Hostname: page-component-78c5997874-94fs2 Total loading time: 0 Render date: 2024-11-17T16:15:31.071Z Has data issue: false hasContentIssue false
  • English
  • Français

Photographic survey of benthos provides insights into the Antarctic fish fauna from the Marguerite Bay slope and the Amundsen Sea

Published online by Cambridge University Press:  12 October 2012

Joseph T. Eastman ,
Margaret O. Amsler ,
Richard B. Aronson ,
Sven Thatje ,
James B. McClintock ,
Stephanie C. Vos ,
Jeffrey W. Kaeli ,
Hanumant Singh  and
Mario La Mesa
Joseph T. Eastman*
Affiliation:
Department of Biomedical Sciences, Ohio University, Athens OH 45701, USA
Margaret O. Amsler
Affiliation:
Department of Biology, University of Alabama at Birmingham, Birmingham, AL 35294, USA
Richard B. Aronson
Affiliation:
Department of Biological Sciences, Florida Institute of Technology, Melbourne, FL 32901, USA
Sven Thatje
Affiliation:
Ocean and Earth Science, University of Southampton, National Oceanography Centre, Southampton SO14 3ZH, UK
James B. McClintock
Affiliation:
Department of Biology, University of Alabama at Birmingham, Birmingham, AL 35294, USA
Stephanie C. Vos
Affiliation:
Department of Biological Sciences, Florida Institute of Technology, Melbourne, FL 32901, USA
Jeffrey W. Kaeli
Affiliation:
Woods Hole Oceanographic Institution, Woods Hole, MA 02543, USA
Hanumant Singh
Affiliation:
Woods Hole Oceanographic Institution, Woods Hole, MA 02543, USA
Mario La Mesa
Affiliation:
ISMAR-CNR, Istituto di Scienze Marine, UOS di Ancona, Largo Fiera della Pesca, 60125 Ancona, Italy
*
[email protected]
Get access Rights & Permissions [Opens in a new window]

Abstract

We reviewed photographic images of fishes from depths of 381–2282 m in Marguerite Bay and 405–2007 m in the Amundsen Sea. Marguerite Bay fishes were 33% notothenioids and 67% non-notothenioids. Channichthyids (47%) and nototheniids (44%) were the most abundant notothenioids. The deep-living channichthyid Chionobathyscus dewitti (74%) and the nototheniid genus Trematomus (66%) were the most abundant taxa within these two families. The most abundant non-notothenioids were the macrourid Macrourus whitsoni (72%) and zoarcids (18%). Amundsen Sea fishes were 87% notothenioids and 13% non-notothenioids, the latter exclusively Macrourus whitsoni. Bathydraconids (38%) and artedidraconids (30%) were the most abundant notothenioids. We observed that Macrourus whitsoni was benthopelagic and benthic and infested by large ectoparasitic copepods. Juvenile (42 cm) Dissostichus mawsoni was not neutrally buoyant and resided on the substrate at 1277 m. Lepidonotothen squamifrons was seen near and on nests of eggs in early December. A Pogonophryne sp. from 2127 m was not a member of the deep-living unspotted P. albipinna group. Chionobathyscus dewitti inhabited the water column as well as the substrate. The pelagic zoarcid Melanostigma gelatinosum was documented in the water column a few metres above the substrate. The zoogeographic character of the Marguerite Bay fauna was West Antarctic or low-Antarctic and the Amundsen Sea was East Antarctic or high-Antarctic.

Keywords

ChionobathyscusDissostichusLepidonotothenMacrourusNotothenioideiPogonophryne
Type
Biological Sciences
Information
Antarctic Science , Volume 25 , Issue 1 , February 2013 , pp. 31 - 43
Copyright
Copyright © Antarctic Science Ltd 2012

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

Footnotes

This paper is dedicated to the memory of Rebecca Dickhut. Her management skills and boundless energy as co-chief scientist of our Oden cruise made it possible for us to capture the images of Amundsen Sea fauna highlighted here.

