Estimating the biodiversity of the East Antarctic shelf and oceanic zone for ecoregionalisation: Example of the ichthyofauna of the CEAMARC (Collaborative East Antarctic Marine Census) CAML surveys
May 12, 2010

Authors: Koubbi, P., Ozouf-Costaz, C., Goarant, A., Moteki, M., Hulley, P.-A., Causse, R., Dettai, A., Duhamel, G., Pruvost, P., Tavernier, E., Post, A.L., Beaman, R.J., Rintoul, S.R., Hirawake, T., Hirano, D., Ishimaru, T., Riddle, M., Hosie, G.

Year: 2010

Publication: Polar Science 4, 115-133. doi: 10.1016/j.polar.2010.04.012


Ecoregions are defined in terms of community structure as a function of abiotic or even anthropogenic forcing. They are mesoscale structures defined as the potential habitat of a species or the predicted communities geographic extent. We assume that they can be more easily defined for long-lived species, such as benthos or neritic fish, in the marine environment.

Uncertainties exist for the pelagic realm because of its higher variability, plus little is known about the meso- and bathy-pelagic zones. A changing environment and modification of habitats will probably drive new communities from plankton to fish or top predators.

We need baseline studies, such as those of the Census of Antarctic Marine Life, and databases like SCAR-MarBIN as tools for integrating all of these observations. Our objective is to understand the biodiversity patterns in the Southern Ocean and how these might change through time.

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