%0 online contribution %@ %A Hagemann, H.,Hagemann, S.,Grayek, S.,Petrik, R.,Rockel, B.,Staneva, J.,Feser, F.,Schrum, C. %D 2021 %J Climate Limited-area Modelling Community Newsletter %N %P 10-11 %T Internal model variability of the regional coupled system model GCOAST-AHOI %U %X Simulations of a Regional Climate Model (RCM) driven by identical lateral boundary conditions but initialized at different times exhibit the phenomenon of so-called internal model variability (or in short, Internal Variability—IV), which is defined as the inter-member spread between members in an ensemble of simulations. Our study investigates the effects of air-sea coupling on IV of the regional atmospheric model COSMO-CLM (CCLM) of the new regional coupled system model GCOAST-AHOI (Geesthacht Coupled cOAstal model SysTem - Atmosphere, Hydrology, Ocean and Sea Ice). We specifically address physical processes parameterized in CCLM, which may cause a large IV during an extreme event, and where this IV is affected by the air-sea coupling. Analyses focus on specific events during this period, especially on the storm Christian occurring from 27 to 29 October 2013 in northern Europe.