Publications
The following overview contains only peer reviewed articles. For grey literature follow this link.
2023 2022 2021 2020 2019 2018 2017 2016 2015 2014 2013 2012 2011 2010 2009 2008 2007 2006 2005 before 2005
2023
Adinolfi, M., M. Raffa, A. Reder, P. Mercogliano (2023): Investigation on potential and limitations of ERA5 Reanalysis downscaled on Italy by a convection-permitting model. Clim Dyn (2023). https://doi.org/10.1007/s00382-023-06803-w
Apreda, C., J.-P. Schulz, A. Reder, P. Mercogliano (2023): Survey of land cover datasets for updating the imperviousness field in urban parameterisation scheme TERRA_URB for climate and weather applications. Urban Climate, 49, 101535, https://doi.org/10.1016/j.uclim.2023.101535
Belušić Vozila, A., D. Belušić, M.T. Prtenjak, I. Güttler, S. Bastin, E. Brisson, M.-E. Demory, A. Dobler, H. Feldmann, Ø. Hodnebrog, S. Kartsios, K. Keuler, T. Lorenz, J. Milovac, E. Pichelli, M. Raffa, P.M.M. Soares, M.H. Tölle, H. Truhetz, H. de Vries, K. Warrach-Sagi (2023): Evaluation of the near-surface wind field over the Adriatic region: local wind characteristics in the convection-permitting model ensemble. Clim Dyn (2023). https://doi.org/10.1007/s00382-023-06703-z
Hamouda, M. E., C. Czakay, C. Primo, A. Hoff, B. Ahrens (2023): Zu atmosphärischen Ursachen für extreme Hochwasserereignisse in Mitteleuropa. Hydrologie und Wasserbewirtschaftung (HyWa), 67, 209–219. DOI: 10.5675/HyWa_2023.5_2
Heinemann, G., L. Schefczyk, R. Zentek, I.M. Brooks,S. Dahlke, A. Walbröl (2022): Evaluation of Vertical Profiles and Atmospheric Boundary Layer Structure Using the Regional Climate Model CCLM during MOSAiC. Meteorology 2023, 2(2), 257-275; https://doi.org/10.3390/meteorology2020016
Meredith, E.P., U. Ulbrich, H.W. Rust (2023): Cell tracking of convective rainfall: sensitivity of climate-change signal to tracking algorithm and cell definition (Cell-TAO v1.0). Geosci. Model Dev., 16, 851–867, 2023 Cell tracking of convective rainfall: sensitivity of climate-change signal to tracking algorithm and cell definition (Cell-TAO v1.0)
Mishra, A.N., D. Maraun, R. Knevels, H. Truhetz, A. Brenning, H. Proske (2023): Climate change amplified the 2009 extreme landslide event in Austria. Clim. Change, (2023) 176:124, https://doi.org/10.1007/s10584-023-03593-2
Müller, S.K, C. Caillaud, S. Chan, H. de Vries, S. Bastin, S. Berthou, E. Brisson, M.-E. Demory, H. Feldmann, K. Goergen, S. Kartsios, P. Lind, K. Keuler, E. Pichelli, M. Raffa, M.H. Tölle, K. Warrach-Sagi (2023): Evaluation of Alpine-Mediterranean precipitation events in convection-permitting regional climate models using a set of tracking algorithms. Clim Dyn 61, 939–957 (2023). https://doi.org/10.1007/s00382-022-06555-z
Raffa, M., M. Adinolfi, A, Reder, G.F. Marras, M, Mancini, G. Scipione, M. Santini, P. Mercogliano (2023): Very High Resolution Projections over Italy under different CMIP5 IPCC scenarios. Sci Data 10, 238 (2023). https://doi.org/10.1038/s41597-023-02144-9
Sangelantoni,L., S. Sobolowski, T. Lorenz, Ø. Hodnebrog, R. M. Cardoso, P. M. M. Soares, R. Ferretti, A. Lavín-Gullón, J. Fernandez, K. Goergen, J. Milovac, E. Katragkou, S. Kartsios, E. Coppola, E. Pichelli, M. Adinolfi, P. Mercogliano, S. Berthou, H. de Vries, A. Dobler, D. Belušić, H. Feldmann, M. H. Tölle, S. Bastin (2023): Investigating the representation of heatwaves from an ensemble of km-scale regional climate simulations within CORDEX-FPS convection. Clim Dyn (2023). https://doi.org/10.1007/s00382-023-06769-9
Singh, P., B. Ahrens (2023): Modeling Lightning Activity in the Third Pole Region: Performance of a km-Scale ICON-CLM Simulation. Atmosphere 2023, 14(11), 1655; Modeling Lightning Activity in the Third Pole Region: Performance of a km-Scale ICON-CLM Simulation
Soares, P.M.M., J. A. M. Careto, R.M. Cardoso, K. Goergen, E. Katragkou, S. Sobolowski, E. Coppola, N. Ban, D. Belušić, S. Berthou, C. Caillaud, A. Dobler, Ø. Hodnebrog, S. Kartsios, G. Lenderink, T. Lorenz, J. Milovac, H. Feldmann, E. Pichelli, H. Truhetz, M.E. Demory, H. de Vries, K. Warrach-Sagi, K. Keuler, M. Raffa, M. Tölle, K. Sieck, S. Bastin (2022): The added value of km-scale simulations to describe temperature over complex orography: the CORDEX FPS-Convection multi-model ensemble runs over the Alps. Clim Dyn (2022). https://doi.org/10.1007/s00382-022-06593-7
Sonuç, C. Y., Y. Ünal, S. İncecik (2023): Convection-permitting climate simulations with COSMO-CLM over northwestern Türkiye under the RCP8.5 scenario. RMetS, Vol. 43, 3841-3858, Convection‐permitting climate simulations with COSMO‐CLM over northwestern Türkiye under the RCP8.5 scenario
Tim, N., E. Zorita, B. Hünicke, I. Ivanciu (2023): The impact of the Agulhas Current system on precipitation in southern Africa in regional climate simulations covering the recent past and future. Weather Clim. Dynam., 4, 381–397, https://doi.org/10.5194/wcd-4-381-2023
Truhetz, H., A.N. Mishra (2023): Soil moisture precipitation feedbacks in the Eastern European Alpine region in convection-permitting climate simulations. Int. Journal of Clim., DOI: 10.1002/joc.8234
Ugolotti, A., T. Anders, B. Lanssens, T. Hickler, L. François, M.H. Tölle (2023): Impact of bias correction on climate change signals over central Europe and the Iberian Peninsula. Front. Environ. Sci., Vol. 11 - 2023, https://doi.org/10.3389/fenvs.2023.1116429
2022
Akhtar, N., Geyer, B., & Schrum, C. (2022): Impacts of accelerating deployment of offshore windfarms on near-surface climate. Sci Rep 12, 18307 (2022), doi:10.1038/s41598-022-22868-9
Caldas-Alvarez, A., M. Augenstein, G. Ayzel, K. Barfus, R. Cherian, L. Dillenardt, F. Fauer, H. Feldmann, M. Heistermann, A. Karwat, F. Kaspar, H. Kreibich, E.E. Lucio-Eceiza, E.P. Meredith, S. Mohr, D. Niermann, S. Pfahl, F. Ruff, H.W. Rust, L. Schoppa, T. Schwitalla, S. Steidl, A.H. Thieken, J.S. Tradowsky, V. Wulfmeyer, J. Quaas (2022): Meteorological, impact and climate perspectives of the 29 June 2017 heavy precipitation event in the Berlin metropolitan area. Nat. Hazards Earth Syst. Sci., 22, 3701–3724, 2022
Meteorological, impact and climate perspectives of the 29 June 2017 heavy precipitation event in the Berlin metropolitan area
Ehmele, F., L.-A. Kautz, H. Feldmann, Y. He, M. Kadlec, F.D. Kelemen, H.S. Lentink, P. Ludwig, D. Manful, J.G. Pinto (2022): Adaptation and application of the large LAERTES-EU regional climate model ensemble for modeling hydrological extremes: a pilot study for the Rhine basin. Nat. Hazards Earth Syst. Sci., 22, 677–692, 2022, Adaptation and application of the large LAERTES-EU regional climate model ensemble for modeling hydrological extremes: a pilot study for the Rhine basin
Furusho-Percot, C., K. Goergen, C. Hartick, L. Poshyvailo-Strube, S. Kollet (2022): Groundwater Model Impacts Multiannual Simulations of Heat Waves. Geophy. Res. Letters, Vol. 49, 10, https://doi.org/10.1029/2021GL096781
Heinemann, G., C. Drüe, A. Makshtas (2022): A three-years climatology of the wind field structure at Cape Baranova (Severnaya Zemlya, Siberia) from SODAR observations and high-resolution regional climate model simulations during YOPP. Atmosphere, 13, 957, doi: 10.3390/atmos13060957.
Heinemann, G., L. Schefczyk, S. Willmes, M.D. Shupe (2022): Evaluation of simulations of near-surface variables using the regional climate model CCLM for the MOSAiC winter period. Elementa: Science of the Anthropocene (2022) 10 (1): 00033. https://doi.org/10.1525/elementa.2022.00033
Krug, A., F. Aemisegger, M. Sprenger, B. Ahrens (2022): Moisture sources of heavy precipitation in Central Europe in synoptic situations with Vb-cyclones. Clim. Dyn., DOI: 10.1007/s00382-022-06256-7
Lee, D., S.-K. Min, I.-H. Park, J.-B. Ahn, D.-H. Cha, E.-C. Chang, Y.-H. Byun (2022): Enhanced Role of Convection in Future Hourly Rainfall Extremes Over South Korea. Geophysical Research Letters, 49, e2022GL099727. https://doi.org/10.1029/2022GL099727
Maraun, D., R. Knevels, A.N. Mishra, H. Truhetz, E. Bevacqua, H. Proske, G. Zappa, A. Brenning, H. Petschko, A. Schaffer, P. Leopold, B.L. Puxley (2022): A severe landslide event in the Alpine foreland under possible future climate and land-use changes. Communications Earth & Environment, 3(87): 1–11. https://doi.org/10.1038/s43247-022-00408-7
Moemken, J., B. Koerner, F. Ehmele, H. Feldmann, J.G. Pinto (2022): Recurrence of Drought Events Over Iberia. Part II: Future Changes Using Regional Climate Projections. Tellus A: Dynamic Meteorology and Oceanography, 74, 262–279. doi:10.16993/tellusa.52
Mooney, P. A., D. Rechid, E.L. Davin, E. Katragkou, N. de Noblet-Ducoudré, M. Breil, R.M. Cardoso, A.S. Daloz, P. Hoffmann, D.C.A. Lima, R. Meier, P.M.M. Soares, G. Sofiadis, S. Strada, G. Strandberg, M.H. Toelle, M.T. Lund (2022): Land–atmosphere interactions in sub-polar and alpine climates in the CORDEX Flagship Pilot Study Land Use and Climate Across Scales (LUCAS) models – Part 2: The role of changing vegetation. The Cryosphere, 16, 1383–1397, 2022, doi:10.5194/tc-16-1383-2022
Olaniyan, E.A., C. Cafaro, S.B. Ogungbenro, I.E. Gbode, V.O. Ajayi, A. Oluleye, E.A. Adefisan, J. Schwendike, K.A. Lawal (2022): Performance evaluation of a high-resolution regional model over West Africa for operational use: A case study of August 2017. Meteorol Appl. 29:e2080, https://doi.org/10.1002/met.2080
Pelletier, C., T. Fichefet, H. Goosse, K. Haubner, S. Helsen, P.-V. Huot, C. Kittel, F. Klein, S. Le clec'h, N.P.M. van Lipzig, S. Marchi, F. Massonnet, P. Mathiot, E. Moravveji, E. Moreno-Chamarro, P. Ortega, F. Pattyn, N. Souverijns, G. Van Achter, S. Vanden Broucke, A. Vanhulle, D. Verfaillie, L. Zipf (2022): PARASO, a circum-Antarctic fully coupled ice-sheet–ocean–sea-ice–atmosphere–land model involving f.ETISh1.7, NEMO3.6, LIM3.6, COSMO5.0 and CLM4.5. Geosci. Model Dev., 15, 553–594, 2022, PARASO, a circum-Antarctic fully coupled ice-sheet–ocean–sea-ice–atmosphere–land model involving f.ETISh1.7, NEMO3.6, LIM3.6, COSMO5.0 and CLM4.5
Prein, A.F., N. Ban, T. Ou, J. Tang, K. Sakaguchi, E. Collier, S. Jayanarayanan, L. Li, S. Sobolowski, X. Chen, X. Zhou, H.-W. Lai, S. Sugimoto, L. Zou, S. ul Hasson, M. Ekstrom, P.K. Pothapakula, B. Ahrens, R. Stuart, H.C. Steen-Larsen, R. Leung, D. Belusic, J. Kukulies, J. Curio, D. Chen (2022): Towards Ensemble-Based Kilometer-Scale Climate Simulations over the Third Pole Region. Clim. Dyn., Vol. 60, pages4055–4081 (2023). https://doi.org/10.1007/s00382-022-06543-3
