Geoscientific Model Development (Jun 2012)
Water isotope variations in the global ocean model MPI-OM
Abstract
The stable water isotopes H<sub>2</sub><sup>18</sup>O and HDO are incorporated as passive tracers into the oceanic general circulation model MPI-OM, and a control simulation under present-day climate conditions is analyzed in detail. Both δ<sup>18</sup>O and δD distributions at the ocean surface and deep ocean are generally consistent with available observations on the large scale. The modelled δD-δ <sup>18</sup>O relations in surface waters slightly deviates from the slope of the global meteoric water line in most basins, and a much steeper slope is detected in Arctic Oceans. The simulated deuterium excess of ocean surface waters shows small variations between 80° S and 55° N, and a strong decrease north of 55° N. The model is also able to capture the quasi-linear relationship between δ<sup>18</sup>O and salinity <i>S</i>, as well as δD and <i>S</i>, as seen in observational data. Both in the model results and observations, the surface δ−<i>S</i> relations show a steeper slope in extra-tropical regions than in tropical regions, which indicates relatively more addition of isotopically depleted water at high latitudes.