously thought. Therefore, the significance of shelf–basin interactions, i.e., the importance of excess organic carbon exported from productive shelves to the deep ocean, is still debated and, hence, a major topic of on-going research. Another high-priority theme of current/future projects are the ecological consequences of the rapid warming in the Arctic. Higher water temperatures, increased fluvial run-off and reduced ice cover will give rise to severe ecosystem changes, propagating through all trophic levels. It is hypothesized that there would be a shift in the relative importance of marine biota in the overall carbon and energy flux, ultimately resulting in a switch from a ‘sea-ice algae–benthos’ to a ‘phytoplankton–zooplankton’ dominance.
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References
Aagaard K, Swift JH, Carmack EC (1985) Thermohaline circulation in the Arctic Mediterranean seas. J Geophys Res 90:4833–4846
Ambrose Jr WG, Clough LM, Tilney PR, Beer L (2001) Role of echinoderms in benthic remineralization in the Chukchi Sea. Mar Biol 139:937–949
Ambrose Jr WG, Renaud PE (1995) Benthic response to water column productivity patterns: evidence for benthic-pelagic coupling in the Northeast Water Polynya. J Geophys Res 100:4411–4421
Anderson LG, Björk G, Holby O, Kattner G, Koltermann PK, Jones EP, Liljeblad B, Lindegren R, Rudels B, Swift JH (1994) Water masses and circulation in the Eurasian Basin: results from the Oden 91 North Pole expedition. J Geophys Res 99:3273–3283
Andreassen I, Nöthig E-M, Wassmann P (1996) Vertical particle flux on the shelf off northern Spitsbergen, Norway. Mar Ecol Prog Ser 137:215–228
Anisimova NA (1989) Distributional patterns of echinoderms in the Eurasian sector of the Arctic Ocean. In: Herman Y (ed) The Arctic seas. Van Nostrand, New York, pp 281–301
Anonymous (1991) Mission Statement and Core Programme for the International Arctic Polynya Programme. Joint Oceanographic Institutions, Washington, D.C., 10 pp
Arctic Climate Impact Assessment (ACIA) (2004) Impacts of a warming Arctic. Cambridge University Press, Cambridge, 139 pp
Arntz WE (1995) Antarktisches Benthos: Mythen und Daten. In: Hempel I, Hempel G (eds) Biologie der Polarmeere. Gustav Fischer, Jena, pp 230–239
Arntz WE, Brey T, Gallardo VA (1994) Antarctic zoobenthos. Oceanogr Mar Biol Annu Rev 32:241–304
Arntz WE, Gutt J, Klages M (1997) Antarctic marine biodiversity: an overview. In: Battaglia B, Valencia J, Walton DWH (eds) Antarctic communities: species, structure and survival. Cambridge University Press, Cambridge, pp 3–14
Aronson RB (1989) Brittlestar beds: low-predation anachronisms in the British Isles. Ecology 70:856–865
Ashjian CJ, Smith SL, Bignami F, Hopkins T, Lane PVZ (1997) Distribution of zooplankton in the Northeast Water Polynya during summer 1993. J Mar Syst 10:279–298
Ashjian CJ, Smith SL, Lane PVZ (1995) The Northeast Water Polynya during summer 1992: distribution and aspects of secondary production of copepods. J Geophys Res 100:4371–4388
Bauerfeind E, Bodungen Bv, Arndt K, Koeve W (1994) Particle flux and composition of sedimenting matter in the Greenland Sea. J Mar Syst 5:411–423
Biscaye PE, Flagg CN, Falkowski PG (1994) The shelf edge exchange processes experiment, SEEP-II: an introduction to hypotheses, results and conclusions. Deep-Sea Res II 41:231–252
Blake JA, Diaz RJ (1994) Input, accumulation and cycling of materials on the continental slope off Cape Hatteras: an introduction. Deep-Sea Res II 41:707–710
Bleil U, Thiede J (1990) The geological history of Cenozoic polar oceans: Arctic versus Antarctic—an introduction. In: Bleil U, Thiede J (eds) Geological history of Cenozoic polar oceans: Arctic versus Antarctic. Kluwer, Dordrecht, pp 1–8
Bluhm BA, MacDonald IR, Debenham C, Iken K (2005) Macro- and megabenthic communities in the high Arctic Canada Basin: initial findings. Polar Biol 28:218–231
Bluhm BA, Piepenburg D, Juterzenka Kv (1998) Distribution, standing stock, growth, mortality and production of Strongylocentrotus pallidus (Echinodermata: Echinoidea) in the northern Barents Sea. Polar Biol 20:325–334
Boetius A, Damm E (1998) Benthic oxygen uptake, hydrolytical potentials and microbial biomass at the Arctic continental slope. Deep-Sea Res I 45:239–275
Bourke RH, Newton JL, Paquette RG, Tunnicliffe MD (1987) Circulation and water masses of the East Greenland Shelf. J Geophys Res 92:6729–6740
Brandt A (1995) Peracarid fauna (Crustacea, Malacostraca) of the Northeast Water Polynya off Greenland: documenting close benthic-pelagic coupling in the Westwind Trough. Mar Ecol Prog Ser 121:39–51
Brey T, Clarke A (1993) Population dynamics of marine benthic invertebrates in Antarctic and subantarctic environments: are there unique adaptations? Antarct Sci 5:253–266
