Sakradzija M., F. Senf, L. Scheck, M. Ahlgrimm, and D. Klocke, 2020: Local impact of stochastic shallow convection on clouds and precipitation in the tropical Atlantic, Mon. Wea. Rev., 148, 12, 5041–5062,

Fiedler et al., 2020: Simulated Tropical Precipitation Assessed Across Three Major Phases of the Coupled Model Intercomparison Project (CMIP), Mon. Wea. Rev., 148, 3653–3680,

Zheng, Y., M. Sakradzija, S. Lee, and Z. Li, 2020: Theoretical understanding of the linear relationship between convective updrafts and cloud-base height for shallow cumulus clouds. Part II: Continental conditions, Journal of the Atmospheric Sciences,77, 1313–1328.

Sakradzija, M, and M. Klingebiel, 2020: Comparing ground‐based observations and a large‐eddy simulation of shallow cumuli by isolating the main controlling factors of the mass flux distribution. Q J R Meteorol Soc. ; 146: 254– 266.


Mieslinger T., A. Horváth, S. A. Buehler, and M. Sakradzija, 2019: The dependence of shallow cumulus macrophysical properties on large-scale meteorology as observed in ASTER imagery, Journal of Geophysical Research: Atmospheres, 124,


Sakradzija, M., and D. Klocke, 2018: Physically constrained stochastic shallow convection in realistic kilometer-scale simulations, Journal of Advances in Modeling Earth Systems, 10,

Giorgetta, M., R. Brokopf, T. Crueger, M. Esch, S. Fiedler, J. Helmert, C. Hohenegger, L. Kornblueh, M. Köhler, E. Manzini, T. Mauritsen, C. Nam, S. Rast, C. Reick, D. Reinert, M. Sakradzija, H. Schmidt, R. Schnur, L. Silvers, H. Wan, G. Zängl and B. Stevens, 2018ICON-A, the atmospheric component of the ICON Earth System Model. Part I: Model Description, Journal of Advances in Modeling Earth Systems, 10,

Crueger, T., M. A. Giorgetta, R. Brokopf, M. Esch, S. Fiedler, C. Hohenegger, L. Kornblueh, T. Mauritsen, C. Nam, A. K. Naumann, K. Peters, S. Rast, E. Roeckner, H. Schmidt, M. Sakradzija, J. Vial, R. Vogel and B. Stevens, 2018: ICON-A, the atmosphere component of the ICON Earth System Model. Part II: Model evaluation, Journal of Advances in Modeling Earth Systems, 10,


Sakradzija, M., and C. Hohenegger, 2017: What determines the distribution of shallow convective mass flux through cloud base?, Journal of the Atmospheric Sciences, 74, 2615-2632,

Berner, J., Achatz, U., Batte, L., De La Camara, A., Crommelin, D., Christensen, H., Colangeli, M., Dolaptchiev, S., Franzke, C., Friederichs, P., Imkeller, P., Jarvinen, H., Juricke, S., Kitsios, V., Lott, F., Lucarini, V., Mahajan, S., Palmer, T., Penland, C., von Storch, J., Sakradzija, M., Weniger, M., Weisheimer, A., Williams, P. & Yano, J.-I., 2017: Stochastic parameterization: Towards a new view of weather and climate models, Bulletin of the American Meteorological Society, 98, 565-587,  doi:10.1175/BAMS-D-15-00268.1


Sakradzija, M., A. Seifert, and A. Dipankar, 2016: A stochastic scale-aware parameterization of shallow cumulus convection across the convective gray zone, Journal of Advances in Modeling Earth Systems, 8, doi:10.1002/2016MS000634


Sakradzija, M., Seifert, A., and Heus, T., 2015: Fluctuations in a quasi-stationary shallow cumulus cloud ensemble, Nonlinear Processes in Geophysics, 22, 65-85, doi:10.5194/npg-22-65-2015


Mihailović, D. T., Alapaty, K., and Sakradzija, M., 2008: Development of a non-local convective mixing scheme with varying upward mixing rates for use in chemical transport models, Environmental Science and Pollution Research, 15/4, 296-302

List of conference and workshop contributions