Feeding ecology of sea stars of the Southern Ocean: possible influence of sea ice on trophic niche partitioning

Sea stars (Echinodermata: Asteroidea) are a key component of the Southern Ocean benthos, with 12% of the known sea star species living in the Southern Ocean. This group is considered quite resistant to seawater temperature changes. However, it is still likely to be impacted by the modifications of e...

Full description

Bibliographic Details
Main Authors: Le Bourg, Baptiste, Blanchard, Alice, Danis, Bruno, Jossart, Quentin, Lepoint, Gilles, Moreau, Camille, Michel, Loïc
Format: Conference Object
Language:English
Published: 2018
Subjects:
Online Access:https://orbi.uliege.be/handle/2268/225975
https://orbi.uliege.be/bitstream/2268/225975/1/LeBourg-16echino-6.pdf
Description
Summary:Sea stars (Echinodermata: Asteroidea) are a key component of the Southern Ocean benthos, with 12% of the known sea star species living in the Southern Ocean. This group is considered quite resistant to seawater temperature changes. However, it is still likely to be impacted by the modifications of environmental conditions and food web functioning linked to climate change occurring in the Southern Ocean. Indeed, reduced abundances or disappearance of common prey put sea star populations at risk. However, trophic diversity, and notably capacity to switch prey according to environmental conditions (i.e. trophic plasticity) could help Southern Ocean sea stars to cope with climate-induced modifications of food web functioning. Western Antarctic Peninsula is one of the most rapidly warming regions of the world, resulting in sharp decreases in sea ice cover and ice season duration. In this context, this study used stable isotopes ratios of C (hereafter referred to as δ13C) and N (hereafter δ15N) to investigate the trophic ecology of sea stars and characterise their trophic diversity and plasticity along the continental shelf of Western Antarctic Peninsula. Sea stars were sampled during the austral summer in the South Shetland Islands, the South Orkney Islands and in Marguerite Bay. Intra- and interspecific patterns in trophic diversity were investigated in each region using isotopic dispersion as well as isotopic niche (proxy of the realised ecological niche) areas and overlap. In South Shetland and South Orkney Islands, sea stars were sampled far from the sea ice edge. In Shetland Islands, there was no difference of δ13C values between species or between the islands, indicating that sea stars of this region could rely on a common basal food source such as sinking phytoplankton. The overlap between the isotopic niches of sea star species was also important and sometimes complete at the scale of the whole region. Sea star species from South Orkney Islands had more variable δ13C but usually similar δ15N, suggesting a ...