Buscail R, Pocklington R, Daumas R, Guidi L (1990) Fluxes and budget of organic matter in the benthic boundary layer over the northwestern Mediterranean margin. Cont Shelf Res 10:1089–1122
Carey Jr AG (1991) Ecology of North American Arctic continental shelf benthos: a review. Cont Shelf Res 11:865–883
Carney RS, Haedrich RL, Rowe GT (1983) Zonation of fauna in the deep sea. In: Rowe GT (ed) The sea, vol. 8: Deep-sea biology. Wiley, New York, pp 371–398
Carroll MK, Carroll J (2003) The Arctic seas. In: Black KD, Shimmield GB (eds) Biogeochemistry of Marine Systems. Blackwell, Sheffield, pp 127–156
Cauwet G, Sidorov I (1996) The biogeochemistry of Lena River: organic carbon and nutrients distribution. Mar Chem 53:211–227
Cavalieri DJ, Gloersen P, Parkinson CL, Comiso JC, Zwally HJ (1997) Observed hemispheric asymmetry in global sea ice changes. Science 278:1104–1106
Christensen JP (1989) Sulfate reduction and carbon oxidation rates in continental shelf sediments, an examination of off-shelf carbon transport. Cont Shelf Res 9:223–246
Christensen JP (2000) A relationship between deep-sea benthic oxygen demand and oceanic primary productivity. Oceanologica Acta 23:65–82
Clarke A (1983) Life in cold water: the physiological ecology of polar marine ectotherms. Oceanogr Mar Biol Annu Rev 21:341–453
Clarke A (1994) Temperature and evolution: southern Ocean cooling and the Antarctic marine fauna. In: Kerry KR, Hempel G (eds) Antarctic ecosystems—ecological change and conservation. Springer, Berlin Heidelberg New York, pp 9–22
Clarke A (2003) Evolution, adaptation and diversity: global ecology in an Antarctic context. in: Huikes AHL, Gieskes WWC, Rozema J, Schorno RML, van der Vries SM, Wolff WJ (eds) Antarctic biology in a global context. Backhuys Publishers, Leiden, pp 3–17
Clarke A, Crame JA (1989) The origin of the Southern Ocean marine fauna. In: Crame JA (ed) Geological Society Special Publication, Vol. 47: Origins and evolution of the Antarctic biota. Geological Society, London, pp 253–268
Clarke A, Johnston NM (2003) Antarctic marine benthic diversity. Oceanogr Mar Biol Annu Rev 41:47–114
Clough LM, Ambrose Jr WG, Ashjian CJ, Piepenburg, D, Renaud PE, Smith SL (1997a) Meroplankton abundance in the Northeast Water Polynya: insights from oceanographic parameters and benthic abundance patterns. J Mar Syst 10:343–357
Clough LM, Ambrose Jr WG, Cochran JK, Barnes C, Renaud PE, Aller RC (1997b) Infaunal density, biomass and bioturbation in the sediments of the Arctic Ocean. Deep-Sea Res 44:1683–1704
Conlan KE, Lenihan HS, Kvitek RG, Oliver JS (1998) Ice scour disturbance to benthic communities in the Canadian High Arctic. Mar Ecol Prog Ser 166:1–16
Cooper LW, Grebmeier JM, Larsen IL, Egorov VG, Theodorakis C, Kelly HP, Lovvorn JR (2002) Seasonal variation in sedimentation of organic materials in the St. Lawrence Island polynya region, Bering Sea. Mar Ecol Prog Ser 226:13–26
Curtis MA (1975) The marine benthos of Arctic and sub-Arctic continental shelves. A review of regional studies and their general results. Polar Rec 17:595–626
Dahm C (1996) Ökologie und Populationsdynamik antarktischer Ophiuroiden (Echinodermata). Ber Polarforsch 194:1–289
Dayton PK (1984) Processes structuring some marine communities: are they general? In: Strong DR, Simberloff D, Lawrence GA, Thistle AB (eds) Ecological communities: conceptual issues and the evidence. Princeton University Press, Princeton, pp 181–197
Dayton PK (1990) Polar benthos. In: Smith Jr WO (ed) Polar oceanography, Part B: Chemistry, biology, and geology. Academic, San Diego, pp 631–685
Dayton PK, Oliver JS (1977) Antarctic soft-bottom benthos in oligotrophic and eutrophic environments. Science 197:55–58
Dayton PK, Tegner MJ (1984) The importance of scale in community ecology: a kelp forest example with terrestrial analogs. In: Price PW, Slobodchikoff CN, Gaud WS (eds) A new ecology: novel approaches to interactive systems. Wiley, New York, pp 457–481
Deming J, Fortier L, Fukuchi M (2002) The International North Water Polynya Study (NOW): a brief overview. Deep-Sea Res II 49:4887–4892
Deubel H (2000) Struktureigenschaften und Nahrungsbedarf der Zoobenthosgemeinschaften im Bereich des Lomonssowrückens im Arktischen Ozean. Ber Polarforsch 370:1–147
Deubel H, Engel M, Fetzer I, Gagaev S, Hirche HJ, Klages M, Larionov V, Lubin P, Lubina O, Nöthig EM, Okolodkov Y, Rachor E (2003) The Kara Sea ecosystem: phytoplankton, zooplankton and benthos communities influenced by river run-off. In: Stein R, Fahl K, Fütterer DK, Galimov EM, Stepanets OV (eds) Siberian river run-off in the Kara Sea: characterisation, quantification, variability, and environmental significance. Elsevier, Amsterdam, pp 237–266
Dickson RR (1999) All change in the Arctic. Nature 397:389–391
Dickson RR, Osborn TJ, Hurrell JW, Meincke J, Blindheim J, Adlandsvik B, et al (2000) The Arctic Ocean response to the North Atlantic Oscillation. J Clim 13:2671–2696