References

Andriashev, A.P. 1987. A general review of the Antarctic bottom fish fauna. In Kullander, S.O. & Fernholm, B., eds. Proceedings of the fifth congress of European ichthyologists, Stockholm, 1985. Stockholm: Swedish Museum of Natural History, 357372.Google Scholar
Andriashev, A.P.Neyelov, A.V. 1978. The new whiteblooded fish (Chionobathyscus dewitti, gen. et sp. n.; fam. Channichthyidae) from the continental slope of the East Antarctic. In Skarlato,O.A.,Andriashev, A.P., Barsukov, V.V., Dorofeeva, E.A., Korovina, V.M.&Neyelov, A.V., eds. Morphology and systematics of fish. Leningrad: Akademia Nauk SSSR, 512.Google Scholar
Arana, P.M.Vega, R. 1999. Exploratory fishing for Dissostichus spp. in the Antarctic region (subareas 48.1, 48.2 and 88.3). CCAMLR Science, 6, 117.Google Scholar
Balushkin, A.V.Prut'ko, V.G. 2006. On occurrences of Chionobathyscus dewitti (Notothenioidei Channichthyidae) in the Ross Sea. Journal of Ichthyology, 46, 271273.CrossRefGoogle Scholar
Brooks, C.M., Andrews, A.H., Ashford, J.R., Ramanna, N., Jones, C.D., Lundstrom, C.C.Cailliet, G. 2011. Age estimation and lead-radium dating of Antarctic toothfish (Dissostichus mawsoni) in the Ross Sea. Polar Biology, 34, 329338.CrossRefGoogle Scholar
Cullins, T.L., DeVries, A.L.Torres, J.J. 2011. Antifreeze proteins in pelagic fishes from Marguerite Bay (western Antarctica). Deep-Sea Research II, 58, 16901694.CrossRefGoogle Scholar
Cziko, P.A., Evans, C.W., Cheng, C.-H.C.DeVries, A.L. 2006. Freezing resistance of antifreeze-deficient larval Antarctic fish. Journal of Experimental Biology, 209, 407420.CrossRefGoogle ScholarPubMed
Daniels, R.A.Lipps, J.H. 1982. Distribution and ecology of fishes of the Antarctic Peninsula. Journal of Biogeography, 9, 19.CrossRefGoogle Scholar
Dewitt, H.H., Heemstra, P.C.Gon, O. 1990. Nototheniidae. In Gon,O.&Heemstra,P.C.,eds. Fishes of the Southern Ocean. Grahamstown: JLB Smith Institute of Ichthyology, 279–331.Google Scholar
Donnelly, J.Torres, J.J. 2008. Pelagic fishes in the Marguerite Bay region of the West Antarctic Peninsula continental shelf. Deep-Sea Research II, 55, 523539.CrossRefGoogle Scholar
Duhamel, G., Gasco, N.Davaine, P. 2005. Poissons des îles Kerguelen et Crozet. Guide régional de l'Océan Austral. Paris: Muséum National d'Histoire Naturelle, 419 pp.Google Scholar
Eakin, R.R. 1990. Artedidraconidae. In Gon,O.&Heemstra,P.C.,eds. Fishes of the Southern Ocean. Grahamstown: JLB Smith Institute of Ichthyology, 332356.Google Scholar
Eakin, R.R., Eastman, J.T.Matallanas, J. 2008. New species of Pogonophryne (Pisces, Artedidraconidae) from the Bellingshausen Sea, Antarctica. Polar Biology, 31, 11751179.CrossRefGoogle Scholar
Eakin, R.R., Eastman, J.T.Near, T.J. 2009. A new species and a molecular phylogenetic analysis of the Antarctic fish genus Pogonophryne (Notothenioidei: Artedidraconidae). Copeia, 4, 705713.CrossRefGoogle Scholar
Eastman, J.T. 1993. Antarctic fish biology: evolution in a unique environment. San Diego, CA: Academic Press, 322 pp.Google Scholar
Eastman, J.T. 2005. The nature of the diversity of Antarctic fishes. Polar Biology, 28, 93107.CrossRefGoogle Scholar
Eastman, J.T.Barry, J.P. 2002. Underwater video observation of the Antarctic toothfish Dissostichus mawsoni (Perciformes: Nototheniidae) in the Ross Sea, Antarctica. Polar Biology, 25, 391395.CrossRefGoogle Scholar
