The anthropogenic CO2 emissions into the atmosphere have been increasing since the industrial revolution and accelerating during the last decades. This process alters the climate system and the ocean uptake of anthropogenic CO2, resulting in a shift in the marine carbonate chemistry. Moreover, the extra heat accumulated in the atmosphere due to the greenhouse effect of CO2 is largely transferred to the ocean, enhancing water column stratification (i.e. a process that hampers the supply of nutrients to the upper ocean layers), and increasing the frequency, intensity, extent and duration of marine heatwaves (periods of extremely high ocean temperatures).
The group intends to unravel the impacts of the rapid human-induced atmospheric CO2 accumulation on the ocean chemistry (ocean acidification), physics (ocean warming, mixing and circulation) and on the marine ecosystems. The strategy is to target endemic ecosystems, model organisms and keystone species. This implies the combination of biological, micropaleontological and geochemical techniques to quantify and understand the planet Earth functioning under elevated CO2 conditions. The group is working on the present and past carbonate systems of main marine calcifiers, and their response/interaction to climate variability.