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Distinct or similar? Soft bottom polychaete diversity in Arctic and Antarctic glacial fjords

dc.contributor.authorPabis, Krzysztof
dc.contributor.authorKędra, Monika
dc.contributor.authorGromisz, Sławomira
dc.date.accessioned2015-06-17T11:19:18Z
dc.date.available2015-06-17T11:19:18Z
dc.date.issued2014-08-03
dc.identifier.issn1573-5117
dc.identifier.urihttp://hdl.handle.net/11089/9914
dc.description.abstractThe main aim of this study was to compare the polychaete communities in two similar polar areas: an Arctic fjord, Hornsund (Svalbard) and an Antarctic fjord, Ezcurra Inlet (South Shetlands). This is the first attempt to compare Arctic and Antarctic diversity based on fully comparable datasets. Forty van Veen grab samples were collected in each fjord: twenty replicates were taken in each of two fjord areas characterized by a different level of glacial disturbance—in the inner (glacial bay) and outer (fjord mouth) region of both fjords, from depths of about 100 m in 2005 (Hornsund) and in 2007 (Ezcurra Inlet). In the glacial bays, species richness and diversity were significantly higher in Distinct or similar? Soft bottom polychaete diversity in Arctic and Antarctic glacial fjords - Springer Ezcurra Inlet than in Hornsund due to higher rate of glacial disturbance in the latter one. In the outer areas, species richness was similar in both fjords, although diversity values were higher in Ezcurra Inlet. Polychaete species richness in the habitats characterized by similar level of disturbance (outer areas of the fjords) was the same in both polar regions. At this small scale, where community drivers are very similar, the species richness seems to be independent from the local or regional species pool.pl_PL
dc.description.sponsorshipThis study was supported by an International Polar Year related project (Structure, evolution, and dynamics of lithosphere, cryosphere and biosphere in European Sector of Arctic and in Antarctic No. PBZ-KBN-108/PO4/2004) to Jan Marcin Węsławski and Jacek Siciński. K. Pabis was also partially supported from the University of Lodz internal funds, M. Kędra received financial support from the Polish Ministry of Science and Higher Education (540/N–AODP/2009/0).pl_PL
dc.language.isoenpl_PL
dc.publisherSpringer International Publishing AGpl_PL
dc.relation.ispartofseriesHydrobiologia The International Journal of Aquatic Sciences;2014 742:1991
dc.rightsUznanie autorstwa 3.0 Polska*
dc.rights.urihttp://creativecommons.org/licenses/by/3.0/pl/*
dc.subjectPolychaetapl_PL
dc.subjectFjordspl_PL
dc.subjectPolar regionspl_PL
dc.subjectDiversitypl_PL
dc.subjectSvalbardpl_PL
dc.subjectSouth Shetland Islandspl_PL
dc.titleDistinct or similar? Soft bottom polychaete diversity in Arctic and Antarctic glacial fjordspl_PL
dc.typeArticlepl_PL
dc.page.number1-32pl_PL
dc.contributor.authorAffiliationPabis Krzysztof, University of Lodz, Laboratory of Polar Biology and Oceanobiologypl_PL
dc.contributor.authorAffiliationKędra Monika, Institute of Oceanology Polish Academy of Sciences (IOPAN)pl_PL
dc.contributor.authorAffiliationGromisz Sławomira, National Marine Fisheries Research Institutepl_PL
