Publications (since 2022)

In preparation/submitted/in review/in print
  • Herman, A., Bradtke, K. (2023). Fetch-limited, strongly forced wind waves in presence of frazil and grease ice – theoretical and modelling aspects [in preparation].
  • Świrad, Z.M., Moskalik, M., Herman, A. (2023). Wind wave and water level dataset for Hornsund, Svalbard (2013–2021). Earth Syst. Sci. Data Discuss. [preprint, in review] doi: 10.5194/essd-2023-21 (paper).
Journal papers
  • Bradtke, K., Herman, A. 2023. Spatial characteristics of frazil streaks in the Terra Nova Bay Polynya from high-resolution visible satellite imagery. The Cryosphere, 17, 2073–2094, doi: 10.5194/tc-17-2073-2023 (paper).
  • Herman, A., Węsławski, J.M. 2022. Typical and anomalous pathways of surface-floating material in the Northern North Atlantic and Arctic Ocean. Sci. Rep., 12, 20521, doi: 10.1038/s41598-022-25008-5 (paper).
Conference proceedings
  • Ackley, S., Smith, M., Guest, P., Herman, A., Shen, H. (2022). Winds, waves and ice formation in a coastal polynya. In: Proc. 26th IAHR International Symposium on Ice. IAHR, Montreal, Canada, 19–23 June 2022 (paper).

Earlier publications by Agnieszka Herman (at the University of Gdansk)

  • Herman, A., 2022. Granular effects in sea ice rheology in the marginal ice zone. Phil. Trans. Royal Soc. A, 380, 20210260, doi: 10.1098/rsta.2021.0260 (paper).
  • Herman, A., Wenta, M., Cheng, S., 2021. Sizes and shapes of sea ice floes broken by waves–A case study from the East Antarctic coast. Frontiers Earth Sci., 9, 655977, doi: 10.3389/feart.2021.655977.
  • Herman, A., 2021. Spectral wave energy dissipation due to under-ice turbulence. J. Phys. Oceanogr., 51, 1177-1186, doi: 10.1175/JPO-D-20-0171.1.
  • Wenta, M., Brus, D., Doulgeris, K., Vakkari, V., Herman, A., 2021. Winter atmospheric boundary layer observations over sea ice in the coastal zone of the Bay of Bothnia (Baltic Sea). Earth System Science Data, 13, 33-42, doi: 10.5194/essd-13-33-2021.
  • Herman, A., Dojczman, M., Świszcz, K., 2020. High-resolution simulations of interactions between surface ocean dynamics and frazil ice. The Cryosphere, 14, 3707-3729, doi: 10.5194/tc-14-3707-2020.
  • Herman, A., Cheng, S., Shen, H.H., 2019. Wave energy attenuation in fields of colliding ice floes – Part 1: Discrete-element modelling of dissipation due to ice–water drag. The Cryosphere, 13, 2887-2900, doi: 10.5194/tc-13-2887-2019 .
  • Herman, A., Cheng, S., Shen, H.H., 2019. Wave energy attenuation in fields of colliding ice floes – Part 2: A laboratory case study. The Cryosphere, 13, 2901-2914, doi: 10.5194/tc-13-2901-2019 .
  • Wenta, M., Herman, A., 2019. Area-averaged surface moisture flux over fragmented sea ice: floe size distribution effects and the associated convection structure within the atmospheric boundary layer. Atmosphere, 10, 654, doi: 10.3390/atmos10110654 .
  • Zagóski, P., Mędrek, K., Moskalik, M., Rodzik, J., Herman, A., Pawłowski, Ł., Jaskólski, M., 2019. Short-term development of Arctic beach system: Case study of wave control on beach morphology and sedimentology (Calypsostranda, Bellsund, Svalbard). Polish Polar Res., 40, 79-104, doi: 10.24425/ppr.2019.128368 .
  • Herman, A., Wojtysiak, K., Moskalik, M., 2019. Wind wave variability in Hornsund fjord, west Spitsbergen. Estuarine, Coastal, Shelf Sci., 217, 96-109, doi: 10.1016/j.ecss.2018.11.001 .
  • Herman, A., 2018. Wave-induced surge motion and collisions of sea ice floes: finite-floe-fize effects. J. Geophys. Res., 123, 7472-7494, doi: 10.1029/2018JC014500 .
