Overview
The WG Atmosphere Ice Ocean (AIO) aims to build up regional Earth system models by coupling the atmosphere in the COSMO-CLM and ICON-CLM with other components of the climate system such as ocean, sea ice, hydrology, etc. and investigate their interaction and feedback.
Regional climate models (RCMs) are tools for dynamical downscaling coarse results from global climate circulation models (GCMs), which are nowadays mainly coupled atmosphere-ocean models (AOGCMs). Ideally, RCMs should be able to determine the regional climate without the influence of the GCMs, except at the lateral boundaries. However, presently this is not the case for COSMO-CLM/ICON-CLM, since the lower boundary values over the sea are taken from the AOGCMs. This has a major impact on the quality of the regional model simulations as shown already for the Baltic Sea, the North Sea and the Mediterranean Sea. To overcome this problem regional coupled atmosphere-ocean models may be used for climate simulations. Several groups in the CLM-Community are working on the coupling of a regional ocean to COSMO-CLM/ICON-CLM.
Wiki 🔑AIO
Tasks
Improve the representation of the ocean and the interaction with the atmosphere in the COSMO-CLM (Hereon; IOW; Goethe University Frankfurt, BTU Cottbus) and in the ICON-CLM (Hereon; DWD; IMS; CMCC) over the North-Baltic Sea and Mediterranean Sea
Simulating polynya processes in the Laptev Sea and the Weddell Sea with a fully coupled A-I-O model (University Trier)
Assess the added value of high-resolution climatic hindcasts and scenarios for the Mediterranean when using coupled atmosphere-ocean models (IMK-TRO, KIT)
To get better accuracy, since in the CIRA simulations the lower boundary values over the sea are taken from the global coupled model CMCC-MED. A better regional representation of the Mediterranean Sea is also important in order to increase the accuracy also for climate simulations of the Alpine space (CIRA)
Carry out simulations over the Southern Ocean to investigate seasonal simulations covering the confluence region of the Brazil and Malvinas currents, where many oceanic eddies occur (C2SM-ETHZ). Thereby two major questions are addressed: (1) What is the impact of the highly resolved SST on fluxes between the atmosphere and the ocean and on the lower troposphere? Are highly resolved SSTs required to realistically represent fluxes of heat and freshwater in that region? (2) How are these processes affected by the coupling between the atmosphere and the ocean?
Considered domains
The red boxes give a rough idea of the domains, however, they do not represent the exact boundaries.
Model components
Models: Ocean / Ice / Runoff / Wave | Region | Scientists | Institution | Status |
NEMO / LIM3 / HD | North Sea, Baltic Sea | Ha Hagemann, Stefan Hagemann | Hereon | running |
TRIM / CICE / HD | North Sea, Baltic Sea | Ha Hagemann, Stefan Hagemann | Hereon | development stopped |
NEMO / LIM3 / WAM | North Sea, Baltic Sea | Anne Wiese, Ha Hagemann | Hereon | no update available |
NEMO / SI3 | North Sea, Baltic Sea | Vera Maurer | DWD | running |
MOM / SIS /ERGOM | Baltic Sea | Sven Karsten, Markus Meier | IOW | running |
NEMO-MED / TRIP | Mediterranean Sea | Neelam Rajput, Bodo Ahrens | GUF | running |
NEMO-MED / LIM3 | Mediterranean Sea | Elykom Vadislavsky, Pavel Khain | IMS | running |
NEMO-MED / LIM3 | Mediterranean Sea | Angelo Campanale, Paola Mercogliano | CMCC | developing |
NEMO-MED / LIM3 | Mediterranean Sea | Andreas Will | BTU Cottbus | no update available |
FESOM / FESOM | CCLM | Arctic, Laptev Sea, Svalbard | Oliver Gutjahr | MPI-M | no update available |
NEMO / LIM3 | (Western) Mediterranean, Northeast Atlantic | Hendrik Feldmann, Gerd Schädler | IMK-TRO (KIT) | no update available |
ROMS | Southern Atlantic | David Byrne, Lukas Papritz | ETHZ | no update available |
Ocean model / | CORDEX East Asia | Donghyun Lee | Pohang Uni. of Sci. & Tech., South Korea | no update available |
Meetings
Date | Meeting and Location | Documents |
---|---|---|
2023/09/21 | CLM-Assembly Online Meeting | 🔑Minutes |
2022/09/21 | CLM-Assembly Online Meeting | 🔑Minutes |
2021/09/21 | CLM-Assembly Online Meeting | 🔑Minutes |
2021/03/16 | ICCARUS online | 🔑 |
2020/09/14 | CLM-Assembly Online Meeting | 🔑Minutes |
2018/09/19 | CLM-Assembly in Karlsruhe | 🔑Minutes |
2018/03/01 | ICCARUS in Offenbach | |
2017/09/19 | CLM-Assembly in Graz | |
2017/03/09 | ICCARUS in Offenbach | |
2016/09/19 | CLM-Assembly in Lüneburg | |
2013/08/29 | CLM-Community Assembly in Zürich | |
2013/03/07 | COSMO/CLM Seminar in Offenbach | |
2012/09/17 | CLM-Community Assembly in Leuven | |
2012/03/08 | COSMO/CLM Seminar in Offenbach | |
2011/08/30 | CLM-Community Assembly in Cava de' Tirreni | |
2011/03/03 | COSMO/CLM Seminar in Langen | |
2010/08/31 | Startup Meeting in Berlin |
Documents
See Material
Publications
2024
Karsten, S., Radtke, H., Gröger, M., Ho-Hagemann, H. T. M., Mashayekh, H., Neumann, T., and Meier, H. E. M. (2024): Flux coupling approach on an exchange grid for the IOW Earth System Model (version 1.04.00) of the Baltic Sea region, Geosci. Model Dev., 17, 1689–1708, https://doi.org/10.5194/gmd-17-1689-2024
2023
Grayek, S., Wiese A. , Ho-Hagemann, H. T. M., Staneva, J., Added Value of Including Waves into Coupled Atmosphere-Ocean Model System within the North Sea Area, Frontiers in Marine Science, https://doi.org/ 10.3389/fmars.2023.1104027
Hagemann, S., Ho-Hagemann, H. T. M., and Hanke, M.: The Hydrological Discharge Model - a river runoff component for offline and coupled model applications (5.2.2), Zenodo, https://doi.org/10.5281/zenodo.10405875, 2023.