dc.referencesAnsari, Z. A., C. U. Rivonker, P. Ramani & A. H. Parulekar, 1991. Seagrass habitat complexity and macroinvertebrate abundance in Lakshadweep coral reef lagoons, Arabian Sea. Coral Reefs 10: 127–131.pl_PL
dc.referencesAverincev, V. G., 1972. Donnyje mnogoscetinkovyje cervi Errantia Antarktiki I Subantarktiki po materialam Sovetskoj Antarktice- skoj Ekspedicii. [Benthic polychaetes Errantia from the Antarctic and Subantarctic collected by the Soviet Antarctic Expeditions.] Issledovanija Fauny Morej. 11 (19). Rezultaty Biologiceskich Issledovanij Sovetskich Antarkticeskich Ekspedici 5: 88–293.pl_PL
dc.referencesBarnes, D. K. A., 1994. Communities of epibiota on two erect species of Antarctic Bryozoa. Journal of Marine Biological Association of the United Kingdom 74: 863–872.pl_PL
dc.referencesBarrett, P. J., 1999. Antarctic climate history over the last 100 million years. Terra Antarctica 3: 53–72.pl_PL
dc.referencesBarroso, R., M. Klautau, A. M. Sole-Cava & P. C. Paiva, 2010. Eurythoe complanata (Polychaeta: Amphinomidae), the “cosmopolitan” fireworm, consists of at least three cryptic species. Marine Biology 157: 69–80.pl_PL
dc.referencesBhaud, M., 1998. The spreading potential of polychaete larvae does not predict adult distributions; consequences for conditions of recruitment. Hydrobiologia 375(376): 35–47.pl_PL
dc.referencesBleidorn, C., I. Kruse, S. Albrecht & T. Bartolomaeus, 2006. Mitochondrial sequence data expose the putative cosmopolitan polychaete Scoloplos armiger (Annelida, Orbiniidae) as a species complex. BMC Evolutionary Biology 6: 47.pl_PL
dc.referencesBłażewicz-Paszkowycz, M. & J. Sekulska-Nalewajko, 2004. A comparison of tanaid fauna of two polar fjords: Kongsfjorden, Spitsbergen (Arctic) and Admiralty Bay, King George Island (Antarctic). Polar Biology 27: 222–230.pl_PL
dc.referencesBrandt, A., 1997. Abundance, diversity and community patterns of epibenthic- and benthic-boundary layer peracarid crustaceans at 75 N off East Greenland. Polar Biology 17: 159–174.pl_PL
dc.referencesBrandt, A., 2001. Great differences in peracarid crustacean density between the Arctic and Antarctic deep sea. Polar Biology 24: 785–789.pl_PL
dc.referencesBrandt, A., M. Błażewicz-Paszkowycz, R. N. Bamber, U. Muhlenhardt-Siegel, M. V. Malyutina, S. Kaiser, C. DeBroyer & C. Hevermans, 2012. Are there peracarid species in the deep sea (Crustacea: Malacostraca)? Polis Polar Research 33: 139–162.pl_PL
dc.referencesCampos, L. S., C. A. M. Barboza, M. Bassoi, M. Bernardes, S. Bromberg, T. N. Corbisier, R. F. C. Fontes, P. F. Gheller, E. Hajdu, H. G. Kawall, P. K., Lange, A. M. Lanna, H. P. Lavrado, G. C. S. Monteiro, R. C. Montone, T. Morales, R. B. Moura, C. R. Nakayama, T. Oackes, R. Paranhos, F. D. Passos, M. A. V. Petti, V. H. Pellizari, C. E. Rezende, M. Rodrigues, L. H. Rosa, E. Secchi, D. Tenenbaum & Y. Yoneshigue-Valentin, 2013. Environmental Processes, Biodiversity and Changes in Admiralty Bay, King George Island, Antarctica Adaptation and Evolution in Marine Environments, Vol. 2 From Pole to Pole: 127–156.pl_PL
dc.referencesCarr, C. M., 2012. Polychaete diversity and distribution patterns in Canadian marine waters. Marine Biodiveristy 42: 93–107.pl_PL