Preußer, A., G. Heinemann, L. Schefczyk, S. Willmes (2022): A Model-Based Temperature Adjustment Scheme for Wintertime Sea-Ice Production Retrievals from MODIS. Remote Sens. 2022, 14(9), 2036; https://doi.org/10.3390/rs14092036
Russo, E., B. Fallah, P. Ludwig, M. Karremann, C. Raible C.C. (2022): The long-standing dilemma of European summer temperatures at the mid-Holocene and other considerations on learning from the past for the future using a regional climate model. Clim. Past, 18, 895–909, The long-standing dilemma of European summer temperatures at the mid-Holocene and other considerations on learning from the past for the future using a regional climate model
Shrestha, P., J. Mendrok, V. Pejcic, S. Trömel, U. Blahak, J.T. Carlin (2022): Evaluation of the COSMO model (v5.1) in polarimetric radar space – Impact of uncertainties in model microphysics, retrievals, and forward Operator. Geosci. Model Dev., 15, 291–313, 2022, https://doi.org/10.5194/gmd-15-291-2022
Sofiadis, G.,E. Katragkou, E.L. Davin, D. Rechid, N. de Noblet-Ducoudre, M. Breil, R.M. Cardoso, P. Hoffmann, L. Jach, R. Meier, P.A. Mooney, P.M.M. Soares, S. Strada, M.H. Tölle, K. Warrach Sagi (2022): Afforestation impact on soil temperature in regional climate model simulations over Europe. Geosci. Model Dev., 15, 595–616, 2022
2021
Adinolfi, M., M. Raffa, A. Reder, P. Mercogliano (2021): Evaluation and Expected Changes of Summer Precipitation at Convection Permitting Scale with COSMO-CLM over Alpine Space. Atmosphere 2021, 12(1), 54; https://doi.org/10.3390/atmos12010054
Ahrens, B., N, Leps (2021): Sensitivity of Convection Permitting Simulations to Lateral Boundary Conditions in Idealised Experiments. J. of Adv. in Mod. Earth Systems (JAMES), doi: 10.1029/2021MS002519
Akhtar, N., Geyer, B., Rockel, B., Sommer, P.S., & Schrum, C. (2021): Accelerating deployment of offshore wind energy alter wind climate and reduce future power generation potentials. Sci Rep 11, 11826, doi:10.1038/s41598-021-91283-3
Ban, N., C. Caillaud, E.Coppola, E. Pichelli, S. Sobolowski, M. Adinolfi, B. Ahrens, A. Alias, I. Anders, S. Bastin, D. Belušić, S. Berthou, E. Brisson, R.M. Cardoso, S.C. Chan, O.B. Christensen, J.Fernández, L. Fita, T. Frisius, G. Gašparac, F. Giorgi, K. Goergen, J.E. Haugen, Ø. Hodnebrog, S. Kartsios, E. Katragkou, E.J. Kendon, K. Keuler, A. Lavin-Gullon, G. Lenderink, D. Leutwyler, T. Lorenz, D. Maraun, P. Mercogliano, J. Milovac, H.-J. Panitz, M. Raffa, A..Reca Remedio, C. Schär, P.M.M. Soares, L. Srnec, B.M. Steensen, Paolo Stocchi, M.H. Tölle, H. Truhetz, J. Vergara-Temprado, H. de Vries, K.irsten Warrach-Sagi, V. Wulfmeyer, M.J. Zander (2021): The first multi-model ensemble of regional climate simulations at kilometer-scale resolution, part I: evaluation of precipitation. Clim Dyn. (2021). https://doi.org/10.1007/s00382-021-05708-w
Brisson, E., U. Blahak, P. Lucas-Picher, C. Purr, B. Ahrens (2021): Contrasting lightning projection using the lightning potential index adapted in a convection-permitting mode. Clim. Dyn. 57, 2037-51.
Bucchignani, E., P. Mercogliano (2021): Performance Evaluation of High-Resolution Simulations with COSMO over South Italy. Atmosphere 2021, 12(1), 45; https://doi.org/10.3390/atmos12010045
Doddy Clarke, E., C. Sweeney, F. McDermott, S. Griffin, J. Monteiro Correia, P. Nolan, L. Cooke (2021): Climate change impacts on wind energy generation in Ireland. Wind Energy, 25(2), pp.300-312, https://doi.org/10.1002/we.2673
Garbero, V., M. Milelli, E. Bucchignani, P. Mercogliano, M. Varentsov, I. Rozinkina, G. Rivin, D. Blinov, H. Wouters, J.-P. Schulz, U. Schättler, F. Bassani, M. Demuzere, F. Repola (2021): Evaluating the Urban Canopy Scheme TERRA_URB in the COSMO Model for Selected European Cities. Atmosphere, 12, 237. https://doi.org/10.3390/atmos12020237
Geyer, B., T. Ludwig, H. von Storch (2021): Limits of reproducibility and hydrodynamic noise in atmospheric regional modelling. Commun Earth Environ 2, 17 (2021). https://doi.org/10.1038/s43247-020-00085-4
Heinemann, G., S. Willmes, L. Schefczyk, A. Makshtas, V. Kustov, I. Makhotina (2021): Observations and Simulations of Meteorological Conditions over Arctic Thick Sea Ice in Late Winter during the Transarktika 2019 Expedition. Atmosphere 2021, 12, 174. https://doi.org/10.3390/atmos12020174
Heinemann, G, R. Zentek (2021): A Model-Based Climatology of Low-Level Jets in theWeddell Sea Region of the Antarctic. Atmosphere 2021, 12, 1635. https://doi.org/10.3390/atmos12121635
Kohnemann, S., G. Heinemann (2021): A Climatology of wintertime low-level jets in Nares Strait. Polar Research, 40, 3622, doi: 10.33265/polar.v40.3622.
Krug, A., P. Pothapakula, C. Primo, B. Ahrens (2021): Heavy Vb‑cyclone precipitation: a transfer entropy application showcase. Met. Z., DOI: 10.1127/metz/2021/1071
Kumar, V., J. Remmers, S. Beirle, J. Fallmann, A. Kerkweg, J. Lelieveld, M. Mertens, A. Pozzer, B. Steil, M. Barra, H. Tost, T. Wagner (2021): Evaluation of the coupled high-resolution atmospheric chemistry model system MECO(n) using in situ and MAX-DOAS NO2 measurements. Atmos. Meas. Tech., 14, 5241–5269, 2021, https://doi.org/10.5194/amt-14-5241-2021
Lucas-Picher, P., D. Argüeso, E. Brisson, Y. Tramblay, P. Berg, A. Lemonsu, S. Kotlarski, C. Caillaud (2021): Convection-permitting modeling with regional climate models: Latest developments and next steps. WIREs Clim Change. 2021; e731., DOI: 10.1002/wcc.731
Lund-Sørland, S., R. Brogli, P. Kumar Pothapakula, E. Russo, J. Van de Walle, B.Ahrens, I. Anders, E. Bucchignani, E.L. Davin, M.-E. Demory, A. Dosio, H. Feldmann, B. Früh, B. Geyer, K. Keuler, D. Lee, Delei Li, N.P.M. van Lipzig, S.-K. Min, H.-J. Paniz, B. Rockel, C. Schär, C. Steger, W. Thiery (2021): COSMO-CLM Regional Climate Simulations in the CORDEX framework: a review. Geoscientific Model Development, https://doi.org/10.5194/gmd-2020-443
McGowana, N.E., N. Roche, T. Aughney, J. Flanagan, P. Nolan, F. Marnell, N. Reid (2021): Testing consistency of modelled predictions of the impact of climate change on bats. Clim. Change Ecology, 2, https://doi.org/10.1016/j.ecochg.2021.100011
Meredith, E.P., U. Ulbrich, H.W. Rust, H. Truhetz (2021): Present and future diurnal hourly precipitation in 0.11° EURO-CORDEX models and at convection-permitting resolution. Environ. Res. Commun., 3 (2021) 055002 https://doi.org/10.1088/2515-7620/abf15e
Mertens, M., P. Jöckel, S. Matthes, M. Nützel, V. Grewe, R. Sausen (2021): COVID-19 induced lower-tropospheric ozone changes. Environmental Research Letters, doi: 10.1088/1748-9326/abf191
Morrissey, P., P. Nolan, T. McCormack, P. Johnston, O. Naughton, S. Bhatnagar, L. Gill (2021): Impacts of climate change on groundwater flooding and ecohydrology in lowland karst. Hydrol. Earth Syst. Sci., 25, 1923–1941, 2021Impacts of climate change on groundwater flooding and ecohydrology in lowland karst
Pelletier, C., T. Fichefet, H. Goosse, K. Haubner, S. Helsen, P.-V. Huot, C. Kittel, F. Klein, S. Le clec'h, N.P.M. van Lipzig, S. Marchi, F. Massonnet, P. Mathiot, E. Moravveji, E. Moreno-Chamarro, P.Ortega, F. Pattyn, N. Souverijns, G. Van Achter, S. Vanden Broucke, A. Vanhulle, D. Verfaillie, L. Zipf (2021): PARASO, a circum-Antarctic fully-coupled ice-sheet - ocean - sea-ice - atmosphere - land model involving f.ETISh1.7, NEMO3.6, LIM3.6, COSMO5.0 and CLM4.5. Gesoscientific Model Develompment, https://doi.org/10.5194/gmd-2021-315 © Author(s) 2021. This work is distributed under the Creative Commons Attribution 4.0 License.
Pichelli, E., Coppola, E., Sobolowski, S., Ban, N., Giorgi, F., Stocchi, P., Alias, A., Belušić, D., Berthou, S., Caillaud, C., Cardoso, R. M., Chan, S., Christensen, O. B., Dobler, A., de Vries, H., Goergen, K., Kendon, E. J., Keuler, K., Lenderink, G., Lorenz, T., Mishra, A. N, H.-J. Panitz, C. Schär, P.M.M. Soares, H. Truhetz, J. Vergara-Temprado (2021): The first multi-model ensemble of regional climate simulations at kilometer-scale resolution part 2: historical and future simulations of precipitation. Clim Dyn (2021). https://doi.org/10.1007/s00382-021-05657-4
Platonov, V., M. Varentsov (2021): Introducing a new detailed long-term cosmo-clm hindcast for the russian arctic and the first results of its evaluation. Atmosphere 2021, 12(3), 350; https://doi.org/10.3390/atmos12030350
Poll, S., P. Shrestha, C. Simmer (2021): Grid Resolution Dependency of Land Surface Heterogeneity Effects on Boundary Layer Structure. Q J R Meteorol Soc., https://doi.org/10.1002/qj.4196
Purr, C., E. Brisson, B. Ahrens (2021): Convective rain cell characteristics and scaling in climate projections for Germany. Int. J. Climatol. 2021; 1-12, https://doi.org/10.1002/joc.7012
Raffa, M., A. Reder, M. Adinolfi, P. Mercogliano (2021): A Comparison between One-Step and Two-Step Nesting Strategy in the Dynamical Downscaling of Regional Climate Model COSMO-CLM at 2.2 km Driven by ERA5 Reanalysis. Atmosphere 2021, 12(2), 260; https://doi.org/10.3390/atmos12020260
Reyne, M., N.E. McGowan, J. Flanagan, P. Nolan, A. Aubry, M. Emmerson, F. Marnell, N. Reid (2021): Will predicted positive effects of climate change be enough to reverse declines of the regionally Endangered Natterjack toad in Ireland? Ecology and evolution, 11(10), pp.5049-5064, https://doi.org/10.1002/ece3.7362
Revokatova, A., M. Nikitin, G. Rivin, I. Rozinkina, A. Nikitin, E. Tatarinovich (2021): High-Resolution Simulation of Polar Lows over Norwegian and Barents Seas Using the COSMO-CLM and ICON Models for the 2019–2020 Cold Season. Atmosphere 2021, 12(2), 137; https://doi.org/10.3390/atmos12020137
Sørland, S. L., Brogli, R., Pothapakula, P. K., Russo, E., Van de Walle, J., Ahrens, B., Anders, I., Bucchignani, E., Davin, E. L., Demory, M.-E., Dosio, A., Feldmann, H., Früh, B., Geyer, B., Keuler, K., Lee, D., Li, D., van Lipzig, N. P. M., Min, S.-K., Panitz, H.-J., Rockel, B., Schär, C., Steger, C., and Thiery, W. (2021): COSMO-CLM regional climate simulations in the Coordinated Regional Climate Downscaling Experiment (CORDEX) framework: a review. Geosci. Model Dev., 14, 5125–5154, https://doi.org/10.5194/gmd-14-5125-2021.