2022
Ho-Hagemann, H.T.M. (2022). The OASIS3-MCT Coupling Interface for ICON-CLM (1.0.0). Zenodo. https://doi.org/10.5281/zenodo.5833118
Rockel, B. (2022). SPICE (Starter Package for ICON-CLM Experiments) (1.1). Zenodo.https://doi.org/10.5281/zenodo.6517710
2021
Gröger, M., Dieterich, C., Haapala, J., Ho-Hagemann, H.T.M., Hagemann, S., Jakacki, J., May, W., Meier, H.E.M., Miller, P.A., Rutgersson, A., & Wu, L. (2021): Coupled regional Earth system modeling in the Baltic Sea region. Earth Syst. Dynam., 12, 939–973, doi:10.5194/esd-12-939-2021
Hagemann, S., and Ho-Hagemann, H.T.M.: The Hydrological Discharge Model - a river runoff component for offline and coupled model applications (5.0.0), Zenodo. https://doi.org/10.5281/zenodo.4893099, 2021.
Pham, T. V., Steger, C., Rockel, B., Keuler, K., Kirchner, I., Mertens, M., Rieger, D., Zängl, G., and Früh, B.: ICON in Climate Limited-area Mode (ICON release version 2.6.1): a new regional climate model, Geosci. Model Dev., 14, 985–1005, https://doi.org/10.5194/gmd-14-985-2021, 2021.
2020
Hagemann, S., Stacke, T., and Ho-Hagemann, H.T.M.: High resolution discharge simulations over Europe and the Baltic Sea catchment, Frontiers in Earth Science, 8, https://doi.org/10.3389/feart.2020.00012, 2020.
Ho-Hagemann, H. T. M., Hagemann, S., Grayek, S., Petrik, R., Rockel, B., Staneva, J., Feser, F., and Schrum, C.: Internal model variability of the regional coupled system model GCOAST-AHOI, Atmosphere, 11(3), 227. https://doi.org/10.3390/atmos11030227, 2020.
Wiese, A., Staneva, J., Ho-Hagemann, H. T. M., Grayek, S., Koch, W., and Schrum, C.: Internal Model Variability of Ensemble Simulations with a Regional Coupled Wave-Atmosphere Model GCOAST, Frontiers in Marine Science, 7, 596843, https://doi.org/10.3389/fmars.2020.596843, 2020.
2019
Wiese, A., Stanev, E., Koch, W., Behrens, A., Geyer, B., and Staneva, J.: The Impact of the Two-Way Coupling between Wind Wave and Atmospheric Models on the Lower Atmosphere over the North Sea, Atmosphere 2019, 10, 386, https://doi.org/10.3390/atmos10070386, 2019.
2018
Ho-Hagemann, H.T.M., & Rockel, B. (2018): Einfluss von Atmosphäre-Ozean Wechselwirkungen auf Starkniederschläge über Europa. In: Lozán, J.L., Breckle, S.-W., Graßl, H., Kasang, D., & Weisse, R. (Hsg.): Warnsignal Klima: Extremereignisse, www.klima-warnsignale.uni-hamburg.de/wetterextreme/
Staneva, J., Schrum, C., Behrens, A., Grayek, S., Ho-Hagemann, H., Alari, V., Breivik, Ø., and Bidlot, J.-R.: A North Sea - Baltic Sea regional coupled models: atmosphere, wind, waves and ocean. In: Buch, E., Fernández, V., Eparkhina, D., Gorringe, P., and Nolan, G. (Eds.): Operational Oceanography serving Sustainable Marine Development, Proceedings of the Eight EuroGOOS International Conference, 516 pp, ISBN 978-2-9601883-3-2, 2018.