  • Wenta, M., Herman, A., 2018. The influence of the spatial distribution of leads and ice floes on the atmospheric boundary layer over fragmented sea ice. Ann. Glaciol., 59, 213-230, doi: 10.1017/aog.2018.15
  • Wojtysiak, K., Herman, A., Moskalik, M., 2018. Wind wave climate of west Spitsbergen: seasonal variability and extreme events. Oceanologia, 60, 331-343, doi: 10.1016/j.oceano.2018.01.002
  • Herman, A., Evers, K.-U., Reimer, N., 2018. Floe-size distributions in laboratory ice broken by waves. The Cryosphere, 12, 685-699, doi: 10.5194/tc-12-685-2018 .
  • Herman, A., 2017. Wave-induced stress and breaking of sea ice in a coupled hydrodynamic discrete-element wave?ice model. The Cryosphere, 11, 2711-2725, doi: 10.5194/tc-11-2711-2017 .
  • Herman, A., 2016. Discrete-Element bonded-particle Sea Ice model DESIgn, version 1.3a – model description and implementation. Geosci. Model Dev., 9, 1219-1241, doi:10.5194/gmd-9-1219-2016.
  • Herman, A., 2015. Trends and variability of the atmosphere–ocean turbulent heat flux in the extratropical Southern Hemisphere. Scientific Reports, 5, 14900, doi:10.1038/srep14900.
  • Krężel, A., Bradtke, K, Herman, A., 2015. Use of satellite data in monitoring of hydrophysical parameters of the Baltic Sea environment. Polish Maritime Res., 22, 36-42, doi:10.1515/pomr-2015-0054.
  • Herman, A., 2013. Shear-jamming in two-dimensional granular materials with power-law grain-size distribution. Entropy, 15, 4802-4821, doi:10.3390/e15114802.
  • Herman, A., 2013. Numerical modeling of force and contact networks in fragmented sea ice. Annals Glaciology, 54, 114-120, doi:10.3189/2013AoG62A055.
  • Herman, A., Glowacki, O., 2012. Variability of sea ice deformation rates in the Arctic and their relationship with basin-scale wind forcing. The Cryosphere, 6, 1553-1559, doi:10.5194/tc-6-1553-2012.
  • Herman, A., 2012. Influence of ice concentration and floe-size distribution on cluster formation in sea ice floes. Cent. Europ. J. Phys., 10, 715-722, doi:10.2478/s11534-012-0071-6.
  • Herman, A., 2011. Molecular-dynamics simulation of clustering processes in sea-ice floes. Phys. Rev. E, 84, 056104, doi:10.1103/PhysRevE.84.056104. ; patrz także: manuskrypt w arXiv oraz info o artykule w Physics
  • Herman, A., Jędrasik, J., Kowalewski, M., 2011. Numerical modelling of thermodynamics and dynamics of sea ice in the Baltic Sea. Ocean Sci., 7, 257-276, doi:10.5194/os-7-257-2011.
  • Urbański, J., Wochna, A., Herman, A., 2011. Automated granulometric analysis and grain-shape estimation of beach sediments using object-based image analysis. J. Coastal Res., SI 64, 1745-1749.
  • Urbański, J.A., Herman, A., 2009. Water exchange between the basins of the German Wadden Sea studied with a coupled Matlab-ArcGIS model. J. Coastal Res., SI 56, 1085-1089.
  • Herman, A., Cheng, S., Shen, H.H., 2019. Modeling and observations of wave energy attenuation in fields of colliding ice floes, Proc. IUTAM Symposium on Physics and Mechanics of Sea Ice, Aalto, Finland, 3-7 VI 2019.
  • Herman, A., Cheng, S., Shen, H.H., 2019. Wave-induced floe–floe collisions and wave attenuation in the marginal ice zone, International Glaciological Society Sea Ice Symposium, Winnipeg, Kanada, 19–23 VIII 2019.
  • Herman, A., Cheng, S., Shen, H.H., 2019. Discrete-element modeling of wave-induced floe?floe collisions and collision-induced wave attenuation, IUTAM Symposium on Physics and Mechanics of Sea Ice, Aalto, Finland, 3-7 VI 2019.
  • Herman, A., 2018. Wave-induced floe?floe collisions and ocean?sea ice momentum transfer, POLAR-2018, Davos, Szwajcaria, 19-23 VI 2018.
  • Herman, A., 2018. Wave-induced stress and breaking of sea ice in a coupled hydrodynamic discrete-element wave–ice model, SIAM COnference on Nonlinear Waves and Coherent Structures, Anaheim, California, USA, 11-14 VI 2018.
