HCLIM references

List of references where HCLIM has been used.

Journal papers

2025

Lenderink, G., de Vries, H., van Meijgaard, E., de Rooy, W., van Ulft, L., Thompson, V., Qiu, X., Fowler, H.J., 2025: A pseudo global warming based system to study how climate change affects high impact rainfall events. Weather and Climate Extremes, 100781. https://doi.org/10.1016/j.wace.2025.100781
Verro, K., Äijälä, C., Pirazzini, R., Dadic, R., Maure, D., van de Berg, W. J., Traversa, G., van Dalum, C. T., Uotila, P., Fettweis, X., Di Mauro, B., and Johansson, M., 2025: How well do the regional atmospheric and oceanic models describe the Antarctic sea ice albedo?, The Cryosphere, 19, 4409–4436, https://doi.org/10.5194/tc-19-4409-2025
Wang, F., Aldama-Campino A., Belušić D., Amorim J. H., Ribeiro I., Wiréhn L., Segersson D., Döscher R., Navarra C., Neset T.S., Lind P., 2025: Interactions of urban heat islands and heat waves in Swedish cities under present and future climates. Urban Clim. 59, 102286. https://doi.org/10.1016/j.uclim.2025.102286

2024

Belušić Vozila, A., Belušić, D., Telišman Prtenjak, M. et al., 2024: Evaluation of the near-surface wind field over the Adriatic region: local wind characteristics in the convection-permitting model ensemble. Clim Dyn 62, 4617–4634. https://doi.org/10.1007/s00382-023-06703-z
Caillaud, C., Somot, S., Douville, H. et al., 2024: Northwestern Mediterranean heavy precipitation events in a warmer climate: Robust versus uncertain changes with a large convection‐permitting model ensemble. Geophysical Research Letters, 51(6), p.e2023GL105143. https://doi.org/10.1029/2023GL105143
de Vries, H., Lenderink, G., van Meijgaard, E., van Ulft, B., de Rooy, W., 2024: Western Europe’s extreme July 2019 heatwave in a warmer world. Environmental Research: Climate 3, 2752-5295. https://doi.org/10.1088/2752-5295/ad519f
Fosser, G., Gaetani, M., Kendon, E.J. et al., 2024: Convection-permitting climate models offer more certain extreme rainfall projections. npj Clim Atmos Sci 7, 51. https://doi.org/10.1038/s41612-024-00600-w
Ha, M.T., Bastin, S., Drobinski, P. et al., 2024: Precipitation frequency in Med-CORDEX and EURO-CORDEX ensembles from 0.44° to convection-permitting resolution: impact of model resolution and convection representation. Clim Dyn 62, 4515–4540. https://doi.org/10.1007/s00382-022-06594-6
Molina, M.O., Careto, J.M., Gutiérrez, C. et al., 2024: The added value of simulated near-surface wind speed over the Alps from a km-scale multimodel ensemble. Clim Dyn 62, 4697–4715. https://doi.org/10.1007/s00382-024-07257-4
Müller, S.K., Pichelli, E., Coppola, E. et al, 2024: The climate change response of alpine-mediterranean heavy precipitation events. Clim Dyn 62, 165–186. https://doi.org/10.1007/s00382-023-06901-9
Sangelantoni, L., Sobolowski, S., Lorenz, T. et al., 2024: Investigating the representation of heatwaves from an ensemble of km-scale regional climate simulations within CORDEX-FPS convection. Clim Dyn 62, 4635–4671. https://doi.org/10.1007/s00382-023-06769-9
Soares, P.M.M., Careto, J.A.M., Cardoso, R.M. et al., 2024: 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 62, 4491–4514. https://doi.org/10.1007/s00382-022-06593-7