Dunbar MJ (1977) The evolution of polar ecosystems. In: Llano GA (ed) Adaptations within the Antarctic ecosystems. Smithsonian Institution, Washington, pp 1063–1076
Dunton K (1992) Arctic biogeography: the paradox of the marine benthic fauna and flora. Trends Ecol Evol 7:183–189
D’yakonov AM (1967) Ophiuroids of the USSR seas. Israel Program for Scientific Translations, Jerusalem, 123 pp
Fahl K, Cremer H, Erlenkeuser H, Hanssen H, Hölemann J, Kassens H, Knickmeier K, Kosobokova K, Kunz-Pirrung M, Lindemann F, Markhaseva E, Lischka S, Petryashov V, Piepenburg D, Schmid MK, Spindler M, Stein R, Tuschling K (2001) Sources and pathways of organic carbon in the modern Laptev Sea (Arctic Ocean): implications from biological, geochemical and geological data. Polarforschung 69:193–205
Feder HM, Foster NR, Jewett SC, Weingartner TJ, Baxter R (1994a) Mollusks in the Northeastern Chukchi Sea. Arctic 47: 145–163
Feder HM, Jewett CJ, Blanchard A (2005) Southeastern Chukchi Sea (Alaska) epibenthos. Polar Biol 28:402–421
Feder HM, Naidu AS, Jewett SC, Hameedi JM, Johnson WR, Whitledge TE (1994b) The north-eastern Chukchi Sea: benthos-environmental interactions. Mar Ecol Prog Ser 111:171–190
Feder HM, Norton DW, Geller JB (2003) A review of apparent 20th century changes in the presence of mussels (Mytilus trossulus) and macroalgae in Arctic Alaska, and of historical and paleontological evidence used to relate mollusc distributions to climate change. Arctic 56:391–407
Gage JD, Tyler PA (1991) Deep-sea biology: a natural history of organisms at the deep-sea floor. Cambridge University Press, Cambridge
George RY (1977) Dissimilar and similar trends in antarctic and arctic marine benthos. In: Dunbar MJ (ed) Polar oceans. Arctic Institute of North America, Calgary, pp 391–408
Golikov AN (1990) Explorations of the fauna of the seas 37(45): ecosystems of the New Siberian shoals and the fauna of the Laptev Sea and adjacent waters of the Arctic Ocean. Nauka, Moscow
Gosselin M, Levasseur M, Wheeler PA, Horner RA, Booth BC (1997) New measurements of phytoplankton and ice algal production in the Arctic Ocean. Deep-Sea Res II 44:1623–1644
Gould PJ, Forsell DJ, Lensink CJ (1982) Pelagic distribution and abundance of seabirds in the Gulf of Alaska and eastern Bering Sea. US Fish Wildlife Ser FWS/OBS-82/48, 294 pp
Gradinger R (1995) Climate change and biological oceanography of the Arctic Ocean. Phil Trans R Soc Lond A 352:277–286
Gradinger R, Baumann MEM (1991) Distribution of phytoplankton communities in relation to the large-scale hydrographical regime in the Fram Strait. Mar Biol 111:311–321
Graf G (1989) Benthic-pelagic coupling in a deep-sea benthic community. Nature 341:437–439
Graf G (1992) Benthic-pelagic coupling: a benthic view. Oceanogr Mar Biol Annu Rev 30:149–190
Graf G, Gerlach SA, Linke P, Queisser W, Ritzrau W, Scheltz A, Thomsen L, Witte U (1995) Benthic-pelagic coupling in the Greenland-Norwegian Sea and its effect on the geological record. Geol Rundschau 84:49–58
Grassle JF (1986) The ecology of deep-sea hydrothermal vent communities. Adv Mar Biol. 23:301–362
Gray JS (1981) The ecology of marine sediments. Cambridge University Press, New York, 185 pp
Gray JS (2001) Antarctic marine benthos biodiversity in a world-wide latitudinal context. Polar Biol 24:633–641
Grebmeier JM (1993) Studies of pelagic-benthic coupling extended onto the Soviet continental shelf in the northern Bering and Chukchi seas. Cont Shelf Res 13:653–668
Grebmeier JM (2003) The western Arctic shelf-basin interactions project. Arctic Research of the United States 17:24–32
Grebmeier JM, Barry JP (1991) The influence of oceanographic processes on pelagic-benthic coupling in polar regions: a benthic perspective. J Mar Syst 2: 495–518
Grebmeier JM, Cooper JP (1995) Influence of the St. Lawrence Island Polynya upon the Bering Sea benthos. J Geophys Res 100:3349–4460
Grebmeier JM, McRoy CP (1989) Pelagic-benthic coupling on the shelf of the northern Bering and Chukchi Seas. III. Benthic food supply and carbon cycling. Mar Ecol Prog Ser 53:79–91
Grebmeier JM, Smith WO, Conover RB (1995) Biological processes on Arctic continental shelves: ice-ocean-biotic interactions. In: Smith WO, Grebmeier JM (eds) Arctic oceanography: marginal zones and continental shelves. American Geophysical Union, Washington, D.C., pp 231–261
Gukov AY (1995) Hydrobiological research in the Lena polynya. Ber Polarforsch 176:228–229
Gutt J (1991) On the distribution and ecology of holothurians in the Weddell Sea (Antarctica). Polar Biol 11:145–155
Gutt J (2001) On the direct impact of ice on marine benthic communities, a review. Polar Biol 24:553–564
Gutt J, Piepenburg D (2003) Scale-dependent impact on diversity of Antarctic benthos caused by grounding of icebergs. Mar Ecol Prog Ser 253:77–83