  • Cheng, S., Tsarau, A., Li, H., Herman, A., Evers, K.-U., Shen, H., 2017. Loads on Structure and Waves in Ice (LS-WICE) Project, Part 1: Wave attenuation and dispersion in broken ice fields. Proc. 24th Int. Conf. on Port and Ocean Engng under Arctic Conditions (POAC), 11-16. Jun 2017, Busan, South Korea.
  • Herman, A., Tsarau, A., Evers, K.-U., Li, H., Shen, H., 2017. Loads on Structure and Waves in Ice (LS-WICE) Project, Part 2: Sea ice breaking by waves. Proc. 24th Int. Conf. on Port and Ocean Engng under Arctic Conditions (POAC), 11-16. Jun 2017, Busan, South Korea.
  • Tsarau, A., Sukhorukov, S., Herman, A., Evers, K.-U., Loset, S., 2017. Loads on Structure and Waves in Ice (LS-WICE) Project, Part 3: Ice-structure interaction under wave conditions. Proc. 24th Int. Conf. on Port and Ocean Engng under Arctic Conditions (POAC), 11-16. Jun 2017, Busan, South Korea.
  • Herman, A., 2017. DEM modelling of wave-induced floe-floe (and floe-structure) collisions, "Ice–Structure Interaction" Workshop, Isaac Newton Institute for Mathematical Sciences, Cambridge, UK, 6-10 XI 2017. (video)
  • Herman, A., 2017. Discrete-element models of sea ice dynamics and fracture, "Multi-scale Modelling of Ice Characteristics and Behaviour" Workshop, Isaac Newton Institute for Mathematical Sciences, Cambridge, UK, 11-15 IX 2017. (video)
  • Herman, A., 2017. Coupled hydrodynamic–discrete-element modeling of wave–sea ice interactions and ice breaking on waves, IGS Symposium on Polar Ice, Polar Climate, Polar Change, Boulder, Colorado, USA, 14-19 VIII 2017.
  • Wenta, M., Herman, A., 2017. The influence of ice fragmentation on the atmospheric boundary layer processes, IGS Symposium on Polar Ice, Polar Climate, Polar Change, Boulder, Colorado, USA, 14-19 VIII 2017.
  • Wenta, M., Herman, A., 2017. Submesoscale atmospheric boundary layer processes over fragmented sea ice, 97th AMS Annual Meeting, 14th Conference on Polar Meteorology and Oceanography, Seattle, USA, 22-26 I 2017.
  • Herman, A., 2016. Discrete-element modeling of selected aspects of sea ice dynamics and fracture, 31st IUGG Conf. on Mathematical Geophysics, Paryż, Francja, 6-10 VI 2016.
  • Herman, A., 2015. Modeling fracture and fragmentation of sea ice by means of a discrete-element bonded-particle model, 4th Conference on Particle-Based Methods (PARTICLES 2015), Barcelona, Hiszpania, 28-30 IX 2015.
  • Herman, A., 2015. Sea ice as a granular material – application of discrete-element models and statistical-physics methods to studies of sea ice dynamics and fracture, The Mathematics of Sea Ice, Pacific Institute for the Mathematical Sciences, Vancouver, Kanada, 24-26 IX 2015.
  • Herman, A., 2015. Discrete-element bonded-particle model of sea ice deformation and fragmentation, 13th US National Congress on Computational Mechanics, San Diego, Kalifornia, USA, 27-30 VII 2015.
  • Herman, A., 2015. Possibilities and challenges of using discrete-element models in studies of sea ice dynamics, fragmentation and floe formation, Floe Size Distribution Workshop, Oban, Szkocja, 6-7 VII 2015.
  • Herman, A., 2013. Discrete-element sea ice modeling in the marginal ice zone – state-of-the-art, perspectives, and challenges, American Geophysical Union (AGU) Fall Meeting, San Francisco, Kalifornia, USA, 9-13 XII 2013.
  • Herman, A., 2013. Molecular-dynamics simulation of contact and force networks in fragmented sea ice under shear deformation. Proc. 3rd Int. Conf. on Particle-based Methods – Fundamentals and Applications, 18-20 IX 2013, Stuttgart, Niemcy, 659-669.
  • Herman, A., 2013. Molecular-dynamics simulation of contact and force networks in fragmented sea ice under shear deformation, 3rd Conf. Particle-Based Methods (PARTICLES 2013), Stuttgart, Niemcy, 18-20 IX 2013.