dc.referencesClarke, A. & J. A. Crame, 2010. Evolutionary dynamics at high latitudes: speciation and extinction in polar marine faunas. Phylosophical Transactions of the Royal Society B 365: 3655–3666.pl_PL
dc.referencesColwell, R. K., 2009. EstimateS: statistical estimation of species richness and shared species from samples, Version 8.2. User’s guide and application published at [http://​purl.​oclc.​org/​estimates].pl_PL
dc.referencesCornell, H. V. & J. H. Lawton, 1992. Species interactions, local and regional processes, and limits to the richness of ecological communities: a theoretical perspective. Journal of Animal Ecology 61: 1–12.pl_PL
dc.referencesCrame, J. A., 1997. An evolutionary framework for the polar regions. Journal of Biogeography 24: 1–9.pl_PL
dc.referencesDayton, P. K., 1990. Polar benthos. In Smith, W. (ed.), Polar Oceanography. Academic Press, London: 631–685.pl_PL
dc.referencesDayton, P. K., B. J. Mordida & F. Bacon, 1994. Polar marine communities. American Zoologist 34: 90–99.pl_PL
dc.referencesDe Broyer, C., B. Danis, L. Allcock, M. Angel, C. Arango, T. Artois, D. Barnes, I. Bartsch, M. Bester, K. Błachowiak-Samołyk, M. Błażewicz, J. Bohn, A. Brandt, S. N. Brandao, B. David, M. de Salas, M. Eleaume, C. Emig, D. Fautin, K. H. George, D. Gillan, A. Gooday, R. Hopcroft, M. Jangoux, D. Janussen, P. Koubbi, J. Kouwenberg, P. Kuklinski, R. Ligowski, D. Lindsay, K. Linse, M. Longshaw, P. Lopez-Gonzalez, P. Martin, T. Munilla, U. Muhlenhardt-Siegel, B. Neuhaus, J. Norenburg, C. Ozouf-Costaz, E. Pakhomov, W. Perrin, V. Petryashov, A. L. Pena-Cantero, U. Piatkowski, A. Pierrot-Bults, A. Rocka, J. Saiz-Salinas, L. Salvini-Plawen, V. Scarabino, S. Schiaparelli, M. Schrodl, E. Schwabe, F. Scott, J. Siciński, V. Siegel, I. Smirnov, S. Thatje, A. Utevsky, A. Vanreusel, C. Wiencke, E. Woehler, K. Zdzitowiecki & W. Zeidler, 2011. How many species in the Southern Ocean? Towards a dynamic inventory of the Antarctic marine species. Deep-Sea Research Part II – Topical Studies in Oceanography 58: 5–17.pl_PL
dc.referencesEilertsen, H. C., J. P. Taasen & J. M. Wesławski, 1989. Phytoplankton studies in the fjords of West Spitsbergen. Physical environment, production in spring and summer. Journal of Plankton Research 11: 1245–1260.pl_PL
dc.referencesEllingsen, K. E., J. E. Hewitt & S. F. Thrush, 2007. Rare species, habitat diversity and functional redundancy in marine benthos. Journal of Sea Research 58: 291–301.pl_PL
dc.referencesFauchald, K. & P. A. Jumars, 1979. The diet of worms: a study of polychaete feeding guilds. Oceanography and Marine Biology - An Annual Review 17: 193–284.pl_PL
dc.referencesFontana, G., K. I. Ugland, J. S. Gray, T. J. Willis & M. Abbiati, 2008. Influence of rare species on beta diversity estimates in marine benthic assemblages. Journal of Experimental Marine Biology and Ecology 366: 104–108.pl_PL
dc.referencesGallardo, V. A., S. A. Medrano & F. D. Carrasco, 1988. Taxonomic composition of the sublittoral soft-bottom Polychaeta of Chile Bay (Greenwich Island, South Shetland Islands, Antarctica). Ser Cient INACH 37: 49–67.pl_PL
dc.referencesGiangrande, A., M. Licciano & L. Musco, 2005. Polychaetes as environmental indicators revised. Marine Pollution Bulletin 50: 1153–1162.pl_PL