Eastman, J.T.DeVries, A.L. 1981. Buoyancy adaptations in a swim-bladderless Antarctic fish. Journal of Morphology, 167, 91102.CrossRefGoogle Scholar
Eastman, J.T.Hubold, G. 1999. The fish fauna of the Ross Sea, Antarctica. Antarctic Science, 11, 293304.CrossRefGoogle Scholar
Eastman, J.T.Lannoo, M.J. 2003. Anatomy and histology of the brain and sense organs of the Antarctic plunderfish Dolloidraco longedorsalis (Perciformes: Notothenioidei: Artedidraconidae), with comments on the brain morphology of other artedidraconids and closely related harpagiferids. Journal of Morphology, 255, 358377.CrossRefGoogle ScholarPubMed
Eastman, J.T.Sidell, B.D. 2002. Measurements of buoyancy for some Antarctic notothenioid fishes from the South Shetland Islands. Polar Biology, 25, 753760.CrossRefGoogle Scholar
Ekau, W. 1990. Demersal fish fauna of the Weddell Sea, Antarctica. Antarctic Science, 2, 129137.CrossRefGoogle Scholar
Ekau, W.Gutt, J. 1991. Notothenioid fishes from the Weddell Sea and their habitat, observed by underwater photography and television. Proceedings of the National Institute of Polar Research Symposium on Polar Biology, 4, 3649.Google Scholar
Eschmeyer, W.N., Fricke, R., Fong, J.D.Polack, D.A. 2010. Marine fish diversity: history of knowledge and discovery (Pisces). Zootaxa, 2525, 1950.CrossRefGoogle Scholar
Fenaughty, J.M., Stevens, D.W.Hanchet, S.M. 2003. Diet of the Antarctic toothfish (Dissostichus mawsoni) from the Ross Sea, Antarctica (Subarea 88.1). CCAMLR Science, 10, 113123.Google Scholar
Gerasimchuk, V.V. 1986. Characteristics of Antarctic silverfish, Pleuragramma antarctica (Nototheniidae), from Olaf-Pruds Bay (Commonwealth Sea, eastern Antarctica) with notes on the identification of the species. Journal of Ichthyology, 26, 1017.Google Scholar
Gon, O. 1988. The fishes collected during the South African SIBEX I+II expeditions to the Indian Ocean sector of the Southern Ocean (60–66°S, 48–64°E). South African Journal of Antarctic Research, 18, 5570.Google Scholar
Gon, O.Heemstra, P.C., eds. 1990. Fishes of the Southern Ocean. Grahamstown: JLB Smith Institute of Ichthyology, 462 pp.CrossRefGoogle Scholar
Gutt, J.Ekau, W. 1996. Habitat partitioning of dominant high Antarctic demersal fish in the Weddell Sea and Lazarev Sea. Journal of Experimental Marine Biology and Ecology, 206, 2537.CrossRefGoogle Scholar
Gutt, J., Ekau, W.Gorny, M. 1994. New results on the fish and shrimp fauna of the Weddell Sea and Lazarev Sea (Antarctic). Proceedings of the National Institute of Polar Research Symposium on Polar Biology, 7, 91102.Google Scholar
Hanchet, S.M., Tracey, D., Dunn, A., Horn, P.L.Smith, N. 2012. Mercury concentrations of two toothfish and three of its prey species from the Pacific sector of the Antarctic. Antarctic Science, 24, 3442.CrossRefGoogle Scholar
Hourigan, T.F.Radtke, R.L. 1989. Reproduction of the Antarctic fish Nothotheniops nudifrons. Marine Biology, 100, 277283.CrossRefGoogle Scholar
Iwamoto, T. 1990. Macrouridae. In Gon,O.&Heemstra,P.C.,eds. Fishes of the Southern Ocean. Grahamstown: JLB Smith Institute of Ichthyology, 192–206.Google Scholar
Jones, C.D.Near, T.J. 2012. The reproductive behaviour of Pogonophryne scotti confirms widespread egg-guarding parental care among Antarctic notothenioids. Journal of Fish Biology, 80, 26292635.CrossRefGoogle ScholarPubMed