Gutt J, Sirenko BI, Smirnov IS, Arntz WE (2004) How many macrozoobenthic species might inhabit the Antarctic shelf? Antarct Sci 16:11–16
Haedrich RL, Rowe GT, Polloni PT (1980) The megabenthic fauna in the deep sea south of New England, USA. Mar Biol 57:165–179
Hargrave BT (1973) Coupling carbon flow through some pelagic and benthic communities. J Fish Res Board Can 30:1317–1326
Hebbeln D, Wefer G (1991) Effects of ice coverage and ice-rafted material on sedimentation in the Fram Strait. Nature 350:409–411
Hedgpeth JW (1977) The Antarctic marine ecosystem. In: Llano GA (ed) Adaptations within Antarctic ecosystems. Smithsonian Institution, Washington DC, pp 3–10
Heding SG (1942) Holothurioidea. Part II. Aspidochirota – Elasipoda – Dendrochirota. Danish Ingolf-Expedition 4:43–78
Hempel G (1985) On the biology of polar seas, particularly the Southern Ocean. In: Gray JS, Christiansen ME (eds) Marine biology of polar regions and the effect of stress on marine organisms. Wiley, Chichester, pp 3–34
Herman Y (1989) The Arctic seas. Van Nostrand Reinhold, New York, 888 pp
Hessler RR, Jumars PA (1974) Abyssal community analysis from replicate box cores in the central North Pacific. Deep-Sea Res 21:185–209
Highsmith RC, Coyle KO (1990) High productivity of northern Bering Sea benthic amphipods. Nature 344:862–864
Highsmith RC, Coyle KO (1992) Productivity of Arctic amphipods relative to gray whale energy requirements. Mar Ecol Prog Ser 83:141–150
Hirche H-J, Hagen W, Mumm N, Richter C (1994) The Northeast Water Polynya, Greenland Sea. III. Meso- and macrozooplankton distribution and production of dominant herbivorous copepods during spring. Polar Biol 14:491–503
Hirche H-J, Kattner G (1994) The 1993 Northeast water expedition. Scientific cruise report of RV “Polarstern" Arctic cruises ARK-IX/2 and 3, USCG “Polar Sea" cruise NEWP and the NEWLand expedition. Ber Polarforsch 142:1–190
Hirche H-J, Kwasniewski S (1997) Distribution, reproduction and development of Calanus species in the Northeast Water in relation to environmental conditions. J Mar Syst 10:299–317
Hobson KA, Ambrose Jr WG, Renaud PE (1995) Sources of primary production, benthic-pelagic coupling, and trophic relationships within the Northeast Water Polynya: insights from δ13C and δ15N analysis. Mar Ecol Prog Ser 128:1–10
Honjo S (1990) Particle fluxes and modern sedimentation in the polar oceans. In: Smith Jr WO (ed) Polar oceanography, Part B: Chemistry, biology, and geology. Academic, San Diego, pp 687–734
Hop H, Pearson T, Hegseth EN, Kovacs KM, Wiencke C, Kwasniewski S, Eiane K, Mehlum F, Gulliksen B, Wlodarska-Kowalczuk M, Lydersen C, Weslawski JM, Cochrane S, Gabrielsen GW, Leakey RJG, Lønne OJ, Zajaczkowski M, Falk-Petersen S, Kendall M, Wängberg S-Å, Bischof K, Voronkov AY, Kovaltchouk NA, Wiktor J, Poltermann M, di Prisco G, Papucci C, Gerland S (2002) The marine ecosystem of Kongsfjorden, Svalbard. Polar Res 21:167–208
Hulth S, Blackburn TH, Hall POJ (1994) Arctic sediments (Svalbard)—consumption and microdistribution of oxygen. Mar Chem 46:293–316
Hurlbert SH (1971) The non-concept of species diversity: a critique and alternative parameters. Ecology 52:577–586
Huston M (1979) A general hypothesis of species diversity. Am Nat 113:81–101
Intergovernmental Panel on Climate Change (IPCC) (2001) Climate Change 2000. Third assessment report, Cambridge University Press
Jakobsson M, Løvlie R, Arnold EM, Backman J, Polyak L, Knutsen JO, and Musatov E (2001) Pleistocene stratigraphy and paleoenvironmental variation from Lomonossov Ridge sediments, central Arctic Ocean. Glob Planet Change 31:1–21
Jewett SC, Feder HM (1981) Epifaunal invertebrates of the continental shelf of the eastern Bering and Chukchi Seas. In: Hood DW, Calder JA (eds) The eastern Bering Sea shelf, Vol. II: Oceanography and resources. Univ. Washington Press, Seattle, pp 1131–1153
Jewett SC, Feder HM, Blanchard A (1999) Assessment of the benthic environment following offshore placer gold mining in the northeastern Bering Sea. Mar Env Res 48:91–122
Johannessen OM, Miles M, Bjorgo E (1995) The Arctic’s shrinking sea ice. Nature 376:126–127
Karnovsky N, Kwasniewski S, Weslawski JM, Walkusz W, Beszczynska-Moller A (2003) Foraging behaviour of little auks in a heterogeneous environment. Mar Ecol Prog Ser 253:289–303
Kassens H, Bauch HA, Dmitrenko IA, Eicken H, Hubberten H-W, Melles M, Thiede J, Timokhov LA (eds) (1999) Land-ocean systems in the Siberian Arctic: Dynamics and history. Springer, Berlin Heidelberg New York, 711 pp
Kemp PF (1994) Microbial carbon utilization on the continental shelf and slope during the SEEP-II experiment. Deep-Sea Res II 41:563–581
Kendall MA (1996) Are Arctic soft-sediment macrobenthic communities impoverished? Polar Biol 16:393–399
Kendall MA, Aschan M (1993) Latitudinal gradients in the structure of macrobenthic communities: a comparison of Arctic, temperate and tropical sites. J Exp Mar Biol Ecol 172:157–169
