Projected shifts in copepod surface communities in the Mediterranean Sea under several climate change scenarios

Fabio Benedetti1, François Guilhaumon2, Fanny Adloff3, Jean-Olivier Irisson1 and Sakina-Dorothee Ayata1, (1)UPMC-LOV, Villefranche sur mer, France, (2)UMR MARBEC - UM2/IRD/CNRS, Montpellier, France, (3)CNRM/GMGEC-MétéoFrance, Toulouse, France
Abstract:
Although future increases in water temperature and future changes in regional circulation are expected to have great impacts on the pelagic food-web, estimates focusing on community-level shifts are still lacking for the planktonic compartment.

By combining statistical niche models (or species distribution models) with projections from a regional circulation model, the impact of climate change on copepod epipelagic communities is assessed for the Mediterranean Sea. Habitat suitability maps are generated for 106 of the most abundant copepod species to analyze emerging patterns of diversity at the community level. Using variance analysis, we also quantified the uncertainties associated to our modeling strategy (niche model choice, CO2 emission scenario, boundary forcings of the circulation model). Comparing present and future projections, changes in species richness (alpha diversity) and in community composition (beta diversity, decomposed into turnover and nestedness component) are calculated.

Average projections show that copepod communities will mainly experience turn-over processes, with little changes in species richness. Species gains are mainly located in the Gulf of Lions, the Northern Adriatic and the Northern Aegean seas. However, projections are highly variable, especially in the Eastern Mediterranean basin. We show that such variability is mainly driven by the choice of the niche model, through interactions with the CO2 emission scenario or the boundary forcing of the circulation model can be locally important. Finally, the possible impact of the estimated community changes on zooplanktonic functional and phylogenetic diversity is also assessed.

We encourage the enlargement of this type of study to other components of the pelagic food-web, and argue that niche models’ outputs should always be given along with a measure of uncertainty, and explained in light of a strong theoretical background.