dc.referencesGrange, L. J. & C. R. Smith, 2013. Megafaunal communities in rapidly warming fjords along the West Antarctic Peninsula: hotspots of abundance and beta diversity. Plos One 8: e77917.pl_PL
dc.referencesGray, J. S., 2000. The measurement of Marine species diversity, with an application to the benthic fauna of the Norwegian Continental shelf. Journal of Experimental Marine Biology and Ecology 250: 23–49.pl_PL
dc.referencesGrebmeier, J. M., 2012. Shifting patterns of life in the pacific Arctic and sub-Arctic seas. Annual Review of Marine Science 4: 63–78.pl_PL
dc.referencesGordon, A. L. & W. D. J. Nowlin, 1978. The basin waters of the Bransfield Strait. Journal of Physical Oceanography 8: 258–264.pl_PL
dc.referencesGorlich, K., J. M. Wesławski & M. Zajaczkowski, 1987. Suspension settling effect on macrobenthos biomass distribution in the Hornsund fjord, Spitsbergen. Polar Research 5: 175–192.pl_PL
dc.referencesGutt, J. & D. Piepenburg, 2003. Scale-dependent impact on diversity of Antarctic benthos caused by grounding of icebergs. Marine Ecology Progress Series 253: 77–83.pl_PL
dc.referencesGutt, J. & T. Schickan, 1998. Epibiotic relationships in the Antarctic benthos. Antarctic Science 10: 398–405.pl_PL
dc.referencesHartman, O., 1964. Polychaeta Errantia of Antarctica. Antarctic Research Series 3: 1–131.pl_PL
dc.referencesHartman, O., 1966. Polychaeta, Myzostomidae and Sedentaria of Antarctica. Antarctic Research Series 7: 1–143.pl_PL
dc.referencesHartman, O., 1967. Polychaetous annelids collected by the USNS Eltanin and Staten Island cruises, from Antarctic Seas. Allan Hancock Monographs in Marine Biology. Number 2, Los Angeles.pl_PL
dc.referencesHartmann-Schroder, G., 1986. Die Polychaeten der 56 Reise der “Meteor” zu den South Shetland-Inseln (Antarktis) Mitteilungen aus dem Hamburgischen Zoologischen Museum und Institut 83: 71–100.pl_PL
dc.referencesHartmann-Schroder, G. & P. Rosenfleldt, 1988. Die Polychaeten der “Polarstern” – Reise ANT III/2 in die Antarktis 1984, Teil 1: Euphrosinidae bis Chaetopteridae. Mitteilungen aus dem Hamburgischen Zoologischen Museum und Institut 85: 25–72.pl_PL
dc.referencesHartmann-Schroder, G. & P. Rosenfleldt, 1989. Die Polychaeten der “Polarstern” – Reise ANTIII/2 in die Antarktis 1984. Teil 2: Cirratulidae bis Serpulidae). Mitteilungen aus dem Hamburgischen Zoologischen Museum und Institut 86: 65–106.pl_PL
dc.referencesHavermans, C., G. Sonet, C. d’Udekem d’Acoz, Z. T. Nagy, P. Martin, S. Brix, T. Riehl, S. Agrawal & C. Held, 2013. Genetic and morphological divergences in the cosmopolitan deep-sea amphipod Eurythenes gryllus reveal a diverse abyss and bipolar species. PlosOne 8: e74218.pl_PL
dc.referencesHillebrandt, H. & T. Blenckner, 2002. Regional and local impact on species diversity – from pattern to processes. Oecologia 132: 479–491.pl_PL
dc.referencesHurlbert, S. H., 1971. The non-concept of species diversity: a critique and alternative parameters. Ecology 52: 577–586.pl_PL
dc.referencesHutchings, P. A., T. J. Ward, J. H. Waterhouse & L. Walker, 1993. Infauna of marine sediments and seagrass beds of Upper Spence Gulf near Port Pirie, South Australia. Transactions of the Royal Society of South Australia 117: 1–15.pl_PL