Kaeli, J.W., Singh, H., Murphy, C.Kunz, K. 2011. Improving colour correction for underwater image surveys. Proceedings IEEE/MTS Oceans ’11, Kona, Hawaii, 19–22 September 2011. New York: Institute of Electrical and Electronic Engineers, 805810.Google Scholar
Kock, K.-H. 1992. Antarctic fish and fisheries. Cambridge: Cambridge University Press, 359 pp.Google Scholar
Kock, K.-H. 2005. Antarctic icefishes (Channichthyidae): a unique family of fishes. A review, part I. Polar Biology, 28, 862895.CrossRefGoogle Scholar
Kock, K.-H.Kellermann, A. 1991. Reproduction in Antarctic notothenioid fish. Antarctic Science, 3, 125150.CrossRefGoogle Scholar
Kock, K.-H., Jones, C.D.Wilhelms, S. 2000. Biological characteristics of Antarctic fish stocks in the southern Scotia Arc region. CCAMLR Science, 7, 141.Google Scholar
Konecki, J.T.Targett, T.E. 1989. Eggs and larvae of Nototheniops larseni from the spongocoel of a hexactinellid sponge near Hugo Island, Antarctic Peninsula. Polar Biology, 10, 197198.CrossRefGoogle Scholar
La Mesa, M., Eastman, J.T.Vacchi, M. 2004. The role of notothenioid fish in the food web of the Ross Sea shelf waters: a review. Polar Biology, 27, 321338.CrossRefGoogle Scholar
Marriott, P.M., Horn, P.L.McMillan, P. 2003. Species identification and age estimation for the ridge-scaled macrourid (Macrourus whitsoni) from the Ross Sea. CCAMLR Science, 10, 3751.Google Scholar
Massom, R.A.Stammerjohn, S.E. 2010. Antarctic sea ice change and variability - physical and ecological implications. Polar Science, 4, 149186.CrossRefGoogle Scholar
Matallanas, J. 2010. Description of two new genera, Santelmoa and Bentartia, and two new species of Zoarcidae (Teleostei, Perciformes) from the Southern Ocean. Polar Biology, 33, 659672.CrossRefGoogle Scholar
Matallanas, J.Olaso, I. 2007. Fishes of the Bellingshausen Sea and Peter I Island. Polar Biology, 30, 333341.CrossRefGoogle Scholar
Meredith, M.P., Wallace, M.I., Stammerjohn, S.E., Renfew, I.A., Clarke, A., Venables, H.J., Shoosmith, D.R., Souster, T.Leng, M.J. 2010. Changes in the freshwater composition of the upper ocean west of the Antarctic Peninsula during the first decade of the 21st century. Progress in Oceanography, 87, 127143.CrossRefGoogle Scholar
Near, T.J., Russo, S.E., Jones, C.D.DeVries, A.L. 2003. Ontogenetic shift in buoyancy and habitat in the Antarctic toothfish, Dissostichus mawsoni (Perciformes: Nototheniidae). Polar Biology, 26, 124128.CrossRefGoogle Scholar
Near, T.J., Dornburg, A., Kuhn, K.L., Eastman, J.T., Pennington, J.N., Patarnello, T., Zane, L., Fernández, D.A.Jones, C.D. 2012. Ancient climate change, antifreeze, and the evolutionary diversification of Antarctic fishes. Proceedings of the National Academy of Sciences of the United States of America, 109, 34343439.CrossRefGoogle ScholarPubMed
Olaso, I., Rauschert, M.De Broyer, C. 2000. Trophic ecology of the family Artedidraconidae (Pisces: Osteichthyes) and its impact on the eastern Weddell Sea benthic system. Marine Ecology Progress Series, 194, 143158.CrossRefGoogle Scholar
Parker, M.L., Donnelly, J.Torres, J.J. 2011. Invertebrate micronekton and macrozooplankton in the Marguerite Bay region of the Western Antarctic Peninsula. Deep-Sea Research II, 58, 15801598.CrossRefGoogle Scholar
Petrov, A.F. 2011a. Distribution and biological characteristics of two sister species of toothfishes of the genus Dissostichus (Fam. Nototheniidae) at Bouvet Island. Journal of Ichthyology, 51, 813818.CrossRefGoogle Scholar