  • Herman, A., 2013. Sea-ice boundary conditions in a mesoscale atmospheric model of the Baltic Sea region, Davos Atmosphere and Cryosphere Assembly (DACA-13), Davos, Szwajcaria, 8-12 VII 2013.
  • Herman, A., 2012. Numerical modeling of force and contact networks in fragmented sea ice, American Geophysical Union (AGU) Fall Meeting, San Francisco, Kalifornia, USA, 2-7 XII 2012.
  • Glowacki, O., Herman, A., 2012. Sea ice deformation rates in the Arctic: from wind-driven synoptic variability to seasonal trends, American Geophysical Union (AGU) Fall Meeting, San Francisco, Kalifornia, USA, 2-7 XII 2012.
  • Herman, A., 2012. Molecular-dynamics simulation of sea-ice at medium ice concentrations, International Symposium on Seasonal Snow and Ice, Lahti, Finlandia, 28 V-1 VI 2012.
  • Herman, A., Urbanski, J., Wochna, A., 2012. Numerical modeling of storm-induced morphodynamic changes at a micro-tidal sandy coast, European Geosciences Union General Assembly, Vienna, Austria, 22-27 IV 2012.
  • Herman, A., Glowacki, O., 2012. Synoptic-scale variability of satellite-derived sea-ice deformation rates in the Arctic, European Geosciences Union General Assembly, Vienna, Austria, 22-27 IV 2012.
  • Herman, A., 2011. Neural-Network Modeling and Data Analysis Techniques in Coastal Hydrodynamic Studies: A Review. In: L.L. Wright (Ed.), Sea Level Rise, Coastal Engineering, Shorelines and Tides (Oceanography and Ocean Engineering Series), Nova Science Publishers, ISBN: 978-1-61728-655-1, 295-317. (link do wydawcy) Artykuły z konferencji
  • Herman, A., 2011. Statistical model of dynamical sea ice deformation and breaking, International Conference "Micro-DIce: Ice deformation; from the model material to ice in natural environments", Grenoble, Francja, 7-9 XI 2011.
  • Herman, A., 2011. Inelastic collisions and clustering of sea ice floes – the influence of floe-size distribution on cluster formation and patterns of motion of sea ice, International Conference on Statistical Physics "SigmaPhi 2011", Larnaca, Cyprus, 11-15 VII 2011. (abstract)
  • Herman, A., 2011. Inellastic collisions and clustering of ice floes – relationships between floe-size distribution and clustering processes in sea ice, Gordon Research Conference "Exploring Complex Systems in Polar Marine Science", Ventura, Kalifornia, USA, 20-25 III 2011. (poster)
  • Herman, A., 2011. Mechanisms of sea ice breaking and floe formation and their influence on floe-size distribution – a simple one-dimensional model, Gordon Research Seminar "Polar Marine Science", Ventura, Kalifornia, USA, 19-20 III 2011.
  • Herman, A., 2010. Sea-ice floe-size distribution in the context of spontaneous scaling emergence in stochastic systems. Phys. Rev. E, 81, 066123, doi:10.1103/PhysRevE.81.066123.
  • Bradtke, K., Herman, A., Urbański, J.A., 2010. Spatial and interannual variations of seasonal sea surface temperature patterns in the Baltic Sea. Oceanologia, 52, 345-362.
  • Herman, A., Kaiser, R., Niemeyer, H.D., 2009. Wind-wave variability in a shallow tidal sea – spectral modelling combined with neural network methods. Coastal Engng, 56, 759-772, doi:10.1016/j.coastaleng.2009.02.007.
  • Herman, A., Urbański, J.A., 2009. Water exchange between the basins of the German Wadden Sea studied with a coupled Matlab-ArcGIS model, 10th Int. Coastal Symp., Lisbon, Portugal.
  • Urbański, J.A., Herman, A., 2009. Water exchange between the basins of the German Wadden Sea studied with a coupled Matlab-ArcGIS model. J. Coastal Res., SI 56 (Proc. 10th Int. Coastal Symp., Lisbon, Portugal), 1085-1089.
  • Kaiser, R., Herman, A., Niemeyer, H.D., 2008. Analysis of a medium-term wave climate in a tidal basin. Proc. 31st Int. Conf. Coastal Engng, ASCE, 31.Aug.-5.Sep. 2008, Hamburg, Germany, 595-604. (abstract)
  • Herman, A., Kaiser, R., Niemeyer, H.D., 2007. Modelling of a medium-term dynamics in a shallow tidal sea, based on combined physical and neural network methods. Ocean Modelling, 17, 277-299, doi:10.1016/j.ocemod.2007.02.004.
