|Evolution of the global wind wave climate in CMIP5 experiments|
M Dobrynin, J Murawsky, S Yang
Geophysical Research Letters 39 (18), L18606, 2012
|Turbulent Mixing due to Surface Waves Indicated by Remote Sensing of Suspended Particulate Matter and Its Implementation into Coupled Modeling of Waves, Turbulence, and Circulation|
A Pleskachevsky, M Dobrynin, AV Babanin, H Günther, E Stanev
Journal of Physical Oceanography 41 (4), 708-724, 2011
|Bed shear stress in the southern North Sea as an important driver for suspended sediment dynamics|
EV Stanev, M Dobrynin, A Pleskachevsky, S Grayek, H Günther
Ocean Dynamics 59 (2), 183-194, 2009
|SMOS sea ice product: Operational application and validation in the Barents Sea marginal ice zone|
L Kaleschke, X Tian-Kunze, N Maaß, A Beitsch, A Wernecke, M Miernecki, ...
Remote Sensing of Environment 180, 264-273, 2016
|Effect of waves and currents on the dynamics and seasonal variations of suspended particulate matter in the North Sea|
M Dobrynin, G Gayer, A Pleskachevsky, H Günther
Journal of Marine Systems 82 (1-2), 1-20, 2010
|Detection and attribution of climate change signal in ocean wind waves|
M Dobrynin, J Murawski, J Baehr, T Ilyina
Journal of Climate 28 (4), 1578-1591, 2015
|A 20-year reanalysis experiment in the Baltic Sea using three-dimensional variational (3DVAR) method.|
W Fu, J She, M Dobrynin
Ocean Science 8 (5), 2012
|Overview of experiment design and comparison of models participating in phase 1 of the SPARC Quasi-Biennial Oscillation initiative (QBOi)|
N Butchart, et. al
Geoscientific Model Development, 2018
|The Max Planck Institute Grand Ensemble-Enabling the Exploration of Climate System Variability|
N Maher, S Milinski, L Suarez-Gutierrez, M Botzet, M Dobrynin, ...
Journal of Advances in Modeling Earth Systems, 2019
|Improved teleconnection‐based dynamical seasonal predictions of boreal winter|
M Dobrynin, DIV Domeisen, WA Müller, L Bell, S Brune, F Bunzel, ...
Geophysical Research Letters 45, 2018
|Robustness and uncertainties in global multivariate wind-wave climate projections|
J Morim, M Hemer, XL Wang, N Cartwright, C Trenham, A Semedo, ...
Nature Climate Change 9 (9), 711-718, 2019
|CMIP5-derived single-forcing, single-model, and single-scenario wind-wave climate ensemble: configuration and performance evaluation|
A Semedo, M Dobrynin, G Lemos, A Behrens, J Staneva, H De Vries, ...
Journal of Marine Science and Engineering 6 (3), 90, 2018
|Investigating the Dynamics of Suspended Particulate Matter in the North Sea Using a Hydrodynamic Transport Model and Satellite Data Assimilation|
GKSS-Forschungszentrum Geesthacht GmbH, Bibliothek/Library, 2009
|Seasonal predictability of European summer climate re-assessed|
NC Neddermann, WA Müller, M Dobrynin, A Düsterhus, J Baehr
Climate Dynamics, 1-18, 2019
|Improved Seasonal Prediction of European Summer Temperatures With New Five‐Layer Soil‐Hydrology Scheme|
F Bunzel, WA Müller, M Dobrynin, K Fröhlich, S Hagemann, H Pohlmann, ...
Geophysical Research Letters 45 (1), 346-353, 2018
|Mid-twenty-first century global wave climate projections: Results from a dynamic CMIP5 based ensemble|
G Lemos, A Semedo, M Dobrynin, A Behrens, J Staneva, JR Bidlot, ...
Global and Planetary Change 172, 69-87, 2018
|Changes in forcing factors affecting coastal and shallow water erosion in the future Arctic climate change projections.|
M Dobrynin, S Razumov, V Brovkin, T Ilyina, M Grigoriev
EGU General Assembly Conference Abstracts 18, 2016
|Anomalous hydrographic conditions in the western Barents Sea observed in March 2014|
M Dobrynin, T Pohlmann
Continental Shelf Research 111, 69-82, 2015
|Investigation and modelling of suspended particulate matter in Port Phillip Bay|
A Belski, AV Babanin, S Zieger, M Dobrynin, A Pleskachevsky
The Twenty-second International Offshore and Polar Engineering Conference, 2012
|A statistical-dynamical seasonal prediction of the summer North Atlantic Oscillation|
A Düsterhus, M Dobrynin, DIV Domeisen, H Pohlmann, WA Müller, ...
EGU General Assembly Conference Abstracts 19, 7153, 2017