Petrov, A.F. 2011b. New data on the diet of deep-sea icefish Chionobathyscus dewitti (Channichthyidae) in the Ross Sea in 2010. Journal of Ichthyology, 51, 692694.CrossRefGoogle Scholar
Roberts, J., Xavier, J.C.Agnew, D.J. 2011. The diet of toothfish species Dissostichus eleginoides and Dissostichus mawsoni with overlapping distributions. Journal of Fish Biology, 79, 138154.CrossRefGoogle ScholarPubMed
Rogers, A.D., Tyler, P.A., Connelly, D.P., Copley, J.T.James, R.E.A.et al. 2012. The discovery of new deep-sea hydrothermal vent communities in the Southern Ocean and implications for biogeography. PLoS Biology, 10, e1001234.CrossRefGoogle ScholarPubMed
Schneppenheim, R., Kock, K.-H., Duhamel, G.Jansen, G. 1994. On the taxonomy of the Lepidonotothen squamifrons group (Pisces, Perciformes, Notothenioidei). Archive of Fisheries and Marine Research, 42, 137148.Google Scholar
Singh, H., Roman, C., Pizarro, O.Can, A. 2007. Towards high-resolution imaging from underwater vehicles. International Journal of Robotics Research, 26, 5574.CrossRefGoogle Scholar
Smith, P.J., Steinke, D., McVeagh, S.M., Stewart, A.L., Struthers, C.D.Roberts, C.D. 2008. Molecular analysis of Southern Ocean skates (Bathyraja) reveals a new species of Antarctic skate. Journal of Fish Biology, 73, 11701182.CrossRefGoogle Scholar
Smith, P.J., Steinke, D., McMillan, P.J., Stewart, A.L., McVeagh, S.M., Diaz De Astarloa, J.M., Welsford, D.Ward, R.D. 2011. DNA barcoding highlights a cryptic species of grenadier Macrourus in the Southern Ocean. Journal of Fish Biology, 78, 355365.CrossRefGoogle ScholarPubMed
Stehmann, M.Bürkel, D.L. 1990. Rajidae. In Gon,O.&Heemstra,P.C.,eds. Fishes of the Southern Ocean. Grahamstown: JLB Smith Institute of Ichthyology, 8697.Google Scholar
Stein, D.L. 2012. Snailfishes (family Liparidae) of the Ross Sea, Antarctica, and closely adjacent waters. Zootaxa, 3285, 1120.CrossRefGoogle Scholar
Stein, D.L., Felley, J.D.Vecchione, M. 2005. ROV observations of benthic fishes in the Northwind and Canada Basins, Arctic Ocean. Polar Biology, 28, 232237.CrossRefGoogle Scholar
Sutton, C.P., Manning, M.J., Stevens, D.W.Marriott, P.M. 2008. Biological parameters for icefish (Chionobathyscus dewitti) in the Ross Sea, Antarctica. CCAMLR Science, 15, 139165.Google Scholar
Vacchi, M., La Mesa, M., Dalu, M.MacDonald, J. 2004. Early life stages in the life cycle of Antarctic silverfish, Pleuragramma antarcticum in Terra Nova Bay, Ross Sea. Antarctic Science, 16, 299305.CrossRefGoogle Scholar
Walter, T., Palm, H.W., Piepiorka, S.Rückert, S. 2002. Parasites of the Antarctic rattail Macrourus whitsoni (Regan, 1913) (Macrouridae, Gadiformes). Polar Biology, 25, 633640.CrossRefGoogle Scholar
Yau, C., Collins, M.A., Bagley, P.M., Everson, I.Priede, I.G. 2002. Scavenging by megabenthos and demersal fish on the South Georgia slope. Antarctic Science, 14, 1624.CrossRefGoogle Scholar
Zaitsev, A.K. 1989. The reproductive biology of gray Notothenia, Lepidonotothen squamifrons squamifrons, of the Indian sector of Southern Ocean. Journal of Ichthyology, 29, 917.Google Scholar
Zimmermann, C. 1997. On the demersal fish fauna of the Lazarev Sea (Antarctica): composition and community structure. In Battaglia,B., Valencia, J. & Walton, D.W.H., eds. Antarctic communities: species, structure and survival. Cambridge: Cambridge University Press, 2632.Google Scholar