Register      Login
Marine and Freshwater Research Marine and Freshwater Research Society
Advances in the aquatic sciences
RESEARCH ARTICLE

Benthic mollusc assemblages in West Antarctica: taxa composition and ecological insights

Sandra Gordillo A C , Mariano E. Malvé B and Gisela Moran A
+ Author Affiliations
- Author Affiliations

A Centro de Investigaciones en Ciencias de la Tierra (CICTERRA, CONICET-UNC), Avenida Vélez Sársfield 1611, X5016GCA Córdoba, Argentina.

B Facultad de Ciencias Exactas, Físicas y Naturales, Universidad Nacional de Córdoba, Avenida Vélez Sársfield 299, X5000JJC Córdoba, Argentina.

C Corresponding author. Email: sandra.gordillo@unc.edu.ar

Marine and Freshwater Research 68(11) 2095-2105 https://doi.org/10.1071/MF16349
Submitted: 11 March 2016  Accepted: 8 February 2017   Published: 28 April 2017

Abstract

Although different studies in Antarctica have dealt with benthic communities, few studies have focused on molluscan assemblages and their ecology. During the austral summer of 2011, 17 stations between depths of 68.5 and 754 m were sampled in West Antarctica using a demersal bottom trawl pilot net on board RV ARA Puerto Deseado. In all, 1848 specimens of shelled molluscs were recorded. Gastropods were the most diverse group (species richness = 74) and bivalves were the most abundant (n = 1344). Shannon–Wiener diversity index values ranged between 0.58 and 2.99, with great variation at different stations. Cluster analysis using the Bray–Curtis coefficient showed three distinct assemblages types: one dominated by suspension feeders; a second with representatives from different trophic groups, including suspension feeders, grazers, scavengers, predators and deposit feeders; and a third, more differentiated, with few taxa and dominated by deposit feeders. Finally, multivariate analysis suggests that bivalves were more sensitive to temperature, whereas gastropods were more sensitive to depth.


References

Absher, T. M., and Feijó, A. R. (1998). Morphology and ecology of bivalve molluscs from Admiralty Bay, King George Island, Antarctica. Brazilian Archives of Biology and Technology 41, 437–446.
Morphology and ecology of bivalve molluscs from Admiralty Bay, King George Island, Antarctica.Crossref | GoogleScholarGoogle Scholar |

Aldea, C., and Troncoso, J. S. (2010). ‘Molluscos del Mar de Bellingshausen (Antarctica).’ (Feito, S.L.: Vigo, Spain.)

Aldea, C., Olabarria, C., and Troncoso, J. S. (2008). Bathymetric zonation and diversity gradient of gastropods and bivalves in West Antarctica from the South Shetland Islands to the Bellingshausen Sea. Deep-sea Research. Part I, Oceanographic Research Papers 55, 350–368.
Bathymetric zonation and diversity gradient of gastropods and bivalves in West Antarctica from the South Shetland Islands to the Bellingshausen Sea.Crossref | GoogleScholarGoogle Scholar |

Arnaud, P. M., Troncoso, J. S., and Ramos, A. (2001). Species diversity and assemblages of macrobenthic mollusca from the South Shetland Islands and Bransfield Strait (Antarctica). Polar Biology 24, 105–112.
Species diversity and assemblages of macrobenthic mollusca from the South Shetland Islands and Bransfield Strait (Antarctica).Crossref | GoogleScholarGoogle Scholar |

Brey, T., and Clarke, A. (1993). Population dynamics of marine benthic invertebrates in Antarctic and subantarctic environments: are there unique adaptations? Antarctic Science 5, 253–266.
Population dynamics of marine benthic invertebrates in Antarctic and subantarctic environments: are there unique adaptations?Crossref | GoogleScholarGoogle Scholar |

Convey, P. C., Bindschadler, R., Di Prisco, G., Fahrbach, E., Gutt, J., Hodgson, D. A., Mayewski, P., Summerhayes, C. P., and Turner, J. (2009). Antarctic climate change and the environment. Antarctic Science 21, 541–563.
Antarctic climate change and the environment.Crossref | GoogleScholarGoogle Scholar |

Deheyn, D. D., Gendreau, P., Baldwin, R. J., and Latz, M. I. (2005). Evidence for enhanced bioavailability of trace elements in the marine ecosystem of Deception Island, a volcano in Antarctica. Marine Environmental Research 60, 1–33.
Evidence for enhanced bioavailability of trace elements in the marine ecosystem of Deception Island, a volcano in Antarctica.Crossref | GoogleScholarGoogle Scholar | 1:CAS:528:DC%2BD2MXkslOlsA%3D%3D&md5=8f003faaeb6d2f38a9b3214b3fa1004cCAS |

Dell, R. K. (1972). Antarctic benthos. Advances in Marine Biology 10, 1–216.
Antarctic benthos.Crossref | GoogleScholarGoogle Scholar |

Dell, R. K. (1990). Antarctic mollusca: with special reference to the fauna of the Ross Sea. Bulletin of the Royal Society of New Zealand, Wellington 27, 1–311.