Kendall MA, Widdicombe S, Weslawski JM (2003) A multi-scale study of the biodiversity of the benthic infauna of the high-latitude Kongsfjord, Svalbard. Polar Biol 26:383–388
Klages M, Boetius A, Christensen JP, Deubel H, Piepenburg D, Schewe I, Soltwedel T (2003) The benthos of Arctic Seas and its role for the carbon cycle at the seafloor. in: Stein R, Macdonald RW (eds) The organic carbon cycle in the Arctic Ocean: present and past. Springer, Berlin Heidelberg New York, pp 139–167
Klages M, Vopel K, Bluhm H, Brey T, Soltwedel T, Arntz WE (2001) Deep-sea food falls: first observation of a natural event in the Arctic Ocean. Polar Biol 24:292–295
Knox GA, Lowry JK (1977) A comparison between the benthos of the Southern Ocean and the North Polar Ocean, with special reference to the Amphipoda and the Polychaeta. In: Dunbar MJ (ed) Polar oceans. Arctic Institute of North America, Calgary, pp 423–462
Kröncke I (1994) Macrobenthos composition, abundance and biomass in the Arctic Ocean along a transect between Svalbard and the Makarov Basin. Polar Biol 14:519–529
Kröncke I (1998) Macrofauna communities in the Amundsen Basin, at the Morris Jesup Rise and at the Yermak Plateau (Eurasian Arctic Ocean). Polar Biol 19:383–392
Kröncke I, Vanreusel A, Vincx M, Wollenburg J, Mackensen A, Liebezeit G, Behrends B (2000) Different benthic size-compartments and their relationship to sediment chemistry in the deep Eurasian Arctic Ocean. Mar Ecol Prog Ser 199:31–41
Kvitek RG, Conlan KE, Iampietro PJ (1998) Black pools of death: Hypoxic, brine-filled ice gouge depressions become lethal traps for benthic organisms in a shallow Arctic embayment. Mar Ecol Prog Ser 162:1–10
Lampitt RS, Billett DSM, Rice AL (1986) Biomass of the invertebrate megabenthos from 500 to 4100 m in the northeast Atlantic Ocean. Mar Biol 93:69–81
Legendre L, Ackley SF, Dieckmann GS, Gulliksen B, Horner R, Hoshiai T, Melnikov IA, Reeburgh WS, Spindler M, Sullivan CW (1992) Ecology of sea ice biota. 2. Global significance. Polar Biol 12:429–444
Levin LA, Gooday AJ (2003) The deep Atlantic Ocean. In: Tyler PA (ed) Ecosystems of the world, vol. 28: Ecosystems of the deep sea. Elsevier, Amsterdam, pp 111–178
Lisitsin AP (1995) The marginal filter of the ocean. Oceanology 34:583–590
Loeng H (1989) Ecological features of the Barents Sea. In: Rey L, Alexander V (eds) Proceedings of the 6th conference of the Comité Arctique International. Brill, Leiden, pp 327–365
Lozán JL, Graßl H, Hupfer P (2001) Climate of the 21st century: changes and risks. Wissenschaftliche Auswertungen, Hamburg, 449 pp
Macdonald RW (1996) Awakenings in the Arctic. Nature 380:286–287
Macdonald RW (2000) Arctic estuaries and ice: a positive-negative estuarine couple. In: Lewis EL (ed) The freshwater budget of the Arctic Ocean. NATO ASI Series, pp 383–407
Macdonald RW, Carmack EC (1991) Age of Canada Basin deep waters: a way to estimate primary production for the Arctic Ocean. Science 254:1348–1350
Macdonald RW, Carmack EC, McLaughlin FA, Falkner KK, Swift JH (1999) Connections among ice, runoff and atmospheric forcing in the Beaufort Gyre. Geophys Res Lett 26:2223–2226
Macdonald RW, Carmack EC, Wallace DWR (1993) Tritium and radiocarbon dating of Canada Basin deep waters. Science 259:103–104
MacGinitie GE (1955) Distribution and ecology of the marine invertebrates of Point Barrow, Alaska. Smithsonian Miscellaneous Collections 128:1–201
Magurran AE (1988) Ecological diversity and its measurement. Chapman and Hall, New York, 179 pp
Martin JH, Knauer GA, Karl DM (1987) Vertex: carbon cycling in the northeast Pacific. Deep-Sea Res 34:267–285
McRoy CP (1993) ISHTAR, the project: an overview of Inner Shelf Transfer and Recycling in the Bering and Chukchi Seas. Cont Shelf Res 13:473–479
McRoy CP, Hood DW, Coachman LK, Walsh JJ, Goering J (1986) Processes and resources of the Bering Sea (PROBES): the development and accomplishments of the project. Cont Shelf Res 5:5–21
Muus K (1981) Density and growth of juvenile Amphiura filiformis (Ophiuroidea) in the Øresund. Ophelia 20:153–168
Myhre AM, Thiede J, Firth JV et al. (1995) Proceedings Of the Ocean Drilling Program (Initial reports) 151. College Station, Texas, pp 1–926
Niebauer HJ (1991) Bio-physical oceanographic interactions at the edge of the Arctic pack ice. J Mar Syst 2:209–232
O’Dor R (2004) A census of marine life. BioScience 54:92–93
Paterson GLJ (1985) The deep-sea Ophiuroidea of the North Atlantic Ocean. Bull Brit Mus Nat Hist (Zool) 49:1–162
Paul AZ, Menzies RJ (1974) Benthic ecology of the high Arctic deep sea. Mar Biol 27:251–262
Peck LS, Brockington S, Vanhove S, Beghyn M (1999) Community recovery following catastrophic iceberg impacts in a soft-sediment shallow-water site at Signy Island, Antarctica. Mar Ecol Prog Ser 186:1–8