dc.referencesJażdżewski, K., J. M. Węsławski & C. De Broyer, 1995. A comparison of the amphipod faunal diversity in two polar fjords: Admiralty Bay, King George Island (Antarctic) and Hornsund, Spitsbergen (Arctic). Polish Archives of Hydrobiology 42: 367–384.pl_PL
dc.referencesKędra, M., S. Gromisz, R. Jaskuła, J. Legeżyńska, B. Maciejewska, E. Malec, A. Opanowski, K. Ostrowska, M. Włodarska-Kowalczuk & J. M. Węsławski, 2010a. Soft bottom macrofauna of an All Taxa biodiversity site: Hornsund (77°N, Svalbard). Polish Polar Research 31: 309–326.pl_PL
dc.referencesKędra, M., M. Włodarska-Kowalczuk & J. M. Węsławski, 2010b. Decadal change in soft-bottom community structure in high arctic fjord (Kongsfjorden, Svalbard). Polar Biology 33: 1–11.pl_PL
dc.referencesKędra, M., K. Pabis, S. Gromisz & J. M. Węsławski, 2013. Distribution patterns of polychaete fauna in an Arctic fjord (Hornsund, Spitsbergen). Polar Biology 36: 1463–1472.pl_PL
dc.referencesKendall, M. A., S. Widdicombe & J. M. Węsławski, 2003. A multi-scale study of the biodiversity of the benthic infauna of the high-latitute Kongsfjord, Svalbard. Polar Biology 26: 383–388.pl_PL
dc.referencesKnox, G. A., 1977. The role of polychaetes in benthic soft-bottom communities In Reich, D. J., & K. Fauchald (eds), Essays on Polychaetes Annelids in Memory of Dr Olga Hartman. Allan Hancock Fundation, Los Angeles: 526–546.pl_PL
dc.referencesKnox, G. A. & J. K. Lowry, 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, M. J. (ed.), Polar Oceans. Arctic Institute of North America, Calgary: 423–462.pl_PL
dc.referencesLipski, M., 1987. Variations of physical conditions, nutrients and chlorophyll a contents in Admiralty Bay (King George Island, South Shetland Islands, 1979). Polish Polar Research 8: 307–332.pl_PL
dc.referencesLovell, L. L. & K. D. Trego, 2003. The epibenthic megafaunal and benthic infaunal invertebrates of Port Foster, Deception Island (South Shetland Islands, Antarctica). Deep-Sea Research II 50: 1799–1819.pl_PL
dc.referencesMackie, A. S. Y. & G. Oliver, 1993. The macrobenthic infauna of Hoi Ha Wan and Tolo Chanel, Hong Kong. In Morton, E. (ed.), Proceedings of the 1st International Marine Biology Workshop: The Marine Flora and Fauna of Hong Kong and Southern China. Hong Kong University Press, Hong Kong: 657–674.pl_PL
dc.referencesMagurran, A. E., 2004. Measuring Biological Diversity. Blackwell Publishing, Carlton.pl_PL
dc.referencesMarsz, A., 1983. From surveys of the geomorphology of the shores and bottom of the Ezcurra Inlet. Oceanologia 15: 209–220.pl_PL
dc.referencesOlsgard, F. & P. J. Somerfield, 2000. Surrogates in marine benthic investigations – which taxonomic unit to target? Journal of Aquatic Ecosystem Stress and Recovery 7: 25–42.pl_PL
dc.referencesOlsgard, F., T. Brattegard & T. Holthe, 2003. Polychaetes as surrogates for marine biodiversity: lower taxonomic resolution and indicator groups. Biodiversity and Conservation 12: 1033–1049.pl_PL
dc.referencesOrensanz, J. M., 1990. The eunicemorph polychaete annelids from Antarctic and Subanantarctic seas. Antarctic Research Series 52: 1–183.pl_PL