  • Herman, A., 2007. Numerical modelling of water transport processes in partially-connected tidal basins. Coastal Engng, 54, 297-320, doi:10.1016/j.coastaleng.2006.10.003.
  • Herman, A., 2007. Nonlinear principal component analysis of the tidal dynamics in a shallow sea. Geophys. Res. Lett., 34, L02608, doi:10.1029/2006GL027769.
  • Herman, A., 2006. Three-dimensional structure of wave-induced momentum flux in irrotational waves in combined shoaling-refraction conditions. Coastal Engng, 53, 545-555, doi:10.1016/j.coastaleng.2005.12.001.
  • Herman, A., Kaiser, R., Niemeyer, H.D., 2006. Medium-term wave and current modelling for a mesotidal Wadden Sea coast. Proc. 30th Int. Conf. Coastal Engng, ASCE, 3-8 Sep. 2006, San Diego, USA, 628-639. (abstract)
  • Dankert, H., Herman, A., Günther, H., 2005. Medium-term wave climate modeling in coastal areas of the German Bight, 9th International Conference on Estuarine and Coastal Modelling, Charleston, South Carolina, USA, 21 X-2 XI 2005.
  • Niemeyer, H.D., Kaiser, R., Herman, A., 2004. Effects of boundary condition evaluation on design wave modeling. Proc. 29th Int. Conf. Coastal Engng, ASCE, 19-24 Sep. 2004, Lisbon, Portugal, 804-817. (abstract)
  • Holthuijsen, L.H., Herman, A., Booij, N., 2003. Phase-decoupled refraction-diffraction for spectral wave models. Coastal Engng, 49, 291-305, doi:10.1016/S0378-3839(03)00065-6.
  • Holthuijsen, L.H., Herman, A., Booij, N., Cieślikiewicz, W., 2002. Experimental mild-slope diffraction in the SWAN wave model, Proc. 28th Int. Conf. Coastal Engng, ASCE, 7-12 July 2002, Cardiff, Wales, 405-412.
  • Cieślikiewicz, W., Herman, A., 2002. Wave and current modelling over the Baltic Sea and the Gdańsk Bay. Proc. 28th Int. Conf. Coastal Engng, ASCE, 7-12 July 2002, Cardiff, Wales, 176-187.
  • Cieślikiewicz, W., Herman, A., 2002. Numerical modelling of waves and currents over the Balic Sea and the Gulf of Gdansk, Proc. 5th Int. Conf. Hydro-Science and Engng, Warsaw, Poland. Wystąpienia na konferencjach
  • Cieślikiewicz, W., Herman, A., 2002. Wave forecasting over the Baltic Sea and the Gulf of Gdańsk using WAM and SWAN models with wind forcing data modelled by ICM. In: Research works based on the ICM's UMPL Numerical Weather Prediction System results, Wydawnictwa Uniwersytetu Warszawskiego, 97-108.
  • Herman, A., Jankowski, A., 2001. Wind- and density-driven water circulation in the southern Baltic Sea - a numerical analysis. TASK Quarterly - Scientific Bulletin of the Academic Computer Centre in Gdansk, 5, 1, 29-58. (abstract) Rozdziały w książkach
  • Cieślikiewicz, W., Herman, A., 2001. Wave and current modelling over the Baltic Sea and the Gulf of Gdansk, Waves In Shallow water Environment (WISE) Group Meeting, Orillia, Ontario, Canada, 29 IV-03 V 2001.
  • Cieślikiewicz, W., Herman, A., 2000. Wind wave modelling over the Baltic Sea and the Gulf of Gdańsk using WAM and SWAN models. BOOS Workshop on Wave Forecasts and Air-Sea Interaction, Danish Meteorological Institute, Copenhagen, 31 X-1 XI 2000.
  • Beszczyńska-Möller, A., Herman, A., 2000. Mesoscale dynamics of the southern Baltic Sea. 25th General Assembly of the European Geophysical Union, Nice, France, 25-29 IV 2000.
  • Herman, A., 2000. Numerical modelling of hydrodynamic processes in the Baltic Sea, based on the results of ICM atmospheric model. Ogólnopolska Konferencja Naukowa "Dane gridowe - nowa jakość w badaniach klimatologicznych i hydroklimatycznych?", Starbienino, Poland, 5-6 X 2000.




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