Spinoni, J., Barbosa, P., Bucchignani, E., Cassano, J., Cavazos, T., Cescatti, A., Christensen, J.H., Christensen, O.B., Coppola, E., Evans, J.P., Forzieri, G., Geyer, B., Giorgi, F., Jacob, D., Katzfey, J., Koenigk, T., Laprise, R., Lennard, C.J., Kurnaz, M.L., Li, D., Llopart, M., McCormick, N., Naumann, G., Nikulin, G., Ozturk, T., Panitz, H.-J., da Rocha, R.P., Solman, S.A., Syktus, J., Tangang, F., Teichmann, C., Vautard, R., Vogt, J.V., Winger, K., Zittis, G. and Dosio, A. (2021), Global exposure of population and land-use to meteorological droughts under different warming levels and SSPs: a CORDEX-based study. Int J Climatol. Accepted Author Manuscript. https://doi.org/10.1002/joc.7302
Tölle, M.H, E. Churiulin (2021): Sensitivity of Convection-Permitting Regional Climate Simulations to Changes in Land Cover Input Data: Role of Land Surface Characteristics for Temperature and Climate Extremes. Frontiers in Earth Science, 9, doi: 10.3389/feart.2021.722244
Van Pham, T., C. Steger, B. Rockel, K. Keuler, I. Kirchner, M. Mertens, D. Rieger, G. Zängl, B. Früh (2021): ICON in Climate Limited-area Mode (ICON release version 2.6.1): a new regional climate model. Geosci. Model Dev., 14, 985–1005, 2021 https://doi.org/10.5194/gmd-14-985-2021
Vasenev, V., M. Varentsov, P. Konstantinov, O. Romzaykina, I. Kanareykina, Y. Dvornikov, V. Manukyan (2021): Projecting urban heat island effect on the spatial-temporal variation of microbial respiration in urban soils of Moscow megalopolis. Science of The Total Environment, Vol. 786, https://doi.org/10.1016/j.scitotenv.2021.147457
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Reyers, M., H. Feldmann,S. Mieruch, J.G. Pinto, M. Uhlig, B. Ahrens, B. Früh, K. Modali,N. Laube, J. Moemken, W. Müller, G. Schädler, C. Kottmeier (2019): Development and prospects of the regional MiKlip decadal prediction system over Europe: Predictive skill, added value of regionalization, and ensemble size dependency. Earth System Dynamics, Open Access Vol. 10, Issue 1, 20 March 2019, Pages 171-187
Russo,E., I. Kirchner, S. Pfahl, M. Schaap, U. Cubasch (2019): Sensitivity studies with the Regional Climate Model COSMO-CLM 5.0 over the CORDEX Central Asia Domain. Geosci. Model Dev. Discuss, https://doi.org/10.5194/gmd-2019-22
Schipper, J. W., J. Hackenbruch, H.S. Lentink, K. Sedlmeier (2019): Integrating Adaptation Expertise into Regional Climate Data Analyses through Tailored Climate Parameters. Met. Z., 28 (1), 41–57. doi:10.1127/metz/2019/0878
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Schulthess, T.P., P. Bauer, O. Fuhrer, T. Hoefler, C. Schär, N. Wedi (2019): Reflecting on the goal and baseline for exascale computing: a roadmap based on weather and climate simulations. IEEE Computing in Science and Engineering, 21 (1), 30-41, DOI: 10.1109/MCSE.2018.2888788
Schwingshackl, C., E.L. Davin, M. Hirschi, S. Lund Sørland, R. Wartenburger, S.I. Seneviratne (2019): Regional climate model projections underestimate future warming due to missing plant physiological CO2 response. Environ. Res. Lett., 14 114019, https://doi.org/10.1088/1748-9326/ab4949
Souverijns, S., A. Gossart, M. Demuzere, J. T. M. Lenaerts, B. Medley, I. Gorodetskaya, S. Vanden Broucke, N. P. M. van Lipzig (2019): A new Regional Climate Model for POLAR‐CORDEX: Evaluation of a 30‐year Hindcast with COSMO‐CLM2 over Antarctica. JGR Atmospheres, https://doi.org/10.1029/2018JD028862
Sprenger, M., J. Schmidli, L. Egloff (2018): The Laseyer wind storm – case studies and a climatology. Met. Z., 27 (1), 15-32, DOI: 10.1127/metz/2017/0854
Vanden Broucke, S.,H. Wouters, M. Demuzere, N. van Lipzig (2019): The influence of convection-permitting regional climate modeling on future projections of extreme precipitation: dependency on topography and timescale. Clim. Dyn., 52, Issue 9-10, 1 May 2019, Pages 5303-5324
Varentsov, M.I., M.Y. Grishchenko, H. Wouters (2019): Simultaneous assessment of the summer urban heat island in Moscow megacity based on in situ observations, thermal satellite images and mesoscale modeling. Geography, Environment, Sustainability, 12(4):74-95. https://doi.org/10.24057/2071-9388-2019-10
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Akperov, M., A. Rinke, I.I. Mokhov, H. Matthes, V.A. Semenov, M. Adakudlu, J. Cassano, J.H. Christensen, M.A. Dembitskaya, K. Dethloff, X. Fettweis, J. Glisan, O. Gutjahr,G. Heinemann, T. Koenigk, N.V. Koldunov, R. Laprise, R. Mottram, O. Nikiéma, J.F. Scinocca, D. Sein, S. Sobolowski, K. Winger, W. Zhang (2018): Cyclone Activity in the Arctic From an Ensemble of Regional Climate Models (Arctic CORDEX). J. Geophys. Res. Atmospheres, 123, 5, 2369-2953, DOI: 10.1002/2017JD027703
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Broeckx, J., M. Maertens, M. Isabirye, M. Vanmaercke, B. Namazzi, J. Deckers, J. Tamale, L. Jacobs, W. Thiery, M. Kervyn, L. Vranken, J. Poesen (2018): Landslide susceptibility and mobilization rates in the Mount Elgon region, Uganda. Landslides, DOI: 10.1007/s10346-018-1085-y
Brönnimann, S., J. Rajczak, E.M. Fischer, CC. Raible, M. Rohrer, C. Schär (2018): Changing seasonality of moderate and extreme precipitation events in the Alps. Nat. Hazards Earth Syst. Sci., 18, 2047-2056, 2018 https://doi.org/10.5194/nhess-18-2047-2018
Brousse, O., S. Georganos, M. Demuzere, S. Vanhuysse, H. Wouters, E. Wolff, C. Linard, N.P.-M. van Lipzig, S. Dujardin (2018): Using Local Climate Zones in Sub-Saharan Africa to tackle urban health issues. Urban Climate, 27, 227-242, https://doi.org/10.1016/j.uclim.2018.12.004
Bucchignani, E.; Mercogliano, P.; Panitz, H.-J.; Montesarchio, M. (2018): Climate change projections for the Middle East - North Africa domain with COSMO-CLM at different spatial resolutions. Advances in climate change research. doi:10.1016/j.accre.2018.01.004
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Christner, E., F. Aemisegger, S. Pfahl, M. Werner, A. Cauquoin, M. Schneider, F. Hase, S. Barthlott, G. Schädler (2018): The climatological impacts of continental surface evaporation, rainout, and sub-cloud processes on δD of water vapor and precipitation in Europe. J. of Geophysical Res./Atmospheres, 123 (8), 4390-4409. https://doi.org/10.1002/2017JD027260
Coppola, E.; Sobolowski, S.; Pichelli, E.; Raffaele, F.; Ahrens, B.; Anders, I.; Ban, N.; Bastin, S.; Belda, M.; Belusic, D.; Caldas-Alvarez, A.; Cardoso, R. M.; Davolio, S.; Dobler, A.; Fernandez, J.; Fita, L.; Fumiere, Q.; Giorgi, F.; Goergen, K.; Güttler, I.; Halenka, T.; Heinzeller, D.; Hodnebrog, Ø.; Jacob, D.; Kartsios, S.; Katragkou, E.; Kendon, E.; Khodayar, S.; Kunstmann, H.; Knist, S.; Lavín-Gullón, A.; Lind, P.; Lorenz, T.; Maraun, D.; Marelle, L.; van Meijgaard, E.; Milovac, J.; Myhre, G.; Panitz, H.-J.; Piazza, M.; Raffa, M.; Raub, T.; Rockel, B.; Schär, C.; Sieck, K.; Soares, P. M. M.; Somot, S.; Srnec, L.; Stocchi, P.; Tölle, M. H.; Truhetz, H.; Vautard, R.; de Vries, H.; Warrach-Sagi, K. (2018): A first-of-its-kind multi-model convection permitting ensemble for investigating convective phenomena over Europe and the Mediterranean. Climate dynamics. doi:10.1007/s00382-018-4521-8
Delandmeter, P., J. Lambrechts, V. Legat, V. Vallaeys, J. Naithani, W. Thiery, J-F. Remacle, E. Deleersnijder (2018): A fully consistent and conservative vertically adaptive coordinate system for SLIM 3D v0.4 with an application to the thermocline oscillations of Lake Tanganyika. Geoscientific Model Development, 11, 1161-1179Delandmeter, P., J. Lambrechts, V. Legat, V. Vallaeys, J. Naithani, W. Thiery, J-F. Remacle, E. Deleersnijder (2018): A fully consistent and conservative vertically adaptive coordinate system for SLIM 3D v0.4 with an application to the thermocline oscillations of Lake Tanganyika. Geoscientific Model Development, 11, 1161-1179
Dieng, D., P. Laux, G. Smiatek, D. Heinzeller, J. Bliefernicht, A. Sarr, A.T. Gaye, H.Kunstmann (2018): Performance Analysis and Projected Changes of Agroclimatological Indices Across West Africa Based on High-Resolution Regional Climate Model Simulations. JGR Atmospheres, 123, Issue 15, 16, pp 7950-7973
Feldmeier, S., Schefczyk, L., Hochkirch, A., Lötters, S., Pfeifer, M., Heinemann, G., Veith, M., 2018: Climate vs weather extremes: Temporal predictor resolution matters for future rather than current regional species distribution models. Diversity and Distributions, DOI: 10.1111/ddi.12746
Fortunato, A.B., Meredith, E.P.; Rodrigues, M.; Freire, P; Feldmann, H. (2018): Near-future changes in storm surges along the Atlantic Iberian coast. Natural Hazards, pp. 1-18, https://doi.org/10.1007/s11069-018-3375-z.
Frei, P., S. Kotlarski, M.A. Liniger, C. Schär (2018): Future snowfall in the Alps: projections based on the EURO-CORDEX regional climate models. The Cryosphere, 12, 1-24, 2018 https://doi.org/10.5194/tc-12-1-2018
Fuhrer O., T. Chadha, T. Hoefler, G. Kwasniewski, X. Lapillonne, D. Leutwyler, D. Lüthi, C. Osuna, C. Schär, T.C. Schulthess, H. Vogt (2018): Near-global climate simulation at 1 km resolution: establishing a performance baseline on 4,888 GPUs with COSMO 5.0.. Geosci. Model Develop., 11, 1665–1681, https://doi.org/10.5194/gmd-11-1665-2018
Gutjahr, O., G. Heinemann (2018): A model-based comparison of extreme winds in the Arctic and around Greenland. Int. J. of Clim., DOI: 10.1002/joc.5729
Hochman A, P. Mercogliano, P. Alpert, H. Saaroni, E. Bucchignani (2018): High-resolution projection of climate change and extremity over Israel using COSMO-CLM. Int. J. of Clim., June 2018(in press).
Hochman A, E. Bucchignani, G. Gershtein, SO Krichak, P. Alpert, Y. Levi, Y. Yosef, Y. Carmona, J. Breitgand, P. Mercogliano, A.L. Zollo (2018): Evaluation of regional COSMO-CLM climate simulations over the Eastern Mediterranean for the period 1979 – 2011. doi: 10.1002/joc.5232, Int. J. of Clim., Vol 38. Issue 3, 2018, pp. 1161- 1176.
Ho-Hagemann, H.T.M., B. Rockel (2018): Einfluß von Atmosphäre-Ozean Wechselwirkungen auf Starkniederschläge über Europa. In: Lozán, J. L., S.-W. Breckle, H. Graßl, D. Kasang & R. Weisse (Hrsg.). Warnsignal Klima: Extremereignisse. pp. 161-168. Online: http://www.klima-warnsignale.uni-hamburg.de/. doi:10.2312/warnsignal.klima.extremereignisse.23
Jacobs, L., O. Dewitte, J. Poesen, J. Sekajugo, A. Nobile, M. Rossi, W. Thiery, M. Kervyn (2018): Field-based landslide susceptibility assessment in a data-scarce environment: the populated areas of the Rwenzori Mountains. Nat. Hazards and Earth System Sciences, 18, 105-124.