2023

Dyrrdal, A.V., Médus, E., Dobler, A. et al., 2023: Changes in design precipitation over the Nordic-Baltic region as given by convection-permitting climate simulations. Weather and Climate Extremes, 42, p.100604. https://doi.org/10.1016/j.wace.2023.100604
Lind, P., Belušić, D., Médus, E. et al., 2023: Climate change information over Fenno-Scandinavia produced with a convection-permitting climate model. Clim Dyn 61, 519–541. https://doi.org/10.1007/s00382-022-06589-3
Müller, S.K., Caillaud, C., Chan, S. et al, 2023: Evaluation of Alpine-Mediterranean precipitation events in convection-permitting regional climate models using a set of tracking algorithms. Clim Dyn 61, 939–957. https://doi.org/10.1007/s00382-022-06555-z
Wang F., Belušić D., Amorim J. H, Ribeiro I., 2023: Assessing the impacts of physiography refinement on Stockholm summer urban temperature simulated with an offline land surface model. Urban Clim. 49, 101531. https://doi.org/10.1016/j.uclim.2023.101531

2022

Freistetter, NC., Médus, E., Hippi, M. et al, 2022: Climate change impacts on future driving and walking conditions in Finland, Norway and Sweden. Reg Environ Change 22, 58. https://doi.org/10.1007/s10113-022-01920-4
Médus, E., Thomassen, E. D., Belušić, D. et al., 2022: Characteristics of precipitation extremes over the Nordic region: added value of convection-permitting modeling. Nat. Hazards Earth Syst. Sci., 22, 693–711. https://doi.org/10.5194/nhess-22-693-2022

2021

Lenderink, G., de Vries, H., Fowler, H.J., Barbero, R., van Ulft, B., van Meijgaard, E., 2021: Scaling and responses of extreme hourly precipitation in three climate experiments with a convection-permitting model. Phil. Trans. R. Soc. A., 379. https://doi.org/10.1098/rsta.2019.0544
Olsson, Jonas and Du, Yiheng and An, Dong and Uvo, Cintia B. and Sörensen, Johanna and Toivonen, Erika and Belušić, Danijel and Dobler, Andreas, 2021: An Analysis of (Sub-)Hourly Rainfall in Convection-Permitting Climate Simulations Over Southern Sweden From a User’s Perspective. Frontiers in Earth Science 9. https://doi.org/10.3389/feart.2021.681312
Pichelli, E., Coppola, E., Sobolowski, S. et al., 2021: The first multi-model ensemble of regional climate simulations at kilometer-scale resolution part 2: historical and future simulations of precipitation. Clim. Dyn., 56, 3581–3602. https://doi.org/10.1007/s00382-021-05657-4

2020

HCLIM38 description paper Belušić, D., de Vries, H., Dobler, A., Landgren, O., Lind, P., Lindstedt, D., Pedersen, R. A., Sánchez-Perrino, J. C., Toivonen, E., van Ulft, B., Wang, F., Andrae, U., Batrak, Y., Kjellström, E., Lenderink, G., Nikulin, G., Pietikäinen, J.-P., Rodríguez-Camino, E., Samuelsson, P., van Meijgaard, E., and Wu, M., 2020: HCLIM38: a flexible regional climate model applicable for different climate zones from coarse to convection-permitting scales. Geosci. Model Dev., 13, 1311–1333. https://doi.org/10.5194/gmd-13-1311-2020
Coppola, E., Sobolowski, S., Pichelli, E. et al., 2020: A first-of-its-kind multi-model convection permitting ensemble for investigating convective phenomena over Europe and the Mediterranean. Climate Dynamics, 55, 3–34. https://doi.org/10.1007/s00382-018-4521-8
Gidhagen, L., Olsson, J., Amorim, J., Asker, C., Belušić, D., Carvalho, A., Engardt, M., Hundecha, Y., Körnich, H., Lind, P., Lindstedt, D., Olsson, E., Rosberg, J., Segersson, D., Strömbäck, L., 2020: Towards climate services for European cities: Lessons learnt from the Copernicus project Urban SIS. Urban Clim., 31, 100549. https://doi.org/10.1016/j.uclim.2019.100549
Gramsch E., Alicia Muñoz, Joakim Langner, Luis Morales, Cristian Soto, Patricio Pérez, María A. Rubio, 2020: Black carbon transport between Santiago de Chile and glaciers in the Andes Mountains. Atmospheric Environment, 232, 117546. https://doi.org/10.1016/j.atmosenv.2020.117546
Lind, P., Belušić, D., Christensen, O. B., Dobler, A., Kjellström, E., Landgren, O., Lindstedt, D., Matte, D., Pedersen, R. A., Toivonen, E., Wang, F., 2020: Benefits and added value of convection-permitting climate modelling over Fenno-Scandinavia. Clim. Dyn., 55, 1893–1912. https://doi.org/10.1007/s00382-020-05359-3
Wu, M., Nikulin, G., Kjellström, E., Belušić, D., Jones, C., and Lindstedt, D., 2020: The impact of regional climate model formulation and resolution on simulated precipitation in Africa. Earth Syst. Dynam., 11, 377–394. https://doi.org/10.5194/esd-11-377-2020