2017
Akhtar, N., J. Brauch, B. Ahrens (2017): Climate Modeling over the Mediterranean Sea: Impact of Resolution and Ocean Coupling. Clim. Dyn. DOI 10.1007/s00382-017-3570-8
Ho-Hagemann, H. T. M., Gröger, M., Rockel, B., Zahn, M., Geyer, B., and Meier, H. E. M.: Effects of air-sea coupling over the North Sea and the Baltic Sea on simulated summer precipitation over Central Europe, Clim Dyn 49, 3851-3876. https://doi.org/10.1007/s00382-017-3546-8, 2017.
Pham, Trang Van; J. Brauch, B. Früh, B. Ahrens (2017): Simulation of snowbands in the Baltic Sea area with the coupled atmosphere-ocean-ice model COSMO-CLM/NEMO. Met. Z., doi: 10.1127/metz/2016/0775
Rockel, B., J. Brauch, O. Gutjahr, N. Akhtar, H.T.M. Ho-Hagemann (2017): Gekoppelte Modellsysteme: Atmosphäre und Ozean. Promet - Meteorologische Fortbildung, 99, 65-75
Wahle, K., Staneva, J., Koch, W., Fenoglio-Marc, L., Ho-Hagemann, H.T.M., and Stanev, E.V.: An atmosphere–wave regional coupled model: improving predictions of wave heights and surface winds in the southern North Sea, Ocean Sci., 13, 289-301, https://doi.org/10.5194/os-13-289-2017, 2017.
Will, A., Akhtar, N., Brauch, J., Breil, M., Davin, E., Ho-Hagemann, H.T.M., Maisonnave, E., Thürkow, M., and Weiher, S.: The COSMO-CLM 4.8 regional climate model coupled to regional ocean, land surface and global earth system models using OASIS3-MCT: Description and performance, Geosci. Model Dev. 2017, 10, 1549–1586. Doi:10.5194/gmd-10-1549-2017, 2017.
2016
Byrne, D., M. Münnich, I. Frenger, N. Gruber (2016): Mesoscale atmosphere-ocean coupling enhances the transfer of wind energy into the ocean, Nature Communications 7, doi:10.1038/ncomms11867
Ruti P.M., S. Somot, F. Giorgi, C. Dubois, E. Flaounas, A. Obermann, A. Dell'Aquila, G. Pisacane, A. Harzallah, E. Lombardi, B. Ahrens, N. Akhtar, A. Alias, T. Arsouze, R. Aznar, S. Bastin, J. Bartholy, K. Béranger, J. Beuvier, S. Bouffies-Cloché, J. Brauch, W. Cabos, S. Calmanti, J.-C. Calvet, A. Carillo D. Conte, E. Coppola, V. Djurdjevic, P. Drobinski, A. Elizalde-Arellano, M. Gaertner, P. Galàn, C. Gallardo, S. Gualdi, M. Goncalves, O. Jorba, G. Jordà, B. L'Heveder, C. Lebeaupin-Brossier, L. Li, G. Liguori, P. Lionello, D. Maciàs-Moy, P. Nabat, B. Onol, B. Rajkovic, K. Ramage, F. Sevault, G. Sannino, M.V. Struglia, A. Sanna, C. Torma, V. Vervatis (2016): MED-CORDEX initiative for Mediterranean Climate studies. Bull. of the American Meteorological Society, 97(7), 1187-1208, doi: 10.1175/BAMS-D-14-00176.1
2015
Ho-Hagemann, H. T. M., Hagemann, S., and Rockel, B.: On the role of soil moisture in the generation of heavy rainfall during the Oder flood event in July 1997, Tellus A 2015, 67, 28661, https://doi.org/10.3402/tellusa.v67.28661, 2015.
2014
Akhtar, N.J., J. Brauch, A. Dobler, K. Béranger, B. Ahrens (2014): Medicanes in an ocean-atmosphere coupled regional climate model. Nat. Hazards Earth Syst. Sci., 14, 2189-2201, doi:10.5194/nhess-14-2189-2014
Pham, T.V., J. Brauch, C. Dieterich, B. Früh, B. Ahrens (2014):
New coupled atmosphere-ocean-ice system COSMO-CLM/NEMO: On the air temperature sensitivity on the North and Baltic Seas. Oceanologia, 56(2), 167-189, doi:10.5697/oc.56-2.167
2013
Ho-Hagemann H, Rockel B, Kapitza H and Geyer B (2013): COSTRICE-an atmosphere-ocean-sea ice model coupled system using OASIS3, HZG Report (2013-5), 24pp
1998
Hagemann, S., and Dümenil, L.: A parametrization of the lateral waterflow for the global scale, Climate Dyn., 14, 17–31, https://doi.org/10.1007/s003820050205, 1998.
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Coordinator Alumni List
Jennifer Brauch (2016 - 2021)
Bodo Ahrens (2014 - 2016)
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