Josipovic, L., A. Obermann-Hellhund, E. Brisson, B. Ahrens (2018): Bora in RCMs: impact of model resolution on simulations of gap winds and wave breaking. Hrvatski meteorološki časopis, Vol. 53 No. 53, https://hrcak.srce.hr/231266
Keller, M., O. Fuhrer, N. Kröner, J. Schmidli, M. Stengel, R. Stöckli and C. Schär (2018): The sensitivity of Alpine summer convection to surrogate climate change: An intercomparison between convection-parameterizing and Climate change sensitivity studies with convection-resolving models. Atmos. Chem. Phys., 18, 5253–5264, https://doi.org/10.5194/acp-18-5253-2018
Kerkweg, A., C. Hofmann, P. Jöckel, M. Mertens, G.Pante (2018): The on-line coupled atmospheric chemistry model system MECO(n) – Part 5: Expanding the Multi-Model-Driver (MMD v2.0) for 2-way data exchange including data interpolation via GRID (v1.0). Geosci. Model Dev., 11, 1059–1076, https://doi.org/10.5194/gmd-11-1059-2018
Kislov, A.V, G.S. Rivin, V.S. Platonov, M.I. Varentsov, I.A. Rozinkina, M.A. Nikitin, M.M. Chumakov (2018): Mesoscale Atmospheric Modeling of Extreme Velocities over the Sea of Okhotsk and Sakhalin. Izv. Atmos. Ocean. Phys. 54, 322–326 (2018). https://doi.org/10.1134/S0001433818040242
Kjellström, E. G. Nikulin, G. Strandberg, O.B. Christensen, D. Jacob, K. Keuler, G. Lenderink, E. van Meijgaard, C. Schär, S. Somot, S.L. Sørland, C. Teichmann, R. Vautard (2018): European climate change at global mean temperature increases of 1.5 and 2°C above pre-industrial conditions as simulated by the EURO-CORDEX regional climate models. Earth Syst. Dynam., 9, 459-478, https://doi.org/10.5194/esd-9-459-2018
Krähenmann, S., A. Walter, S. Brienen, F. Imbery, A. Matzarakis (2018): High-resolution grids of hourly meteorological variables for Germany. Theoretical and Applied Climatology, Vol. 131, p. 899–926, doi: 10.1007/s00704-016-2003-7
Macias, D., E. Garcia-Gorriz, A. Dosio, A. Stips, K. Keuler (2018): Obtaining the correct sea surface temperature: bias correction of regional climate model data for the Mediterranean Sea. Clim. Dyn., 51, 1095-1117
Meredith, E.P., H.W. Rust, U. Ulbrich (2018): A classification algorithm for selective dynamical downscaling of precipitation extremes. Hydrol. Earth Syst. Sci., 22, 4183-4200, 2018, https://doi.org/10.5194/hess-22-4183-2018
Moemken, J., M. Reyers, H. Feldmann, J.G. Pinto (2018): Future Changes of Wind Speed and Wind Energy Potentials in EURO-CORDEX Ensemble Simulations. J. of Geophysical Res./Atmospheres., 123, https://doi.org/10.1029/2018JD028473
Monhart, S., C. Spirig, J. Bhend, K. Bogner, C. Schär, M.A. Liniger (2018): Skill of Subseasonal Forecasts in Europe: Effect of Bias Correction and Downscaling Using Surface Observations. J. Geophys. Res. Atmos., 123, 7999–8016, https://doi.org/10.1029/2017JD027923
Nikulin, G.; Lennard, C.; Dosio, A.; Kjellström, E.; Chen, Y.; Hänsler, A.; Kupiainen, M.; Laprise, R.; Mariotti, L.; Fox Maule, C.; van Meijgaard, E.; Panitz, H.-J.; Scinocca, J. F.; Somot, S.; 2018: The effects of 1.5 and 2 degrees of global warming on Africa in the CORDEX ensemble [in press]. Environmental research letters. doi:10.1088/1748-9326/aab1b1
Obermann-Hellhund, A. S. Bastin, S. Belamari, D. Conte, M.A. Gaertner, L. Li, B. Ahrens (2018): Mistral and Tramontane wind speed and wind direction patterns in regional climate simulations. Subm. to Atm. Science Letters. Accepted..,
Obermann-Hellhund, A., D. Conte, S. Somot, C. Zsolt Torma, B. Ahrens (2018): Mistral and Tramontane wind systems in regional and global climate simulations from 1950 to 2100. Clim. Dyn., 50(1-2), 693-703. DOI: 10.1007/s00382-017-3635-8 (OA)
Paeth, H.; Li, J.; Pollinger, F.; Müller, W. A.; Pohlmann, H.; Feldmann, H.; Panitz, H.-J. (2018): An effective drift correction for dynamical downscaling of decadal global climate predictions. Climate dynamics. doi:10.1007/s00382-018-4195-2
Panosetti, D., L. Schlemmer, C. Schär (2018): Convergence behavior of convection-resolving simulations of summertime deep moist convection over land. Clim. Dyn., published online, https://doi.org/10.1007/s00382-018-4229-9
Pham, T.V., J. Brauch, B. Früh, B. Ahrens (2018): Added decadal prediction skill with the coupled regional climate model COSMO-CLM/NEMO. Met. Z., 27(5): 391-399. DOI: 10.1127/metz/2018/0872
Platonov, V. S., M.I. Varentsov (2018): Supercomputer Technologies as a Tool for High-resolution Atmospheric Modelling towards the Climatological Timescales. Supercomputing Frontiers and Innovations, 5, n. 3, p. 107-110, http://dx.doi.org/10.14529/jsfi180320
Reszler, C., M.B. Switanek, H. Truhetz (2018): Convection-permitting regional climate simulations for representing floods in small-and medium-sized catchments in the Eastern Alps. Nat. Hazards Earth Syst. Sci., 18, 2653–2674, 2018, https://doi.org/10.5194/nhess-18-2653-2018
Schlemmer, L., C. Schär, D. Lüthi, L. Strebel (2018): A Groundwater and Runoff Formulation for Weather and Climate Models. J. Adv. Mod. Earth Sys., 10, 1809–1832. https://doi.org/10.1029/2017MS001260
Shrestha, P., W. Kurtz, G. Vogel, J.‐P. Schulz, M. Sulis, H.‐J. Hendricks Franssen, S. Kollet, C. Simmer (2018): Connection Between Root Zone Soil Moisture and Surface Energy Flux Partitioning Using Modeling, Observations, and Data Assimilation for a Temperate Grassland Site in Germany. J. of Geophysical Research: Biogeosciences, 123, 2839-2862. https://doi.org/10.1029/2016JG003753
Sørland, S.L., C. Schär, D. Lüthi, E. Kjellström (2018): Regional climate models reduce biases of global models and project smaller European summer warming. Env. Res. Letters, 13, Art. 074017, https://doi.org/10.1088/1748-9326/aacc77
Tölle, M. H., M. Breil, K. Radtke, H.-J. Panitz (2018): Sensitivity of European temperature to albedo parameterization in the regional climate model COSMO-CLM linked to extreme land use changes. Frontiers EnvironmentalScience, DOI:10.3389/fenvs.2018.00123
Varentsov, M., P. Konstantinov, A. Baklanov, I. Esau, V. Miles, R. Davy (2018): Anthrpogenic and natural drivers of a strong winter urban heat island in a typical Arctic city. Atmos. Chem. Phys., 18, 17573–17587, https://doi.org/10.5194/acp-18-17573-2018
Varentsov, M., H. Wouters, V. Platonov, P. Konstantinov (2018): Megacity-Induced Mesoclimatic Effects in the Lower Atmosphere: A Modeling Study for Multiple Summers over Moscow, Russia. Atmosphere, 9(2), 50; https://doi.org/10.3390/atmos9020050
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-
Barcikowska, M., F. Feser, W. Zhang, W. Mei (2017): Changes in intense Tropical Cyclone Activity for the Western North Pacific during the last decades derived from a Regional Climate Model Simulation. Clim. Dyn., pp 1-19, DOI: 10.1007/s00382-016-3420-0.
Belušić, A. M.T. Prtenjak, I. Güttler, N. Ban, D. Leutwyler, C. Schär (2017): Near-surface wind variability over the broader Adriatic region: insights from an ensemble of regional climate models. Clim. Dyn., Vol. 50, Issue 11–12, pp 4455–4480
Breil, M., H.-J. Panitz, G. Schädler (2017): Impact of soil-vegetation-atmosphere interactions on the spatial rainfall distribution in the Central Sahel. Met. Z., 26 (4), 379-389. doi:10.1127/metz/2017/0819
Brisson E., C. Brendel, S. Herzog, B. Ahrens (2017): Lagrangian evaluation of convective shower characteristics in a convection permitting model. Met.Z. Accepted
Brisson, E., N. Leps, B. Ahrens (2017): Konvektionserlaubende Klimamodellierung. Promet - Meteorologische Fortbildung, 99, 41 - 48
Bucchignani E, P. Mercogliano, M. Montesarchio, AL Zollo (2017): Numerical simulation of the period 1971-2100 over the Mediterranean area with a regional model, scenario SRES-A1B., Sustainability, Vol. 9 Issue 12, 2017, pp. 2192, doi: 10.3390/su9122192
Demuzere, M., S. Harshan, L. Järvi, M. Roth, C.S.B. Grimmond,. V. Masson, K.W. Oleson, E. Velasco, H. Wouters (2017): Impact of urban canopy models and external parameters on the modelled urban energy balance in a tropical city. Quarterly Journal of the Royal Meteorological Society, 143(704), 1581–1596, DOI: 10.1002/qj.3028
Dieng, D., G. Smiatek, J. Bliefernicht, D. Heinzeller, A. Sarr, A.T. Gaye, H. Kunstmann (2017): Evaluation of the COSMO‐CLM high‐resolution climate simulations over West Africa. J. of Geophysical Research: Atmospheres, DOI: 10.1002/2016JD025457
Ho-Hagemann, H., Gröger, M., Rockel, B., Zahn, M., Geyer, B., Meier, M., 2017: Effects of air-sea coupling over the North Sea and the Baltic Sea on simulated summer precipitation over Central Europe, Climate Dynamics,pp 1–26, doi:10.1007/s00382-017-3546-8.
Kohnemann, S.H.E., G. Heinemann, D.H. Bromwich, O. Gutjahr, (2017): Extreme Warming in the Kara Sea and Barents Sea during the Winter Period 2000–16. J. Climate, 30, 8913–8927
Kröner, N., S. Kotlarski, E. Fischer, D. Lüthi, E. Zubler, C. Schär (2017): Separating climate change signals into thermodynamic, lapse-rate and circulation effects: theory and application to the European summer climate.Clim. Dyn, 48, 3425–3440, DOI: 10.1007/s00382-016-3276-3
Leutwyler D., D. Lüthi, N. Ban, O. Fuhrer, C. Schär (2017): Evaluation of the Convection-Resolving Climate Modeling Approach on Continental Scales. J. Geophys. Res. Atmos., 122, doi:10.1002/2016JD026013.
Marotzke, J.; Müller, W. A.; Vamborg, F. S. E.; Becker, P.; Cubasch, U.; Feldmann, H.; Kaspar, F.; Kottmeier, C.; Marini, C.; Polkova, I.; Prömmel, K.; Rust, H. W.; Stammer, D.; Ulbrich, U.; Kadow, C.; Köhl, A.; Kröger, J.; Kruschke, T.; Pinto, J. G.; Pohlmann, H.; Reyers, M.; Schröder, M.; Sienz, F.; Timmreck, C.; Ziese, M. (2017): MiKlip: A National Research Project on Decadal Climate Prediction. Bulletin of the American Meteorological Society, 97 (12), 2379–2394. doi:10.1175/BAMS-D-15-00184.1
Maurer, V., I. Bischoff-Gauß, N. Kalthoff, L. Gantner, R. Roca, H.-J. Panitz, H.-J. (2017): Initiation of deep convection in the Sahel in a convection-permitting climate simulation for northern Africa. Quarterly J. of the Royal Met. Society, 143 (703), 806-816. doi:10.1002/qj.2966
Nikulin, G., S. Asharaf, M.E. Magariño, S. Calmanti, R.M. Cardoso, J. Bhend, J. Fernández, M. Dolores Frias, K. Fröhlich, B. Früh, S. Herrera García, R. Manzanas, J.M. Gutiérrez, U. Hansson, M. Kolax, M.A. Liniger, P.M.M. Soares, C. Spirig, R. Tome, K. Wyser (2017): Dynamical and statistical downscaling of a global seasonal hindcast in eastern Africa. Climate Services, doi: https://doi.org/10.1016/j.cliser.2017.11.003
Nolan, P., J. O'Sullivan, R. McGrath (2017): Impacts of climate change on mid‐twenty‐first‐century rainfall in Ireland: a high‐resolution regional climate model ensemble approach. Int. J. of Climatology, 37, Pages 4347-4363DOI: 10.1002/joc.5091
Obermann-Hellhund, A., D. Conte, S. Somot, C. Zsolt Torma, B. Ahrens (2017): Mistral and Tramontane wind systems in regional and global climate simulations from 1950 to 2100. Clim. Dyn. DOI: 10.1007/s00382-017-3635-8.