Petersen GH (1984) Energy flow in comparable aquatic ecosystems from different climatic zones. Rapp P-v Réun Cons int Explor Mer 183:119–125
Petersen GH, Curtis MA (1980) Differences in energy flow through major components of subarctic, temperate and tropical marine shelf ecosystems. Dana 1:53–64
Peterson BJ, Holmes RM, McClelland JW, Vorosmarty CJ, Lammers RB, Shiklomanov AI, Shiklomanov IA, Rahmstorf S (2002) Increasing river discharge to the Arctic Ocean. Science 298:2171–2173
Pickett STA, White PS (eds) (1985) The ecology of natural disturbance and patch dynamics. Academic Press, Orlando, 472 pp
Piepenburg D (1995) “Glasnost'' in der arktischen Benthosforschung: Politisches Tauwetter im sibirischen Nordpolarmeer. In: Hempel I, Hempel G (eds) Biologie der Polarmeere. Gustav Fischer, Jena, pp 240–247
Piepenburg D (2000) Arctic brittle stars (Echinodermata: Ophiuroidea). Oceanogr Mar Biol Annu Rev 38:189–256
Piepenburg D, Blackburn TH, Dorrien CF, Gutt J, Hall POJ, Hulth S, Kendall MA, Opalinski KW, Rachor E, Schmid MK (1995) Partitioning of benthic community respiration in the Arctic (northwestern Barents Sea). Mar Ecol Prog Ser 118:199–213
Piepenburg D, Brandt A, Juterzenka K v, Mayer M, Schnack K, Seiler D, Witte U, Spindler M (2001) Patterns and determinants of the distribution and structure of benthic faunal assemblages in the northern North Atlantic. In: Schäfer P, Ritzrau W, Schlüter M, Thiede J (eds) The northern North Atlantic: a changing environment. Springer, Berlin Heidelberg New York, pp 179–19
Piepenburg D, Schmid MK (1996a) Brittle star fauna (Echinodermata: Ophiuroidea) of the Arctic northwestern Barents Sea: composition, abundance, biomass and spatial distribution. Polar Biol 16:383–392
Piepenburg D, Schmid MK (1996b) Distribution, abundance, biomass, and mineralization potential of the epibenthic megafauna of the Northeast Greenland shelf. Mar Biol 125:321–332
Piepenburg D, Schmid MK (1997) A photographic survey of the epibenthic megafauna of the Arctic Laptev Sea shelf: distribution, abundance, and estimates of biomass and organic carbon demand. Mar Ecol Prog Ser 147:63–75
Piepenburg D, Voß J, Gutt J (1997) Assemblages of sea stars (Echinodermata: Asteroidea) and brittle stars (Echinodermata: Ophiuroidea) in the Weddell Sea (Antarctica) and off Northeast Greenland (Arctic): A comparison of diversity and abundance. Polar Biol 17:305–322
Polyak L, Forman SL, Herlihy FA, Ivanov G, Krinitsky P (1997) Late Weichselian deglacial history of the Svyataya (Saint) Anna Trough, northern Kara Sea, Arctic Russia. Mar Geol 143:169–188
Rachor E (1992) Scientific cruise report of the 1991 Arctic Expedition ARK-VIII/2 of RV “POLARSTERN" (EPOS II: Study of the European Arctic Shelf, “SEAS", of the European Science Foundation. Ber Polarforsch 115:1–150
Rey F, Loeng H (1985) The influence of ice and hydrographic conditions on the development of phytoplankton in the Barents Sea. In: Gray JS, Christiansen ME (eds) Marine biology of polar regions and effects of stress on marine organisms. Wiley, Chichester, pp 49–63
Rothrock DA, Yu Y, Maykut GA (1999) Thinning of the Arctic sea-ice cover. Geophys Res Lett 26:3469–3472
Rowe GT, Boland GS, Phoel WC, Anderson RF, Biscaye PE (1994) Deep-sea respiration as an indication of lateral input of biogenic detritus from continental margins. Deep-Sea Res II 41:657–668
Rowe GT, Polloni PT, Horner SG (1974) Benthic biomass estimates from the northwestern Atlantic Ocean and the northern Gulf of Mexico. Deep-Sea Res I 21:641–650
Sakshaug E (2003) Primary and secondary production in the Arctic seas. In: Stein R, Macdonald RW (eds) The organic carbon cycle in the Arctic Ocean: present and past. Springer, Berlin Heidelberg New York, pp 57–82
Sakshaug E, Skjodal HR (1989) Life at the ice edge. Ambio 18:60–67
Salzwedel H, Rachor E, Gerdes D (1985) Benthic macrofauna communities in the German Bight. Veröff Inst Meeresforsch Bremerh 20:199–267
Sanders HL (1968) Marine benthic diversity: a comparative study. Am Nat 102:243–282
Savidge G, Priddle J, Gilpin LC, Bathmann U, Murphy EJ, Owens NJP, Pollard RT, Turner DR, Veth C, Boyd P (1996) An assessment of the role of the marginal ice zone in the carbon cycle of the Southern Ocean. Antarct Sci 8:349–358
Schäfer P, Ritzrau W, Schlüter M, Thiede J (2001) The northern North Atlantic: a changing environment. Springer, Berlin Heidelberg New York, 500 pp
Schewe I, Soltwedel T (1999) Deep-sea meiobenthos of the central Arctic Ocean: distribution patterns and size-structure under extreme oligotrophic conditions. Vie et Milieu 49:79–92
Schewe I, Soltwedel T (2003) Benthic responses to ice-edge-induced particle flux in the Arctic Ocean. Polar Biol 26:610–620
Schmid MK, Piepenburg D, Kassens H, Abramova EN, Gukov AY, Petryashov VV (2005) Trophic dynamics and carbon flux in the Laptev Sea. Prog Oceanogr (in prep.)