Fratt, D. B., and Dearborn, J. H. (1984). Feeding biology of the Antarctic brittle star Ophionotus victoriae (Echinodermata: Ophiuroidea). Polar Biology 3, 127–139.
Feeding biology of the Antarctic brittle star Ophionotus victoriae (Echinodermata: Ophiuroidea).Crossref | GoogleScholarGoogle Scholar |

Griffiths, H. J., Linse, K., and Crame, J. A. (2003). SOMBASE – Southern Ocean Mollusc Database: a tool for biogeographic analysis in diversity and ecology. Organisms, Diversity & Evolution 3, 207–213.
SOMBASE – Southern Ocean Mollusc Database: a tool for biogeographic analysis in diversity and ecology.Crossref | GoogleScholarGoogle Scholar |

Hammer, Ø., Harper, D. A. T., and Ryan, P. D. (2001). PAST: paleontological statistics software package for education and data analysis. Palaeontologia Electronica 4, 9.

Legendre, P., and Legendre, L. F. (2012). ‘Numerical Ecology’, Vol. 24. (Elsevier: Amsterdam, Netherlands.)

Linse, K. (2002). ‘The shelled Magellanic Mollusca: with special reference to biogeographic relations in the Southern Ocean. Theses Zoologicae vol. 74.’ (A.R.A. Ganter Verlag KG: Ruggell, Liechtenstein)

Lovell, L. L., and Trego, K. D. (2003). The epibenthic megafaunal and benthic infaunal invertebrates of Port Foster, Deception Island (South Shetland Islands, Antarctica). Deep-sea Research. Part II, Topical Studies in Oceanography 50, 1799–1819.
The epibenthic megafaunal and benthic infaunal invertebrates of Port Foster, Deception Island (South Shetland Islands, Antarctica).Crossref | GoogleScholarGoogle Scholar |

McKenna, J. E. (2003). An enhanced cluster analysis program with bootstrap significance testing for ecological community analysis. Environmental Modelling & Software 18, 205–220.
An enhanced cluster analysis program with bootstrap significance testing for ecological community analysis.Crossref | GoogleScholarGoogle Scholar |

Peck, L. S., and Conway, L. Z. (2000). The myth of metabolic cold adaptation: oxygen consumption in stenothermal Antarctic bivalves. Geological Society of London, Special Publications 177, 441–450.
The myth of metabolic cold adaptation: oxygen consumption in stenothermal Antarctic bivalves.Crossref | GoogleScholarGoogle Scholar |

Rhoads, D. C., and Young, D. K. (1970). The influence of deposit-feeding organisms on sediment stability and community trophic structure. Journal of Marine Research 28, 150–178.

Sahade, R., Lagger, C., Torre, L., Momo, F., Monien, P., Schloss, I., Barnes, D. K. A., Servetto, N., Tarantelli, S., Tatián, M., Zamboni, N., and Abele, D. (2015). Climate change and glacier retreat drive shifts in an Antarctic benthic ecosystem. Science Advances 1, e1500050.
Climate change and glacier retreat drive shifts in an Antarctic benthic ecosystem.Crossref | GoogleScholarGoogle Scholar |

ter Braak, C. J., and Verdonschot, P. F. (1995). Canonical correspondence analysis and related multivariate methods in aquatic ecology. Aquatic Sciences 57, 255–289.
Canonical correspondence analysis and related multivariate methods in aquatic ecology.Crossref | GoogleScholarGoogle Scholar |

Troncoso, J. S., and Aldea, C. (2008). Macrobenthic mollusc assemblages and diversity in the West Antarctica from the South Shetland Islands to the Bellingshausen Sea. Polar Biology 31, 1253–1265.
Macrobenthic mollusc assemblages and diversity in the West Antarctica from the South Shetland Islands to the Bellingshausen Sea.Crossref | GoogleScholarGoogle Scholar |

Troncoso, J. S., Aldea, C., García, F. J., Arnaud, P. M., and Ramos, A. (2007). Quantitative analysis of soft bottom molluscs in Bellingshausen Sea and Peter I Island. Polar Research 26, 126–134.
Quantitative analysis of soft bottom molluscs in Bellingshausen Sea and Peter I Island.Crossref | GoogleScholarGoogle Scholar |

Turner, J., Barrand, N. E., Bracegirdle, T. J., Convey, P., Hodgson, D. A., Jarvis, M., Jenkins, A., Marshall, G. J., Meredith, M. P., Roscoe, H. K., Shanklin, J. D., French, J., Goosse, H., Guglielmin, M., Gutt, J., Jacobs, S. S., Kennicutt, M. C. I., Masson-Delmotte, V., Mayewski, P., Navarro, F., Robinson, S., Scambos, T., Sparrow, M., Speer, K., Summerhayes, C. P., and Klepikov, A. V. (2014). Antarctic climate change and the environment – an update. The Polar Record 50, 237–259.
Antarctic climate change and the environment – an update.Crossref | GoogleScholarGoogle Scholar |

Zelaya, D. G. (2005). The bivalves from the Scotia Arc islands: species richness and faunistic affinities. Scientia Marina 69, 113–122.
The bivalves from the Scotia Arc islands: species richness and faunistic affinities.Crossref | GoogleScholarGoogle Scholar |