Paeth H., A. Paxian, D. Sein, T. Brücher, D. Jakob, H.-J. Panitz, M. Warscher, A. H. Fink, H. Kunstmann, M. Breil, T. Engel, A. Krause, J. Toedter, and B. Ahrens, 2017: Decadal and multi-year predictability of the West African monsoon and the role of dynamical downscaling. Meteorol. Zeitschrift, PrePub DOI 10.1127/metz/2017/0811.
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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
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Bosshard, T., M. Carambia, K. Görgen, S. Kotlarski, P. Krahe, M. Zappa, C. Schär (2013): Quantifying uncertainty sources in an ensemble of hydrological climate-impact projections. Water Resource Res., 49, 1-14, doi: 10.1029/2011WR011533
Brdar, S., M. Baldauf, A. Dedner, R. Klofkorn (2013): Comparison of dynamical cores for NWP models: comparison of COSMO and Dune. Theoretical and Computational Fluid Dynamics, 27, 3-4, pp. 453-472, DOI: 10.1007/s00162-012-0264-z.
Brienen, S., A. Kapala, H. Mächel, C. Simmer (2013): Regional centennial precipitation variability over Germany from extended observation records. Int. J. Clim., 33, 2176-2184, doi: 10.1002/joc.3581
Bucchignani, E., A. Sanna, S. Gualdi, S. Castellari, P. Schiano (2013): Simulation of the climate of the XX century in the Alpine space. Natural Hazards, 67, 3, 981-990.
Cavicchia, L., von Storch, H. & Gualdi, S. (2013): A long-term climatology of medicanes. Climate Dynamics, 2013, 1-13,DOI: 10.1007/s00382-013-1893-7
Courtney, J., Lynch, P. Sweeney C. (2013): High resolution forecasting for wind energy applications using Bayesian model averaging. Tellus A, [S.l.], v. 65, feb. 2013. ISSN 1600-0870.
de Rooy, W. C., P. Bechtold, K. Fröhlich, C. Hohenegger, H. Jonker, D. Mironov, A. Pier Siebesma, J. Teixeira, J.-I. Yano (2013): Entrainment and detrainment in cumulus convection: an overview. Q.J.R. Meteorol. Soc., 139, 1–19. doi: 10.1002/qj.1959
Endris, S. H., Ph. Omodi, S. Jain, L. Chang'a, C. Lennard, B. Hewiston, J. Awange, P. Ketiem, A. Dosio, G. Nikulin, H.-J. Panitz, M. Büchner, F. Strodal, L. Tazalika (2013): Assessment of the performance of CORDEX Regional Climate Models in Simulating Eastern Africa Rainfall. J. Climate, 26, 8475.doi: http://journals.ametsoc.org/doi/abs/10.1175/JCLI-D-12-00708.1
Feldmann, H., G. Schadler, H.-J. Panitz, C. Kottmeier (2013): Near future changes of extreme precipitation over complex terrain in Central Europe derived from high resolution RCM ensemble simulations. International Journal of Climatology, 33 (8), 1964-1977.
Gleeson, E., R. McGrath, M. Treanor, P. Nolan et al. (2013). Ireland’s climate: the road ahead. Dublin: Met Éireann. Read: http://www.met.ie/publications/IrelandsWeather-13092013.pdf
Göhler,M., J. Mai, M. Cuntz (2013): Use of eigendecomposition in a parameter sensitivity analysis of the Community Land Model. J. of Geophysical Research: Biogeosciences 118, 904–921, doi:10.1002/jgrg.20072
Guillod, B., E. Davin, C. Kundig, G. Smiatek, S. Seneviratne (2013): Impact of soil map specifications for European climate simulations. Climate Dyn., 40, 1-2, pp. 123-141, DOI: 10.1007/s00382-012-1395-z
Gutjahr, O., G. Heinemann (2013): Comparing precipitation bias correction methods for high-resolution regional climate simulations using COSMO-CLM. Theor. Appl. Climatol., 114, p 511 – 529
Haslinger, K., I. Anders, M. Hofstaetter (2013): Regional climate modelling over complex terrain: an evaluation study of COSMO-CLM hindcast model runs for the Greater Alpine Region. Climate Dyn., 40, 1-2, pp. 511-529, doi: 10.1007/s00382-012-1452-7
Ho-Hagemann, H.T.M., B. Rockel, B., H. Kapitza, B. Geyer, E. Meyer (2013): COSTRICE - an atmosphere - ocean - sea ice model coupled system using OASIS3. Technical Report, No. 2013-5//ISSN 2191-7833, 26pp., Helmholtz-Zentrum Geesthacht, Germany
Huang, S.C., F.F. Hattermann, V. Krysanova, A. Bronstert (2013): Projections of climate change impacts on river flood conditions in Germany by combining three different RCMs with a regional eco-hydrological model. Climate Change, 116, 3-4, pp. 631-663, doi: 10.1007/s10584-012-0586-2
Huang, S.C., V. Krysanova, F.F. Hattermann (2013): Projection of low flow conditions in Germany under climate change by combining three RCMs and a regional hydrological model. Acta Geophysica, 61, 1, pp. 151-193, DOI: 10.2478/s11600-012-0065-1
Jähn, M., R. Wolke, B. Sändig (2013): Detection of odor sources and high concentrations of pollutants in the Ore Mountains by modeling of air mass paths. Met. Z., 22, 213-220, DOI: 10.1127/0941-2948/2013/0389
Kalognomou, E.-A., C. Lennard, M. Shongwe, I. Pinto, M. Kent, B. Hewiston, A. Dosio, G. Nikulin, H.-J. Panitz, M. Büchner (2013).: A diagnostic evaluation of precipitation in CORDEX models over southern Africa. J. Climate, 26, 9477–9506. doi: http://journals.ametsoc.org/doi/abs/10.1175/JCLI-D-12-00703.1
Khodayar, S., N. Kalthoff, G. Schädler (2016): The impact of soil moisture variability on seasonal convective precipitation simulations. Part I: validation, feedbacks, and realistic initialisation. Met.Z., Vol. 22, No. 4, DOI: 10.1127/0941-2948/2013/0403
Klehmet, K., B. Geyer, B. Rockel (2013): A regional climate model hindcast for Siberia: analysis of snow water equivalent. The Cryosphere, 7, 1017-1034, doi:10.5194/tc-7-1017-2013
Klutse, N. A. B., M.B. Sylla, A. Sarr, I. Diallo, A. Diedhiou, A. Kamga, B. Lamptey, A. Abdou, A.O. Gbobaniyi, K. Owusu, Ch. Lennard, B. Hewitson, A. Dosio, G. Nikulin, H.-J. Panitz, M. Büchner (2013): Daily Characteristics of West African Summer Monsoon Precipitation in CORDEX Simulations. J. Clim, under review
Knote, C., D. Brunner (2013): An advanced scheme for wet scavenging and liquid-phase chemistry in a regional online-coupled chemistry transport model. Atmos. Chem. Phys., 13, 1177-1192, doi:10.5194/acp-13-1177-2013
Kothe, S., D. Luethi, B. Ahrens, B. (2013): Analysis of the West African Monsoon system in the regional climate model COSMO-CLM. Int. J. of Climatology. DOI: 10.1002/joc.3702. Early online.
Krähenmann, S., S. Kothe, H.-J. Panitz, B. Ahrens (2013): Evaluation of Daily Maximum and Minimum 2-m Temperatures as Simulated with the Regional Climate Model COSMO-CLM over Africa. Met. Z., 22, 3, 297-316, DOI 10.1127/0941-2948/2013/0468
Kumar, P., A. Wiltshire, C. Mathison, S. Asharaf, B. Ahrens, P. Lucas-Picher, J.H. Christensen, A. Gobiet, F. Saeed, S. Hagemann, D. Jacob (2013): Down scaled climate change projections with uncertainty assessment over India using high resolution multi model approach. Science of the Total Environment. Early Online. http://dx.doi.org/10.1016/j.scitotenv.2013.01.051
Langhans, E., J. Schmidli, S. Bieri, O. Fuhrer, C. Schär (2013): Long-term simulations of thermally driven flows and orographic convection at convection-parameterizing and cloud-resolving resolutions. J. Appl. Meteor. Clim., 52, 1490-1510, DOI: 10.1175/JAMC-D-12-0167.1
Lauwaet, D., P. Viaene,E. Brisson, T. van Noije, A. Strunk, S. Van Looy, B. Maiheu, N. Veldeman, L. Blyth, K. De Ridder,S. Janssen (2013): Impact of nesting resolution jump on dynamical downscaling ozone concentrations over Belgium. Atmospheric Environment, Vol. 67, 46-52, doi: 10.1016/j.atmosenv.2012.10.034
Lindau, R., C. Simmer (2013): On correcting precipitation as simulated by the regional climate model COSMO-CLM with daily rain gauge observations, Meteorology and Atmospheric Physics. 119, 1-2, pp. 31-42, doi: 10.1007/s00703-012-0215-7
Lorenz, R., E.L. Davin, D.M. Lawrence, R. Stöckli and S.I. Seneviratne (2013), How important is vegetation phenology for European climate and heatwaves?, J. Clim., 26, 24, 10077–10100, doi:10.1175/JCLI-D-13-00040.1
Ludwig, P., J.G. Pinto, M. Reyers, S.L. Gray (2013) The role of anomalous SST and surface fluxes over the Southeastern North Atlantic in the explosive development of windstorm Xynthia. Quart J R Meteorol Soc,doi:10.1002/qj.2253
Lutz, J., J. Volkholz, F.W. Gerstengarbe (2013): Climate projections for southern Africa using complementary methods, Int. J. of Climate Change Strategies and Management. 5, 2, 130-151, doi: 10.1108/17568691311327550.
Meng, Y., T. Jiang, B. Su, J. Zhang (2013): Temperature Simulation Assessment by High-resolution Regional Climate Model(CCLM)in Poyang Lake Basin, Chinese J. of Agrometeorology. 34, 2, pp. 123-129.
Ott, I., D. Düthmann, J. Liebert, P. Berg, H. Feldmann, J. Ihringer, H. Kunstmann, B. Merz, G. Schädler, S. Wagner (2013): High resolution climate change impact analysis on medium sized river catchments in Germany: An ensemble assessment. J. Hydrometeor., 14, 1175-1193, doi: http://dx.doi.org/10.1175/JHM-D-12-091.1
Panitz, H.-J., A. Dosio, M. Büchner, D. Lüthi, K. Keuler (2013): COSMO-CLM (CCLM) Climate Simulations over CORDEX Africa Domain: Analysis of the ERA-Interim Driven Simulations at 0.44° and 0.22° Resolution. Climate Dyn., DOI 10.1007/s00382-013-1834-5, Online First
Panitz, H.-J., G. Fosser, R. Sasse, A. Sehlinger, H. Feldmann, G. Schädler (2013): Modelling Near Future Regional Climate Change for Germany and Africa. In: High Performance Computing in Science and Engineering '12 [W. E. Nagel, D. Kröner, M. Resch (Eds.)]. Springer Berlin Heidelberg New York 2013, pp 375 – 390, DOI 10.1007/978-3-642-33374-3_28.
Prein, A.F., A. Gobiet, M. Suklitsch, H. Truhetz, N.K. Awan, K. Keuler, G. Georgievski (2013): Added value of convection permitting seasonal simulations. Clim Dyn., 41(9–10), 2655–2677, doi:10.1007/s00382-013-1744-6
Prömmel, K., U. Cubasch, F. Kaspar (2013): A regional climate model study of the impact of tectonic and orbital forcing on African precipitation and vegetation. Palaeogeography, Palaeoclimatology, Palaeoecology, 369, pp. 154-162, doi: 10.1016/j.palaeo.2012.10.015
Rajczak, J., P. Pall, C. Schär (2013): Projections of extreme precipitation events in regional climate simulations for Europe and the Alpine region. J. Geophys. Res. Atmos., 118, 3610-3626, doi:10.1002/jgrd.50297
Reyers, M, J.G. Pinto, H. Paeth (2013): Statistical-dynamical downscaling of present day and future precipitation regimes in the Aksu river catchment in Central Asia. Global Planetary Change 107:36-49 10.1016/j.gloplacha.2013.04.003
Saase, R., G. Schädler (2013): Generation of regional climate ensembles using Atmospheric Forcing Shifting. Int. J. Climatol., Published online in Wiley Online Library (wileyonlinelibrary.com) DOI: 10.1002/joc.3831
Sasse, R., G. Schadler, C. Kottmeier (2013): The Regional Atmospheric Water Budget over Southwestern Germany under Different Synoptic Conditions, J. of Hydrometeorology. 14, 1, pp. 69-84, doi: 10.1175/JHM-D-11-0110.1
Schubert, S, S.Grossman-Clarke (2013): The Influence of green areas and roof albedos on air temperatures during Extreme Heat Events in Berlin, Germany. Met. Z., Schweizerbart'sche Verlagsbuchhandlung, 22, 131-143
Steger, C., S. Kotlarski, T. Jonas, C. Schär (2013): Alpine snow cover in a changing climate: a regional climate model perspective. Clim. Dyn., 41, 735-754, DOI 10.1007/s00382-012-1545-3
Sweeney, C. P., P. Lynch, P. Nolan (2013): Reducing errors of wind speed forecasts by an optimal combination of post-processing methods. Met. Apps, 20: 32–40. doi: 10.1002/met.294
Tang, H., J.T. Eronen, A. Micheels, B. Ahrens (2013): Strong interannual variation of the Indian summer monsoon in the Late Miocene. Clim. Dyn., 41, 1, pp. 135-153.