dc.referencesPęcherzewski, K., 1980. Distribution and quantity of suspended matter in Admiralty Bay (King George Island, South Shetland Islands. Polish Polar Research 1: 75–82.pl_PL
dc.referencesPabis, K. & J. Siciński, 2010. Distribution and diversity of polychaetes collected by trawling in Admiralty Bay – an Antarctic glacial fiord. Polar Biology 33: 141–151.pl_PL
dc.referencesPabis, K., J. Siciński & M. Krymarys, 2011. Distribution patterns in the biomass of macrozoobenthic communities in Admiralty Bay (King George Island, South Shetlands, Antarctic). Polar Biology 34: 489–500.pl_PL
dc.referencesPabis, K., M. Błażewicz-Paszkowycz, P. Jóźwiak & D. K. A. Barnes, 2014. Tanaidacea of the Amundsen and Scotia seas: an unexplored diversity. Antarctic Science. doi:10.​1017/​S095410201400030​3.pl_PL
dc.referencesPagliosa, P. R., 2005. Another diet of worms: the applicability of polychaete feeding guilds as a useful conceptual framework and biological variable. Marine Ecology 26: 246–254.pl_PL
dc.referencesPalerud, R., B. Gulliksen, T. Brattegard, J. A. Sneli & W. Vader, 2004. The marine macro-organisms in Svalbard waters. In Prestrud, P. (ed.), A Catalogue of the Terrestrial and Marine Animals of Svalbard. Norwegian Polar Institute, Tromsø: 5–56.pl_PL
dc.referencesParapar, J. & G. San Martin, 1997. “Sedentary” polychaetes of the Livingston Island shelf (South Shetlands, Antarctica), with the description of a new species. Polar Biology 17: 502–514.pl_PL
dc.referencesParapar, J. & J. Moreira, 2008. Redescription of Terebellides kerguelensis stat. nov. (Polychaeta: Trichobranchidae) from Antarctic and subantarctic waters. Helgoland Marine Research 62: 143–152.pl_PL
dc.referencesPiepenburg, D., 2005. Recent research on Arctic benthos: common notions need to be revisited. Polar Biology 28: 733–755.pl_PL
dc.referencesPiepenburg, D., J. Voß & J. Gutt, 1997. Assemblages of sea stars (Echinodermata: Asteroidea) and brittle stars (Echinoder- mata: Ophiuroidea) in the Weddell Sea (Antarctica) and off Northeast Greenland (Arctic): a comparison of diversity and abundance. Polar Biology 17: 305–322.pl_PL
dc.referencesPiepenburg, D., P. Archambault, W. G. Ambrose Jr, A. Blanchard, B. Bluhm, C. L. Carroll, K. E. Conlan, M. Cusson, H. M. Feder, J. M. Grebmeier, S. C. Jewett, M. Levesque, V. V. Petryashev, M. K. Sejr, B. I. Sirenko & M. Włodarska-Kowalczuk, 2011. Towards a pan-Arctic inventory of the species diversity of the macro- and megabenthic fauna of the Arctic shelf seas. Marine Biodiveristy 41: 51–70.pl_PL
dc.referencesPiwosz, K., W. Walkusz, R. Hapter, P. Wieczorek, H. Hop & J. Wiktor, 2009. Comparison of productivity and phytoplankton in a warm (Kongsfjorden) and a cold (Hornsund) Spitsbergen fjord in midsummer 2002. Polar Biology 32: 549–559.pl_PL
dc.referencesRakusa-Suszczewski, S., 1993. The Maritime Antarctic Coastal Ecosystem of Admiralty Bay. Department of Antarctic Biology, Polish Academy of Sciences, Warsaw.pl_PL
dc.referencesRicklefs, R. E., 2000. The relationship between local and regional species in birds of the Caribbena Basin. Journal of Animal Ecology 69: 1111–1116.pl_PL
dc.referencesRouse, G. & F. Pleijel, 2001. Polychaetes. Oxford University Press, Oxford.pl_PL