Schneider W, Budéus G (1994) The North East Water Polynya (Greenland Sea). I. A physical concept of its generation. Polar Biol 14:1–9
Sejr MK, Jensen KT, Rysgaard S (2000) Macrozoobenthic community structure in a high-arctic East Greenland fjord. Polar Biol 23:792–801
Sibuet M, Olu K (1998) Biogeography, biodiversity and fluid dependence of deep-sea cold-seep communities at active and passive margins. Deep-Sea Res II 45:517–567
Sirenko BI (2001) List of species of free-living invertebrates of Eurasian Arctic seas and adjacent deep waters. Explor Fauna Seas 51(59):1–76
Sirenko BI, Piepenburg D (1994) Current knowledge on biodiversity and benthic zonation patterns of Eurasian Arctic shelf seas, with special reference to the Laptev Sea. Ber Polarforsch 144:69–77
Shindell DT, Miller RL, Schmidt GA, Pandolfo L (1999) Simulation of recent northern winter climate trends by greenhouse-gas forcing. Nature 399:452–455
Sköld M, Loo L-O, Rosenberg R (1994) Production, dynamics and demography of an Amphiura filiformis population. Mar Ecol Prog Ser 103:81–90
Smirnov AV (1994a) Arctic echinoderms: composition, distribution and history of the fauna. In: David B, Guille A, Féral JP, Roux M (eds) Echinoderms through time (Echinoderms Dijon). Balkema, Rotterdam, pp 135–143
Smirnov IS (1994b) Biogeography and area types of the Southern Ocean ophiuroids (Echinodermata, Ophiuroidea). In: David B, Guille A, Féral JP, Roux M (eds) Echinoderms through time (Echinoderms Dijon). Balkema, Rotterdam, pp 477–488
Smith AB, Paterson GLJ, Lafay B (1995) Ophiuroid phylogeny and higher taxonomy: morphological, molecular and paleontological perspectives. Zool J Linn Soc 114:213–243
Smith Jr KL (1974) Oxygen demands in San Diego Trough sediments: an in-situ study. Limnol Oceanogr 19:939–944
Smith Jr KL, Hinga KR (1983) Sediment community respiration in the deep sea. In: Rowe GT (ed) The sea, vol. 8: Deep-sea biology. Wiley, New York, pp 331–337
Smith Jr WO, Nelson DM (1985) Phytoplankton bloom produced by a receding ice edge in the Ross Sea: spatial coherence with the density field. Science 227:163–167
Smith Jr WO, Sakshaug E (1990) Polar phytoplankton. In: Smith Jr WO (ed) Polar oceanography, Part B: Chemistry, biology, and geology. Academic, San Diego, pp 477–519
Smith SD, Muench RD, Pease CH (1990) Polynyas and leads: an overview of physical processes and environment. J Geophys Res 95:9461–9479
Snelgrove PVR, Butman CN (1994) Animal-sediment relationships revisited: cause versus effect. Oceanogr Mar Biol Annu Rev 32:111–177
Slagstad D (1985) A model of phytoplankton in the marginal ice zone of the Barents Sea. In: Gray JS, Christiansen ME (eds) Marine biology of polar regions and effects of stress on marine organisms. Wiley, Chichester, pp 35–48
Soltwedel T (1999) The expedition ARKTIS XV/1 of RV “Polarstern" in 1999: scientific dives with the ROV system. Ber Polarforsch 339:7–9
Soltwedel T, Juterzenka Kv, Premke K, Klages M (2003) What a lucky shot! Photographic evidence for a medium-sized natural food-fall at the deep seafloor. Oceanol Acta 26:623–628
Soltwedel T, Schewe I (1998) Activity and biomass of the small benthic biota in the Central Arctic Ocean. Polar Biol 19:52–62
Somero GN (1990) Life at low volume change: hydrostatic pressure as selective factor in the aquatic environment. Am Zool 30:123–135
Somero GN, Siebenaller JF, Hochachka PW (1983) Biochemical and physiological adaptations of deep-sea animals. In: Rowe GT (ed) The sea, Vol. 8: Deep-sea biology. Wiley and Sons, New York, pp 261–330
Spielhagen R (2001) Enigmatic Arctic ice sheets. Nature 410: 427–428
Starmans A, Gutt J, Arntz WE (1999) Mega-epibenthic communities in Arctic and Antarctic shelf areas. Mar Biol 135:269–280
Stein R (1996) Organic-carbon and carbonate distribution in Eurasian continental margin and Arctic Ocean deep-sea surface sediments: sources and pathways. Ber Polarforsch 212:243–267
Stein R, Fahl K, Fütterer DK, Galimov EM, Stepanets OV (eds) (2003) Siberian river run-off in the Kara Sea: characterisation, quantification, variability, and environmental significance. Elsevier, Amsterdam, 484 pp
Stein R, Macdonald RW (eds) (2003) The organic carbon cycle in the Arctic Ocean: present and past. Springer, Berlin Heidelberg New York, 363pp
Stewart PL (1983) Measurements of benthic macroinvertebrate standing crop of the Canadian continental shelf and slope of southern Davis Strait and Ungava Bay. Can J Fish Aquat Sci 40:652–658
Stirling I (1980) The biological importance of polynyas in the Canadian Arctic. Arctic 33:303–315