Tang, H., A. Micheels, J.T. Eronen, B. Ahrens, M. Fortelius (2013): Asynchronous responses of East Asian and Indian summer monsoons to mountain uplift shown by regional climate modelling experiments. Climate Dyn., 40, 5-6, pp. 1531-1549, doi: 10.1007/s00382-012-1603-x
Trusilova, K., B. Früh, S. Brienen, A. Walter, V. Masson, G. Pigeon, P. Becker (2013): Implementation of an urban parameterization scheme into the regional climate model COSMO-CLM. J. of Applied Meteorology and Climatology, accepted.
Wagner, S., P. Berg, G. Schädler, H. Kunstmann (2013): High resolution regional climate model simulations for Germany: Part II-projected climate changes. Climate Dyn., 40, 1-2, pp. 415-427, doi: 10.1007/s00382-012-1510-1
Wang, D., C. Menz, T. Simon, C. Simmer, C. Ohlwein (2013): Regional dynamical downscaling with CCLM over East Asia. Meteorology and Atmospheric Physics, 121, 1-2, pp. 38-53.
Wienert U., F. Kreienkamp, A. Spekat, W. Enke (2013): A simple method to estimate the urban heat island intensity in data sets used for the simulation of the thermal behaviour of buildings. Met. Zeitschrift, 22(2), 179–185
Wouters, H., K. De Ridder, N. Van Lipzig, M. Demuzere, D. Lauwaet (2013). The diurnal evolution of the urban heat island of Paris: a model-based case study during Summer 2006. Atmospheric Chemistry and Physics, 13, 8525-8541
Zhong, J., B. Su, J. Zhai, T. Jiang (2013): Distribution Characteristics and Future Trends of Daily Precipitation in China. Progressus Inquisitiones de Mutatione Climatis, 9, 2, pp. 89-95.
2012
Abdalla, M., K. Rueangritsarakul, M. Jones, B. Osborne, M. Helmy, B. Roth, J. Burke, P. Nolan, P. Smith, M. Williams (2012): How effective is reduced tillage & cover crop management in reducing N2O fluxes from arable crop soils?Water, Air, & Soil Pollution, 223, 5155–5174
Asharaf, S., A. Dobler, B. Ahrens (2012): Soil moisture-precipitation feedback processes in the Indian summer monsoon season. J. of Hydrometeorology, 13, 1461–1474. doi: http://dx.doi.org/10.1175/JHM-D-12-06.1
Akkermans, T., D. Lauwaet, M. Demuzere, G. Vogel, Y. Nouvellon, J. Ardö, B. Caquet, A. De Grandcourt, L. Merbold, W. Kutsch, N. Van Lipzig (2012): Validation and comparison of two soil-vegetation-atmosphere transfer models for Tropical Africa. J. of Geophysical Research, 117, art.nr. G02013.
Barcikowska, M., F. Feser, and H. von Storch, 2012: Usability of best track data in climate statistics in the western North Pacific. Mon. Wea. Rev., 140, 2818-2830, DOI: 10.1175/MWR-D-11-00175.1.
Bellprat, O., S. Kotlarski, D. L??thi, and C. Sch??r (2012), Objective calibration of regional climate models, J. Geophys. Res., 117, D23115, doi:10.1029/2012JD018262.
Benetazzo, A., F. Fedele, S. Carniel, A. Ricchi, E. Bucchignani, M. Sclavo (2012): Wave climate of the Adriatic Sea: a future scenario simulation. Natural Hazards and Earth System Sciences, 12, 6, pp. 2065-2076, doi: 10.5194/nhess-12-2065-2012
Berg, P., H. Feldmann, H.-J. Panitz (2012): Bias correction of high resolution RCM data. J. Hydrol., 448-449, 80-92,
Bierdel, L., P. Friederichs, S. Bentzien (2012): Spatial kinetic energy spectra in the convection-permitting limited-area NWP model COSMO-DE. Met. Z., 21, 3, pp. 245-258, doi: 10.1127/0941-2948/2012/0319
Born, K., P. Ludwig, J.G. Pinto (2012): Wind Gust Estimation for Mid-European Winter Storms: Towards a Probabilistic View. Tellus A 64:17471 doi:10.3402/tellusa.v64i0.17471
Casper, MC., G. Grigoryan, O. Gronz, O. Gutjahr, G. Heinemann, R. Ley, A. Rock (2012): Analysis of projected hydrological behavior of catchments based on signature indices. Hydrology and Earth System Sciences, 16, 2, pp. 409-421, doi: 10.5194/hess-16-409-2012
Cavicchia, L., H. von Storch (2012): The simulation of medicanes in a high-resolution regional climate model. Climate Dyn., 39, 9-10, pp. 2273-2290, doi: 10.1007/s00382-011-1220-0
Chen, F., B. Geyer, M. Zahn, H. v. Storch (2012):Toward a Multi-Decadal Climatology of North Pacific Polar Lows Employing Dynamical Downscaling. Terrestrial, Atmospheric and Oceanic Sciences, Vol. 23, No. 3, 291-301,DOI code: 10.3319/TAO.2011.11.02.01(A)
Costa, AC., J.A. Santos, J.G. Pinto (2012): Climate change scenarios for precipitation extremes in Portugal. Theoretical and Applied Climatology, 108, 1-2, pp. 217-234, doi: 10.1007/s00704-011-0528-3
Davin, E.L., S.I. Seneviratne (2012): Role of land surface processes and diffuse/direct radiation partitioning in simulating the European climate. Biogeosciences, 9, 1695-1707, doi:10.5194/bg-9-1695-2012.
Feser, F. and M. Barcikowska, 2012: The Influence of Spectral Nudging on Typhoon Formation in Regional Climate Models. Environ. Res. Lett., 7, 014024, doi:10.1088/1748-9326/7/1/014024.
Haas, R., J.G. Pinto (2012): A combined statistical and dynamical approach for downscaling large-scale footprints of European windstorms (pdf). Geophys. Research Letters, Vol.39, L23804, DOI: 10.1029/2012GL054014. Supplementary material (pdf).
Haslinger, K., I. Anders, M. Hofstätter (2012): Regional Climate Modelling over complex terrain : an evaluation study of COSMO-CLM hindcast model runs for the Greater Alpine Region. Climate Dyn., published online, doi: 10.1007/s00382-012-1452-7
Hermans, A., F. Ament, G. Geyer, V. Matthias, M. Quante, B. Rockel, B. (2012): Evaluation of Humidity, Clouds and Precipitation in COSMO-CLM and MM5 over Germany. Met. Z., 21, 5, pp. 487-502, doi: 10.1127/0941-2948/2012/0326
Hofmann, Ch., A. Kerkweg, H. Wernli, P. Joeckel (2012): The 1-way on-line coupled model system MECO(n) – Part 3: Meteorological Evaluation of the on-line coupled system. Geosci. Model Dev., 5, 129–147, 2012.
Kapsch, M.-L., M. Kunz, R. Vitolo, T. Economou (2012): Long-term trends of hail-related weather types in an ensemble of regional climate models using a Bayesian approach. J. Geophys. Res., 117, D15107
Kerkweg, A., P. Jöckel: The 1-way on-line coupled model system MECO(n) – Part 1: Description of the limited-area atmospheric chemistry model COSMO/MESSy. Geosci. Model Dev., 5, 87–110, 2012a.
Kerkweg, A, P. Jöckel (2012): The 1-way on-line coupled model system MECO(n) – Part 2: On-line coupling with the Multi-Model-Driver (MMD). Geosci. Model Dev., 5, 111–128.
Kotlarski, S., T. Bosshard, D. Luthi, P. Pall, C. Schär (2012): Elevation gradients of European climate change in the regional climate model COSMO-CLM. Climate Change, 112, 2, pp. 189-215, doi: 10.1007/s10584-011-0195-5
Langhans, W., J. Schmidli, C. Schär (2012): Mesoscale Impacts of Explicit Numerical Diffusion in a Convection-Permitting Model. Monthly Weather Review, 140, 1, 226-244, doi: 10.1175/2011MWR3650.1
Lorenz, R., E.L. Davin, S.I. Seneviratne (2012): Modeling land-climate coupling in Europe: Impact of land surface representation on climate variability and extremes. J. Geophys. Res., 117, D20109, doi:10.1029/2012JD017755.
Mironov, D., B. Ritter, J.P. Schulz, M. Buchhold, M. Lange, E. Machulskaya (2012): Parameterisation of sea and lake ice in numerical weather prediction models of the German Weather Service. Tellus A, 64, 17330, doi: 10.3402/tellusa.v64i0.17330
Nikulin, G., C. Jones, P. Samuelsson, F. Giorgi, M.B. Sylla, G. Asrar, M. Büchner, R. Cerezo-Mota, O.B. Christensen, M. Déqué, J. Fernandez, A. Hänsler, E. van Meijgaard, L. Sushama (2012): Precipitation Climatology in An Ensemble of CORDEX-Africa Regional Climate Simulations. J. Climate, 25, 10, 6057-6078, DOI 10.1175/JCLI-D-11-00375.1.
Panitz, H.-J., P. Berg, G. Schädler, G. Fosser (2012): Modelling Regional Climate Change for Germany and Africa. In: High Performance Computing in Science and Engineering '11 [W. E. Nagel, D. Kröner, M. Resch (Eds.)]. Springer Berlin Heidelberg New York 2012, pp 503--512, DOI 10.1007/978-3-642-23869-7
Pavlik, D., D. Sohl, T. Pluntke, A. Mykhnovych, C. Bernhofer (2012): Dynamic downscaling of global climate projections for Eastern Europe with a horizontal resolution of 7 km. Environmental Earth Sciences, 65, 5, pp. 1475-1482, doi: 10.1007/s12665-011-1081-1
Pfeifroth, U., R. Hollmann, B. Ahrens (2012): Cloud Diurnal Cycles in Satellite Data and Regional Climate Model Simulations. Met. Z., 21(6), 551-560. doi: http://dx.doi.org/10.1127/0941-2948/2012/0423
Richert, CN., A. Matzarakis (2012): GIS-analysis of the climatic wind energy potential in the region of Freiburg im Breisgau, based on observed data and Regional Climate Models. Gefahrstoffe/Reinhaltung der Luft, 72, 7-8, pp. 321-328.
Rimkus, E., D. Valiukas, J. Kazys, I. Gecaite, E. Stonevicius, E. (2012): Dryness dynamics of the Baltic Sea region. Baltica, 25, 2, 129-142, doi: 10.5200/baltica.2012.25.13
Schanze, J., J. Trumper, C. Burmeister, D. Pavlik, I. Kruhlov (2012): A methodology for dealing with regional change in integrated water resources management. Environmental Earth Sciences, 65, 5, pp. 1405-1414, doi: 10.1007/s12665-011-1311-6
Schubert, S., S. Grossmann-Clarke, A. Martilli (2012): A Double-Canyon Radiation Scheme for Multi-Layer Urban Canopy Models. Boundary-Layer Meteorology, 145, 3, pp. 439-468, doi: 10.1007/s10546-012-9728-3
Tan, F., B. Su, C. Gao, Y. Fang (2012): High-resolution Regional Climate Model (CCLM) for Simulation of Precipitation in the Huaihe River Basin, China. Resources and Environment in the Yangtze Basin, 21, 10, 1236-1242.