dc.referencesRudowski, S. & A. A. Marsz, 1996. Cechy rzeźby dna i pokrywy osadowe we współcześnie kształtujących się fiordach na przykładzie Hornsundu (Spitsbergen) oraz Zatoki Admiralicji (Antarktyka Zachodnia). Prace Wydziału Nawigacyjnego Wyższej Szkoły Morskiej w Gdyni 3: 39–81.pl_PL
dc.referencesSalas, F., J. M. Neto, A. Borja & J. C. Marques, 2004. Evaluation of the applicability of marine biotic index to characterize the status of estuarine ecosystems: the case of Mondego estuary (Portugal). Ecological Indicators 4: 215–225.pl_PL
dc.referencesSan Martin, G. & J. Parapar, 1997. “Errant” polychaetes of the Livingston Island shelf (South Shetlands, Antarctica), with the description of a new species. Polar Biology 17: 285–295.pl_PL
dc.referencesSan Martin, G., J. Parapar, F. J. Garcia & M. S. Redondo, 2000. Quantitative analysis of soft bottoms infaunal macrobenthic polychaetes from South Shetland Islands (Antarctica). Bulletin of Marine Science 67: 83–102.pl_PL
dc.referencesScaps, P., A. Rouabah & A. Lepretre, 2000. Morphological and biochemical evidence that Perinereis cultifera (Polychaeta: Nereididae) is a complex of species. Journal of Marine Association of the United Kingdom 80: 735–736.pl_PL
dc.referencesSiciński, J., 1986. Benthic assemblages of Polychaeta in chosen regions of the Admiralty Bay (King George Island, South Shetland Islands). Polish Polar Research 7: 63–78.pl_PL
dc.referencesSiciński, J., 2004. Polychaetes of Antarctic sublittoral in the proglacial zone (King George Island, South Shetland Islands). Polish Polar Research 25: 67–96.pl_PL
dc.referencesSiciński, J., K. Jażdżewski, C. De Broyer, P. Presler, R. Ligowski, E. F. Nonato, T. N. Corbisier, M. A. V. Petti, T. A. S. Brito, H. P. Lavrado, M. Błażewicz-Paszkowycz, K. Pabis, A. Jażdżewska & L. S. Campos, 2011. Admiralty Bay Benthos diversity - a census of a complex polar ecosystem. Deep-Sea Res Part II 58: 30–48.pl_PL
dc.referencesSiciński, J., K. Pabis, K. Jażdżewski, A. Konopacka & M. Blazewicz-Paszkowycz, 2012. Macrozoobenthos of two Antarctic glacial coves: a comparison with non-disturbed bottom areas. Polar Biology 35: 355–367.pl_PL
dc.referencesSirenko, B. I., 2001. List of Species of Free-Living Invertebrates of Eurasian Arctic Seas and Adjacent Deep Waters. Russian Academy of Sciences, Zoological Institute, St Petersburg.pl_PL
dc.referencesSirenko, B. I., 2009. Main differences in macrobenthos and benthic communities of the Arctic and Antarctic, as illustrated by comparison of the Laptev and Weddell Sea faunas. Russian Journal of Marine Biology 35: 445–453.pl_PL
dc.referencesSmale, D. A. & D. K. A. Barnes, 2008. Likely response of the Antarctic benthos to climate-related changes in physical disturbance during the 21st century, based primarily on evidence from the West Antarctic Peninsula region. Ecography 31: 289–305.pl_PL
dc.referencesSmith, S. D. A., 2000. Evaluating stress in rocky shore and shallow reef habitats using the macrofauna of kelp holdfasts. Journal of Aquatic Ecosystem Stress and Recovery 7: 259–272.pl_PL
dc.referencesStarmans, A. & J. Gutt, 2002. Mega-epibenthic diversity: a polar comparison. Marine Ecology Progress Series 225: 45–52.pl_PL