2019

Landgren, O. A., Batrak, Y., Haugen, J. E., Støylen, E., & Iversen, T, 2019: Polar low variability and future projections for the Nordic and Barents Seas. Quarterly Journal of the Royal Meteorological Society, 145(724), 3116-3128. https://doi.org/10.1002/qj.3608
Lenderink, G., Belušić, D., Fowler, H., Kjellström, E., Lind, P., van Meijgaard, E., van Ulft, B., de Vries, H., 2019: Systematic increases in the thermodynamic response of hourly precipitation extremes in an idealized warming experiment with a convection-permitting climate model. Env. Res. Lett., 14, 074012. https://doi.org/10.1088/1748-9326/ab214a
Lussana, C., Tveito, O. E., Dobler, A., and Tunheim, K., 2019: seNorge_2018, daily precipitation, and temperature datasets over Norway. Earth Syst. Sci. Data, 11, 1531–1551. https://doi.org/10.5194/essd-11-1531-2019
Toivonen, E., Hippi, M., Korhonen, H., Laaksonen, A., Kangas, M., and Pietikäinen, J.-P., 2019: The road weather model roadsurf (v6.60b) driven by the regional climate model HCLIM38: evaluation over Finland. Geoscientific Model Development, 12, 3481–3501. https://doi.org/10.5194/gmd-12-3481-2019

2018

Amorim J. H., Asker C., Belušić D., Carvalho A. C., Engardt M., Gidhagen L., Hundecha Y., Körnich H., Lind P., Olsson E., Olsson J., Segersson D., Strömbäck L., Joe P., Baklanov A., 2018: Integrated Urban Services for European cities: the Stockholm case. WMO Bulletin - The journal of the World Meteorological Organization, 67(2), 33–40. https://urn.kb.se/resolve?urn=urn%3Anbn%3Ase%3Asmhi%3Adiva-5183
Crespi, A., Lussana, C., Brunetti, M., Dobler, A., Maugeri, M. and Tveito, O. E., 2018: High‐resolution monthly precipitation climatologies over Norway (1981–2010): joining numerical model datasets and in‐situ observations. Int. J. Climatology, 39(4), pp.2057-2070. https://doi.org/10.1002/joc.5933

2016

Lind, Petter, David Lindstedt, Erik Kjellström and Colin Jones, 2016: Spatial and Temporal Characteristics of Summer Precipitation over Central Europe in a Suite of High-Resolution Climate Models. Journal of Climate. https://doi.org/10.1175/JCLI-D-15-0463.1

2015

Lindstedt, David, Petter Lind, Colin Jones and Erik Kjellström, 2015: A new regional climate model operating at the meso-gamma scale; performance over Europe. Tellus A, 67, 24138. https://doi.org/10.3402/tellusa.v67.24138