Than, H., A. Micheels, J.T. Eronen, B. Ahrens, M. Fortelius (2012): Asynchronous respondes of East Asien and Indian Summer monsoons to mountain uplift shown by regional climate modelling experiments. Springer Verlag, DOI: 10.1007/s00382-012-1603-x
Wouters, H., K. De Ridder, N. Van Lipzig (2012): Comprehensive Parametrization of Surface-Layer Transfer Coefficients for Use in Atmospheric Numerical Models. Boundary-Layer Meteorology, 145(3), 539-550
Zink, K., H. Vogel, B. Vogel, D. Magyar, C. Kottmeier (2012): Modeling the dispersion of Ambrosia artemisiifolia L. pollen with the model system COSMO-ART. Int. J. of Biomet., 56, doi: 10.1007/s00484-011-468-8
2011
Baldauf, M., A. Seifert, J. Förstner, D. Majewski, M. Raschendorfer, T. Reinhardt (2011): Operational convective-scale numerical weather prediction with the COSMO model: description and sensitivities. Monthly Weather Review, DOI: 10.1175/MWR-D-10-05013.1 .
Berg, P., H.-J. Panitz, G. Schädler, H. Feldmann, Ch. Kottmeier (2011): Modelling Regional Climate Change in Germany. In: High Performance Computing in Science and Engineering '10 [W. E. Nagel, D. Kröner, M. Resch (Eds.)]. Springer Berlin Heidelberg New York 2011, pp. 467-478, DOI 10.1007/978-3-642-15748-6_34.
Buzzi, M., M.W. Rotach, M. Raschendorfer, A.A.M. Holtslag (2011): Evaluation of the COSMO-SC turbulence scheme in a shear-driven stable boundary layer. Met. Z., Vol. 20, No 3, pp 335-350.
Charabi, Y., S. Al-Yahyai,A. Gastli (2011): Evaluation of NWP performance for wind energy resource assessment in Oman. Renewable & Sustainable Energy Reviews, 15, 3, pp. 1545-1555.
Davin, E. L., R. Stoeckli, E. B. Jaeger, S. Levis, S.I. Seneviratne (2011): COSMO-CLM2: A new version of the COSMO-CLM model coupled to the Community Land Model. Climate Dyn., 37, 9, 1889-1907, doi:10.1007/s00382-011-1019-z.
Dobler, A., B. Ahrens (2011): Four climate change scenarios for the Indian summer monsoon by the regional climate model COSMO-CLM. JOURNAL OF GEOPHYSICAL RESEARCH, VOL. 116, D24104, 13 PP., DOI:10.1029/2011JD016329.
Feser, F., B. Rockel, H. von Storch, J. Winterfeldt, and M. Zahn, 2011: Regional Climate Models add Value to Global Model Data: A Review and selected Examples. Bull. Amer. Meteor. Soc., doi: 10.1175/2011BAMS3061.1.
Früh, B., P. Becker, T. Deutschlaender, J.D. Hessel, M. Kossmann, I. Mieskes, J. Namyslo, M. Roos, U. Sievers, T. Steigerwald, H. Turau, U. Wienert (2011): Estimation of Climate-Change Impacts on the Urban Heat Load Using an Urban Climate Model and Regional Climate Projections. J. of Applied Meteorology and Climatology, 50, 1, pp. 167-184, doi: 10.1175/2010JAMC2377.1.
Gebhardt, C., S.E. Theis, M. Paulat, Z. Ben Bouallegue (2011): Uncertainties in COSMO-DE precipitation forecasts introduced by model perturbations and variation of lateral boundaries. Atmospheric Research, 100, 2-3, pp. 168-177, doi: 10.1016/j.atmosres.2010.12.008.
Herbort, F., D. Etling (2011): Post-frontal shower cells in the COSMO-DE model. A comparison with radar measurements. Met. Z., 20, 2, pp. 217-226, doi: 10.1127/0941-2948/2011/0214.
Ho, H., Van-Tan, P., L. Nhu-Quan, N. Quang-Trung (2011): Extreme climatic events over Vietnam from observational data and RegCM3 projections. Climate Research, Vol. 49: 87–100, doi: 10.3354/cr01021
Knote, C., D. Brunner, H. Vogel, J. Allan, A. Asmi, M. Aijala, S. Carbone, H.D. van der Gon, J.L. Jimenez, A. Kiendler-Scharr, C. Mohr, L. Poulain, A.S.H. Prevot, E. Swietlicki, B. Vogel (2011): Towards an online-coupled chemistry-climate model: evaluation of trace gases and aerosols in COSMO-ART., Geosc. Model Dev., 4, doi: 10.5194/gmd-4-1077-2011
Lucas-Picher, P., J. Christensen, F. Saeed, P. Kumar, S. Asharaf, B. Ahrens, A. Wiltshire, D. Jacob, and S. Hagemann (2011): Can regional climate models represent the Indian monsoon? J. Hydrometeorol., 12, 849–868.
Scholzel, C., A. Hense (2011): Probabilistic assessment of regional climate change in Southwest Germany by ensemble dressing. Climate Dyn., 36, 9-10, pp. 2003-2014, doi: 10.1007/s00382-010-0815-1.
Senatore, A., G. Mendicino, G. Smiatek, H. Kunstmann (2011): Regional climate change projections and hydrological impact analysis for a Mediterranean basin in Southern Italy. J. of Hydrology, 399, 1-2, 70-92, doi: 10.1016/j.jhydrol.2010.12.035.
Sweeney, C., P. Lynch (2011): Adaptive post-processing of short-term wind forecasts for energy applications. Wind Energy, 14, 3, pp. 317-325, doi: 10.1002/we.420.
Than, H., A. Micheels, J. Eronen, M. Fortelius (2011): Regional climate modell experiments to invastigate the Asien monsoon in the Late Miocene. Interactive Open Access Journal of the European Geosciences Union. DOI: 10.5194/cp-7-847-2011.
Zubler, E.M., D. Folini, U. Lohmann, D. Luethi, A. Muhlbauer, S. Pousse-Nottelmann, C. Schar, M. Wild (2011): Implementation and evaluation of aerosol and cloud microphysics in a regional climate model. J. Geophys. Res.-Atmos., 116, D02211, doi: 10.1029/2010JD014572.
Zubler, E.M., U. Lohmann, D. Luethi, C. Schar (2011): Intercomparison of aerosol climatologies for use in a regional climate model over Europe. Geophysical Research Letters, 38, L15705, doi: 10.1029/2011GL048081.
2010
Berg, P., J.-J. Panitz, G. Schädler, H. Feldmann, Ch. Kottmeier (2010): Downscaling Climate Simulations for Use in Hydrological Modeling of Medium-Sized River Catchments. In: High Performance Computing on Vector Systems 2010 [M. Resch, K. Benkert, X. Wang, M. Galle, W. Bez, H. Kobayashi S. Roller (Eds.)], Springer Berlin Heidelberg New York 2010. pp. 163-170, DOI 10.1007/978-3-642-11851-7_12.
Dobler, A., B. Ahrens (2010): Analysis of the Indian summer monsoon system in the regional climate model COSMO-CLM. J. Geophys. Res.-Atmos., 115, D16, D16101, doi: 10.1029/2009JD013497.
Fiori, E., A. Parodi, F. Siccardi (2010): Turbulence Closure Parameterization and Grid Spacing Effects in Simulated Supercell Storms. J. of the Atmospheric Sciences, 67, 12, pp. 3870-3890, doi: 10.1175/2010JAS3359.1.
Früh, B., H. Feldmann, J.-J. Panitz, G. Schädler, D. Jacob, P. Lorenz, K. Keuler (2010): Determination of Precipitation Return Values in Complex Terrain and Their Evaluation. J. Climate, 23 (9), 2257-2274.
Knote, C., G. Heinemann, B. Rockel (2010): Changes in weather extremes: Assessment of return values using high resolution climate simulations at convection-resolving scale. Met. Z., 19, 1, pp. 11-23, doi: 10.1127/0941-2948/2010/0424.
Kunz, M., M. Rauthe, R. Lux, C. Kottmeier (2010): Assessment of extreme wind speeds from Regional Climate Models - Part 1: Estimation of return values and their evaluation. Natural Hazards and Earth System Sciences, 10, 4, pp. 907-922.
Leuenberger, D., M. Koller, O. Fuhrer, C. Schär (2010): A Generalization of the SLEVE Vertical Coordinate. Mon. Wea. Rev., 138, 3683-3689, doi:10.1175/2010MWR3307.1.
Malheiro, A.C., J.A. Santos, H. Fraga, J.G. Pinto (2010): Climate change scenarios applied to viticultural zoning in Europe. Clim. Research, 43, 3, pp. 163-177, doi: 10.3354/cr00918
Mironov, D., E. Heise, E. Kourzeneva, B. Ritter, N. Schneider, A. Terzhevik (2010): Implementation of the lake parameterisation scheme FLake into the numerical weather prediction model COSMO. Boreal Environmental Research, 15, 2, pp. 218-230.
Noppel, H., U. Blahak, A. Seifert, K.D. Beheng (2010): Simulations of a hailstorm and the impact of CCN using an advanced two-moment cloud microphysical scheme. Atmospheric Research, 96, 2-3, pp. 286-301, doi: 10.1016/j.atmosres.2009.09.008.
Panitz, H.-J., G. Schädler, H. Feldmann (2010): Modelling Regional Climate Changes in Southwest Germany. pp. 429 - 441, in: High Performance Computing in Science and Engineering '09. Transactions of the High Performance Computing Center Stuttgart (HLRS) 2009 (Eds. : W. E. Nagel, D. B. Kröner, M. M. Resch); Springer Verlag Berlin Heidelberg 2010; DOI 10.1007/978-3-642-04665-0 ISBN 978-3-642-04664-3
Rauthe, M., M. Kunz, Ch. Kottmeier (2010): Changes in wind gust extremes over Central Europe derived from a small ensemble of high resolution regional climate models, Met. Z., Vol. 19, No. 3, 299-312, DOI:10.1127/0941-2984/210/0350.
Suklitsch, M., A. Gobiet, H. Truhetz, N.K. Awan, H. Göttel, D. Jacob (2010): ErrorCharacteristics of High Resolution Regional Climate Models over the Alpine Area. Clim. Dyn., published online: 2 June, 2010. DOI: 10.1007/s00382-010-0848-5
2009
Anders, I., B. Rockel (2009): The influence of prescribed soil type distribution on the representation of present climate in a regional climate model. Clim. Dyn., Vol 33, Issue 2-3, pp 177-186. DOI: 10.1007/s00382-008-0470-y.
Bachner, S., C. Simmer (2009): Aspects of Regional Climate Modelling with Focus on Precipitation:REGIONAL ASPECTS OF CLIMATE-TERRESTRIAL-HYDROLOGIC INTERACTIONS IN NON-BOREAL EASTERN EUROPE, pp 87-94.
Buser, C.M., H.R. Künsch, D. Lüthi, M. Wild, C. Schär (2009): Bayesian multi-model projection of climate: Bias assumptions and interannual variability. Clim. Dyn., 33 (6) 849-868, DOI 10.1007/s00382-009-0588-6.
Claussnitzer, A., P. Nevir (2009): Analysis of quantitative precipitation forecasts using the Dynamic State Index. Atmospheric Research, 94, 4, pp. 694-703, doi: 10.1016/j.atmosres.2009.08.013.
Fiori, E., A. Parodi, F. Siccardi (2009): Dealing with uncertainty: turbulent parameterizations and grid-spacing effects in numerical modelling of deep moist convective processes, Natural Hazards and Earth System Sciences, 9, 6, pp. 1871-1880.
Fischer, E.M., C. Schär (2009): Future changes in daily summer temperature variability: driving processes and role for temperature extremes. Clim. Dyn., 33 (7), 917-935, DOI 10.1007/s00382-008-0473-8.
Hohenegger, C., P. Brockhaus, C. S. Bretherton, C. Schar (2009): The Soil Moisture-Precipitation Feedback in Simulations with Explicit and Parameterized Convection, J. of Climate, 22, 19, pp. 5003-5020, doi: 10.1175/2009JCLI2604.1.
Jaeger, E.B., R. Stöckli, S. I. Seneviratne (2009): Analysis of planetary boundary layer fluxes and land-atmosphere coupling in the regional climate model CLM, Geoph. Res. Lett., 114, D17106, DOI:10.1029/2008JD011658.
Knote, C., G. Bonafe, F. Di Giuseppe (2009): Leaf Area Index Specification for Use in Mesoscale Weather Prediction Systems. Monthly Weather Review, 137, 10, pp. 3535-3550, doi: 10.1175/2009MWR2891.1.
Kuell, V., A.. Bott (2009): Application of the hybrid convection parameterization scheme HYMACS to different meteorological situations. Atmospheric Research, 94, 4, pp. 743-753, doi: 10.1016/j.atmosres.2009.04.002.
Meissner, C., G. Schadler, H.-J. Panitz, H. Feldmann, C. Kottmeier (2009): High-resolution sensitivity studies with the regional climate model COSMO-CLM, Met. Z., 18, 5, pp. 543-557, doi: 10.1127/0941-2948/2009/0400.