Suess E (1980) Particulate organic carbon flux in the oceans—surface productivity and oxygen utilization. Nature 288:260–265
Thiede J, Timokhov L, Bauch HA, Bolshiyanov DY, Dmitrenko I, Eicken H, Fahl K, Gukov A, Hölemann J, Hubberten H-W, von Juterzenka K, Kassens H, Melles M, Petryashov V, Pivovarov S, Priamikov S, Rachold V, Schmid MK, Siegert C, Spindler M, Stein R, Scientific Party (1999) Dynamics and history of the Laptev Sea and its continental hinterland: a summary. In: Kassens H, Bauch HA, Dmitrenko I, Eicken H, Hubberten H-W, Melles M, Thiede J, Timokhov L (eds) Land-ocean systems in the Siberian Arctic: dynamics and history. Springer, Berlin Heidelberg New York, pp 695–711
Thomsen L, Graf G, Juterzenka Kv, Witte U (1995) An in situ experiment to investigate the depletion of seston above an interface feeder field on the continental slope of the western Barents Sea. Mar Ecol Prog Ser 123:295–300
Thomson MRA, Crame JA, Thomson JW (1991) Geological evolution of Antarctica. Cambridge University Press, Cambridge, 722 pp
Timokhov LA (1994) Regional characteristics of the Laptev and the East Siberian Seas: climate, topography, ice phases, thermohaline regime, circulation. Ber Polarforsch 144:15–31
Tyler PA (1995) Conditions for the existence of life at the deep-sea floor: an update. Oceanogr Mar Biol Annu Rev 33:221–244
Van Dover CL (2000) The ecology of deep-sea hydrothermal vents. Princeton University Press, Princeton, 424 pp
Vanaverbeke J, Arbizu PM, Dahms HU, Schminke HK (1997) The metazoan meiobenthos along a depth gradient in the Arctic Laptev Sea with special attention to nematode communities. Polar Biol 18:391–401
Vanegas SA, Mysak LA (2000) Is there a dominant timescale of natural climate variability in the Arctic? J Climate 13:3412–3434
Vanreusel A, Clough L, Jacobsen K, Ambrose W, Jivaluk J, Ryheul V, Herman R, Vincx M (2000) Meiobenthos of the central Arctic Ocean with special emphasis on the nematode community structure. Deep-Sea Res I 47:1855–1879
Vinogradova NG (1979) The geographical distribution of the abyssal and hadal (ultra-abyssal) fauna in relation to the vertical zonation of the ocean. Sarsia 64:41–50
Walsh JJ, Biscaye PE, Csanady GT (1988) The 1983–1984 shelf edge exchange processes (SEEP)-I experiment: hypothesis and highlights. Cont Shelf Res 8:435–456
Walsh JJ, Dieterle DA, Muller-Karger FE, Aagaard K, Roach AT, Whitledge TE, Stockwell D (1997) CO2 cycling in the coastal ocean. II. Seasonal organic loading to the Canadian Basin from source waters south of Bering Strait. Cont Shelf Res 17:1–36
Wassmann P, Peinert R, Smetacek V (1991) Patterns of production and sedimentation in the boreal and polar northeast Atlantic. Polar Res 10:209–228
Warwick RM, Clarke KR (1995) New ’biodiversity’ measures reveal a decrease in taxonomic distinctness with increasing stress. Mar Ecol Prog Ser 129:301–305
Wheeler PA, Gosselin M, Sherr E, Thibault D, Kirchman DL, Benner R, Whitledge TE (1996) Active cycling of organic carbon in the central Arctic Ocean. Nature 380:697–699
White MG (1984) Marine benthos. In: Laws RM (ed) Antarctic ecology, vol. 2. Academic, London, pp 421–461
Whittaker RH (1972) Evolution and measurement of species diversity. Taxon 21:213–251
Wilson EO (2003) The encyclopedia of life. Trends Ecol Evol 18:77–80
Wlodarska-Kowalczuk M, Pearson TH (2004) Soft-bottom macrobenthic faunal associations and factors affecting species distributions in an Arctic glacial fjord (Kongsfjord, Spitsbergen). Polar Biol 27:155–167
Wlodarska-Kowalczuk M, Weslawski JM (2001) Impact of climate warming on Arctic benthic biodiversity: a case study of two Arctic glacial bays. Clim Res 18:127–132
Wlodarska-Kowalczuk M, Weslawski JM, Kotwicki L (1998) Spitsbergen glacial bays macrobenthos—a comparative study. Polar Biol 20:66–73
Zenkevitch LA (1963) Biology of the seas of the USSR. George Allen and Unwin, London, 955 pp
Acknowledgments
I would like to thank Gotthilf Hempel (Kiel), Karen von Juterzenka (Kiel), Howard Feder (Fairbanks) and two anonymous reviewers for their constructive suggestions on the manuscript. Moreover, I gratefully acknowledge the input of all my colleagues who have helped with the development of the ideas presented in this essay.
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Piepenburg, D. Recent research on Arctic benthos: common notions need to be revised. Polar Biol 28, 733–755 (2005). https://doi.org/10.1007/s00300-005-0013-5
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DOI: https://doi.org/10.1007/s00300-005-0013-5