Reports and other publications

2023

Boonekamp, Maarten, 2023: The Influence of local land use on the local weather. Master Thesis, Utrecht University, Utrecht, the Netherlands. https://studenttheses.uu.nl/handle/20.500.12932/45993
Broerze, Annelot E. W., 2023: Assessing the impact of land use changes in South Holland on the local weather using HARMONIE-Climate - Building bridges between water management, climate physics and vector-borne viral outbreaks. Master Thesis, Delft University of Technology, Delft, the Netherlands. http://www.srderoode.nl/Students/Annelot_Broerze_thesis.pdf
Dorland, R. van, Beersma, J., Bessembinder, J., Bloemendaal, N., van den Brink, H., Brotons Blanes, M., Drijfhout, S., Groenland, R., Haarsma, R., Homan, C., Keizer, I., Krikken, F., Le Bars, D., Lenderink, G., van Meijgaard, E., Meirink, J.F., Overbeek, B., Reerink, T., Selten, F., Severijns, C., Siegmund, P., Sterl, A., de Valk, C., van Velthoven, P., de Vries, H., van Weele, M., Wichers Schreur, B., van der Wiel, K., 2023: KNMI National Climate Scenarios 2023 for the Netherlands. Scientific report; WR-23-02, Royal Netherlands Meteorological Institute (KNMI), de Bilt, the Netherlands. https://cdn.knmi.nl/system/data_center_publications/files/000/071/902/original/KNMI23_climate_scenarios_scientific_report_WR23-02.pdf
Lind, Petter, 2023: Kilometer-scale climate modeling of precipitation in the Nordic region. PhD thesis, Stockholm University, Stockholm, Sweden. https://urn.kb.se/resolve?urn=urn%3Anbn%3Ase%3Asu%3Adiva-223603

2022

Médus, Erika, 2022: Regional climate over Northern Europe: from observations to high-resolution modeling. PhD thesis, Finnish Meteorological Institute. https://doi.org/10.35614/isbn.9789523361591

2021

Storrank, B. (ed.), Stenmark, A., Olsson, J. and Dobler, A., 2021: Downscaling climate projections–towards better adaptation strategies in the Nordic countries. Nordic Council of Ministers. https://doi.org/10.6027/NA2021-901

2014

Jansson, Christer, Patrick Samuelsson and David Lindstedt, 2014: Using the Town Energy Balance model (TEB) in regional climate simulations over the Netherlands. Deliverable for project “Knowledge for Climate Research Programme (KvK)”. https://edepot.wur.nl/345597
Kjellström, E., Lind, P., Lindstedt, D. and Landelius, T., 2014: Evaluating temperature distributions in a high-resolution RCM at 6 km horizontal resolution over Europe. 3rd International Lund Regional-scale climate modelling workshop. International Baltic Earth Secretariat Publication No. 3, June 2014, pp 229-230. ISSN 2198-4247. https://www.baltic-earth.eu/events/RCM2014/Material/IBESPS_No.3_low.pdf
Lind, Petter, David Lindstedt, Colin Jones and Erik Kjellström, 2014: Simulating extreme precipitation in the island of Crete with non-hydrostatic high resolution RCMs. 3rd International Lund Regional-scale climate modelling workshop. International Baltic Earth Secretariat Publication No. 3, June 2014, p 127. ISSN 2198-4247. https://www.baltic-earth.eu/events/RCM2014/Material/IBESPS_No.3_low.pdf
Lindstedt, David, Petter Lind, Colin Jones and Erik Kjellström, 2014: A new regional climate model operating at the meso-gamma scale; performance over Europe. 3rd International Lund Regional-scale climate modelling workshop. International Baltic Earth Secretariat Publication No. 3, June 2014, p 128. ISSN 2198-4247. https://www.baltic-earth.eu/events/RCM2014/Material/IBESPS_No.3_low.pdf
Samuelsson, Patrick, Christer Jansson, David Lindstedt and Emma E. Daniels, 2014: Soil moisture–precipitation feedback experiments over the Netherlands with AROME. Deliverable for project “Knowledge for Climate Research Programme (KvK)”. https://edepot.wur.nl/345598