Smiatek, G, H. Kunstmann, R. Knoche, et al. (2009): Precipitation and temperature statistics in high-resolution regional climate models: Evaluation for the European Alps, J. Geophys. Res.-Atmos., 114, D19107. DOI: 10.1029/2008JD011353
Vogel, B., H. Vogel, D. Bäumer, M. Bangert, K. Lundgren, R. Rinke, T. Stanelle, (2009): The comprehensive model system COSMO-ART - Radiative impact of aerosol on the state of the atmosphere on the regional scale. Atmos. Chem. and Phys., 9, 1680-7316
2008
Bachner, S., A. Kapala, C. Simmer: Evaluation of daily precipitation characteristics in the CLM and their sensitivity to parameterizations. Met. Z., 17 (4), 407-420.
Baldauf, M. (2008): Stability analysis for linear discretisations of the advection equation with Runge-Kutta time integration. J. of Computational Physics, 227, 13, pp. 6638-6659 (for COSMO advection schemesReference).
Böhm, U., K. Keuler, H. Österle, M. Kücken, D. Hauffe (2008): Quality of a climate reconstruction for the CADSES regions. Met. Z., 17 (4), 477-486.
Brockhaus, P., D. Lüthi and C. Schär (2008): Aspects of the Diurnal Cycle in a Regional Climate Model. Met. Z., 17 (4), 433-443.
DOBLER, A., B. AHRENS (2008): Precipitation by a regional climate model and bias correction in Europe and South Asia. Met. Z., 17 (4), 499-510.
Ebell, K., S. Bachner, A. Kapala, C. Simmer (2008): Sensitivity of summer precipitation simulated by the CLM with respect to initial and boundary conditions. Met. Z., 17 (4), 421-432
Feldmann, H., B. Früh, G. Schädler, H.-J. Panitz, K. Keuler, D. Jacob, P. Lorenz (2008): Evaluation of the precipitation for South-western Germany from high resolution simulations with regional climate models. Met. Z., 17(4), 455-466.
Feser, F., H. von Storch (2008): Regional modelling of the western Pacific typhoon season 2004. Met. Z., 17 (4), 519-528.
Feser, F., H. von Storch (2008): A dynamical downscaling case study for typhoons in Southeast Asia using a regional climate model. Monthly Weather Review, 136, 5, pp. 1806-1815.
Hohenegger, C., A. Walser, W. Langhans, C. Schär (2008): Cloud-resolving ensemble simulations of the August 2005 Alpine flood. Quart. J. Roy. Meteorol. Soc., 134 (633), 889-904.
Hohenegger, C., P. Brockhaus, C. Schär (2008): Towards climate simulations at cloud-resolving scales. Met. Z., 17 (4), 383-394.
Hollweg, H.-D., U. Böhm, I. Fast, B. Hennemuth, K. Keuler, E. Keup-Thiel, M.Lautenschlager, S. Legutke, K. Radtke, B. Rockel, M. Schubert, A. Will, M. Woldt, C. Wunram (2008): Ensemble Simulations over Europe with the Regional Climate Model CLM forced with IPCC AR4 Global Scenarios. World Data Center for Climate (WDCC) at DKRZ, https://doi.org/10.2312/WDCC/MaD_TeReport_No03
Jaeger, E.B., I. Anders, D. Lüthi, B. Rockel, C. Schär, S. I. Seneviratne (2008): Analysis of ERA40-driven CLM simulations for Europe. Met. Z., 17 (4), 349-368.
Jaun, S., B. Ahrens, A. Walser, T. Ewen, C. Schär (2008): A probabilistic view on the August 2005 floods in the upper Rhine catchment. Nat. Hazards Earth Syst. Sci., 8, 281-291.
Kaspar, F., U. Cubasch (2008): Simulation of East African precipitation patterns with the regional climate model CLM. Met. Z., 17 (4), 511-518.
Kuell, V., A. Bott (2008): Title: A hybrid convection scheme for use in non-hydrostatic numerical weather prediction models. Met. Z., 17, 6, pp. 775-783, doi: 10.1127/0941-2948/2008/0342.
McGrath, R., P. Lynch, S. Dunne, J. Hanafin, E. Nishimura, P. Nolan, P., J. Venkata Ratnam, T. Semmler, C. Sweeney, S. Wang, S. (2008): Ireland in a Warmer World. Scientific Predictions of the Irish Climate in the Twenty-First Century. Final Report of Community Climate Change Consortium for Ireland (C4I), Dublin: Met Éireann.
Meissner, C., G. Schädler (2008): Modelling the Regional Climate of Southwest Germany: Sensitivity to Simulation Setup. In: High Performance Computing in Science and Engineering '07 [W. E. Nagel, D. Kröner, M. Resch (Eds.)]. ISBN 978-3-540-74738-3, Springer Berlin Heidelberg New York
Rockel, B., A. Will, A. Hense eds.(2008): Special issue Regional climate modelling with COSMO-CLM (CCLM). Met. Z., Vol. 17
Rockel, B., B. Geyer (2008): The performance of the regional climate model CLM in different climate regions, based on the example of precipitation. Met. Z., 17 (4), 487-498.
Rockel, B. , C.L. Castro , R.A. Pielke, H. von Storch , G. Leoncini (2008): Dynamical downscaling: Assessment of model system dependent retained and added variability for two different regional climate models. J. Geophys. Res.-Atmos., 113, D21107, 10.1029/2007JD00946.
Roesch, A., E.B. Jaeger, D. Lüthi, S.I. Seneveriatne (2008): Analysis of CCLM model biases in relation to intra-ensemble model variability. Met. Z., 17 (4), 369-382.
Smiatek, G., B. Rockel, U. Schättler (2008): Time invariant data preprocessor for the climate version of the COSMO model (COSMO-CLM). Met. Z., 17 (4), 395-406.
Suklitsch, M., A. Gobiet, A. Leuprecht, C. Frei (2008): High Resolution Sensitivity Studies with the Regional Climate Model CCLM in the Alpine Region. Met. Z., 17 (4), 467-476.
Walter, A., K. Keuler, D.Jacob, R. Knoche, A. Block, S. Kotlarski, G. Muller-Westermeier, D. Rechid D, W. Ahrens (2008): A high resolution reference data set of German wind velocity 1951-2001 and comparison with regional climate model results. Met. Z., 15, 6, pp 585-596.
Zahn, M., H. von Storch (2008): A long-term climatology of North Atlantic polar lows. Geoph. Res. Lett., 35, L22702, DOI:10.1029/2008GL035769.
Zahn, M., H. v. Storch, St. Bakan (2008): Climate mode simulation of North Atlantic polar lows in a limited area model. DOI:10.1111/j.1600-0870.2008.00330.x
Zahn, M., H. von Storch: Tracking Polar Lows in CLM, Met. Z., 17 (4), 433-454
2007
Déqué, M., D.P. Rowell, D. Lüthi, F. Giorgi, J. H. Christensen, B. Rockel, D. Jacob, E. Kjellström, M. de Castro, B. van den Hurk (2007): An intercomparison of regional climate simulations for Europe: assessing uncertainties in model projections. Climatic Change, 81, 53-70.
Hirschi, M., S. I. Seneviratne, S. Hagemann, C. Schär (2007): Analysis of seasonal terrestrial water storage variations in regional climate simulations over Europe. J. Geophys. Res., 112, Art. No. D22109.
Hohenegger C., C. Schär (2007): Predictability and error growth dynamics in cloud-resolving models. J. Atmos. Sci., 64, 4467-4478.
Hohenegger, C., C. Schär (2007): Atmospheric predictability at synoptic versus cloud-resolving scales. Bulletin American Meteorol. Soc., 88 (11), 1783-1793.
Jacob, D., L. Bärring, O. B. Christensen, J. H. Christensen, M. de Castro, M. Déqué, F. Giorgi, S. Hagemann, M. Hirschi, R. Jones, E. Kjellström, G. Lenderink, B. Rockel, E. Sánchez, Ch. Schär, S. I. Seneviratne, S. Somot, A. van Ulden, and B. van den Hurk (2007): An inter-comparison of regional climate models for Europe: Model performance in Present-Day Climate. Climatic Change, 10.1007/s10584-006-9213-4.
Kjellström, E., L. Bärring, D. Jacob, R. Jones, G. Lenderink, C. Schär (2007): Modelling daily temperature extremes: Recent climate and future changes over Europe. Climatic Change, 81, 249-265.
Rockel, B., K. Woth (2007): Extremes of near-surface wind speed over Europe and their future changes as estimated from an ensemble of RCM simulations. Climatic Change, 10.1007/s10584-006-9227-y.
Takle, E.S., J. Roads, B. Rockel, W.J. Gutowski Jr., R.W. Arrit, I. Meinke, C.G. Jones, A. Zadra (2007): Transferability intercomparison: An opportunity for new insight on the global water cycle and energy budget. Bull. Amer. Soc., Vol. 88, issue 3, 375.
Verbunt, M., A. Walser, J. Gurtz, A. Montani, C. Schär (2007): Probabilistic flood forecasting with a limited-area ensemble prediction system. J. Hydrometeorol., 8 (4), 897-909.
Vidale, P.L., D. Lüthi, R. Wegmann, C. Schär (2007): European summer climate variability in a heterogeneous multi-model ensemble. Clim. Change, 81, 209-232.
2006
Frei, C., R. Schöll, J. Schmidli, S. Fukutome, P.L. Vidale (2006): Future change of precipitation extremes in Europe: An intercomparison of scenarios from regional climate models. J. Geophys. Res., 111, Art. No. D06105
Hohenegger C., D. Lüthi, C. Schär (2006): Predictability mysteries in cloud-resolving models. Mon. Wea. Rev., 134 (8), 2095-2107.
Seneviratne, S. I., D. Lüthi, M. Litschi, Ch. Schär (2006): Land–atmosphere coupling and climate change in Europe. Nature, 443: 205-209, DOI:10.1038/nature05095.
2005
Böhm, U., K. Keuler, B. Rockel, A. Block, A. Will, D. Hauffe, W. Ahrens (2005): Climate reconstructions over europe using the dynamic regional climate model clm, In International Conference on Climate Change: Impacts and Responses in Central and Eastern European Countries. Hungary, 5-8 November 2005.
Déqué, M., R.G. Jones, M. Wold, F. Giorgi, J.H. Christensen, D.C. Hassell, P.L. Vidale, B. Rockel, D. Jakob, E. Kjellström, M. de Castro, F. Kucharski, B. van den Hurk (2005): Global high resolution versus Limited Area Model climate change projections over Europe: quantifying confidence level from PRUDENCE results, Climate Dynamics, DOI 10.1007/s00382-005-0052-1.
Gerstengarbe, F.-W., M. Kücken, P.C. Werner (2005): A new validation scheme for the evaluation of multiparameter fields.Tellus, 57A, 35 – 42.
Kotlarski, S., U. Böhm, D. Jacob, K. Keuler, R. Knoche, A. Walter (2005): Regional Climate Model Simulations as Input for Hydrological Applications: Evaluation of Uncertainties. Advances in Geophysics, 5, 119–125.
van den Hurk, B., M. Hirschi, G. Lenderink, E. van Meijgaard, A. van Ulden, B. Rockel, S. Hagemann, P. Graham, E. Kjellström (2005): Soil control on runoff response to climate change in regional climate model simulations. J. Climate, Vol. 18, No. 17, 3536-3551.
2004
Böhm, U., M. Kücken, D. Hauffe, F.-W. Gerstengarbe, P.C. Werner, M. Flechsig, K. Keuler, A. Block, W. Ahrens, T. Nocke (2004): Reliability of regional climate model simulations of extremes and of long-term climate. Natural Hazards and Earth System Sciences, 4, 417–431.
2003
Böhm, U., F.-W. Gerstengarbe, D. Hauffe, M. Kücken, H. Österle, P.C. Werner (2003): Dynamic regional climate modeling and sensitivity experiments for the northeast of Brazil. In T. Gaiser, M. Krol, H. Frischkorn, and J.C. Ara´ujo, editors, Global Change and Regional Impacts: 153–170. Springer-Verlag Berlin Heidelberg New York.
Steppeler, J., G. Doms, U. Schättler, H.W. Bitzer, A. Gassmann, U. Damrath, Gregoric (2003): Meso-gamma scale forecasts using the nonhydrostatic model LM. Met. Atmos.Phys., 82: 75–96, DOI: 10.1007/s00703-001-0592-9.
2002
Kücken, M., F.-W. Gerstengarbe, P.C. Werner (2002): Cluster analysis results of regional climate model simulations in the PIDCAP period. Boreal Environment Research, 7(3), 219.
van den Hurk, B., M. Hirschi, G. Lenderink, E. van Meijgaard, A. van Ulden, B. Rockel, S. Hagemann, P. Graham, E. Kjellström (2005): Soil control on runoff response to climate change in regional climate model simulations. J. Climate, Vol. 18, No. 17, 3536-3551.
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