dc.referencesStarmans, A., J. Gutt & W. E. Arntz, 1999. Mega-epibenthic communities in Arctic and Antarctic shelf areas. Marine Biology 135: 269–280.pl_PL
dc.referencesSwerpel, S., 1985. The Hornsund fiord: water masses. Polish Polar Research 4: 475–496.pl_PL
dc.referencesTokarczyk, R., 1986. Annual cycle of chlorophyll α in Admiralty Bay 1981–1982 (King George Island, South Shetland). Polish Archives of Hydrobiology 3: 177–188.pl_PL
dc.referencesTokarczyk, R., 1987. Classification of water masses in the Bransfield Strait and southern part of the Drake Passage using a method of statistical multidimensional analysis. Polish Polar Research 8: 333–366.pl_PL
dc.referencesUrbański, J., E. Neugebauer, R. Spacjer & L. Falkowska, 1980. Physico chemical characteristics of the waters of Hornsund fjord on South West Spitsbergen. Polish Polar Research 1: 43–52.pl_PL
dc.referencesVoronkov, A., H. Hop & B. Gulliksen, 2013. Diversity of hard-bottom fauna relative to environmental gradients in Kongsfjorden, Svalbard. Polar Research 32: 11208.pl_PL
dc.referencesWalsh, J. E., 2009. A comparison of Arctic and Antarctic climate change, present and future. Antarctic Science 21: 179–188.pl_PL
dc.referencesWarwick, R. M., C. S. Emblow, J. P. Feral, H. Hummel, P. van Avesaath & C. Heip, 2003. European 520 marine biodiversity research sites. Report of the European Concerted Action: BIOMARE. NIOO521 CEME, Yerseke.pl_PL
dc.referencesWęsławski, J. M., J. Koszteyn, M. Zajączkowski, J. Wiktor & S. Kwaśniewski, 1995. Fresh water in Svalbard fjord ecosystems. In Hopkins, C. C., K. E. Erikstad & H. P. Leinaas (eds), Ecology of Fjord and Coastal Watered. Elsevier, Amsterdam: 229–241.pl_PL
dc.referencesWęsławski, J. M., M. A. Kendall, M. Włodarska-Kowalczuk, K. Iken, M. Kędra, J. Legeżyńska & M. K. Sejr, 2011. Climate change effects on Arctic fjord and coastal macrobenthic diversity—observations and predictions. Marine Biodiversity 41: 71–85.pl_PL
dc.referencesWitman, J. D., R. J. Etter & F. Smith, 2004. The relationship between regional and local species diversity in marine benthic communities: a global perspective. Proceedings of the National Academy of Sciences 101: 15664–15669.pl_PL
dc.referencesWłodarska-Kowalczuk, M. & T. Pearson, 2004. Soft-bottom macrobenthic faunal associations and factors affecting species distributions in an Arctic glacial fjord (Kongsfjord, Spitsbergen). Polar Biology 27: 155–167.pl_PL
dc.referencesWłodarska-Kowalczuk, M. & M. Kędra, 2007. Surrogacy in natural patterns of benthic distribution and diversity: Selected taxa versus lower taxonomic resolution. Marine Ecology Progress Series 351: 53–63.pl_PL
dc.referencesWłodarska-Kowalczuk, M., J. Siciński, S. Gromisz, M. A. Kendall & S. Dahle, 2007. Similar soft-bottom polychaete diversity in Arctic and Antarctic marine inlets. Marine Biology 151: 607–616.pl_PL
dc.referencesWłodarska-Kowalczuk, M., P. E. Renaud, J. M. Węsławski, S. K. J. Cochrane & S. G. Denisenko, 2012. Species diversity, functional complexity and rabity in Arctic fjords versus open shelf benthic systems. Marine Ecology Progress Series 463: 73–87.pl_PL
dc.contributor.authorEmailcataclysta@wp.plpl_PL


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