nextGEMS: entering the era of kilometer-scale Earth system modeling

Hans Segura; Xabier Pedruzo-Bagazgoitia; Philipp Weiss; Sebastian K. Müller; Thomas Rackow; Junhong Lee; Edgar Dolores-Tesillos; Imme Benedict; Matthias Aengenheyster; Razvan Aguridan; Gabriele Arduini; Alexander J. Baker; Jiawei Bao; Swantje Bastin; Eulàlia Baulenas; Tobias Becker; Sebastian Beyer; Hendryk Bockelmann; Nils Brüggemann; Lukas Brunner; Suvarchal K. Cheedela; Sushant Das; Jasper Denissen; Ian Dragaud; Piotr Dziekan; Madeleine Ekblom; Jan Frederik Engels; Monika Esch; Richard Forbes; Claudia Frauen; Lilli Freischem; Diego García-Maroto; Philipp Geier; Paul Gierz; Álvaro González-Cervera; Katherine Grayson; Matthew Griffith; Oliver Gutjahr; Helmuth Haak; Ioan Hadade; Kerstin Haslehner; Shabeh ul Hasson; Jan Hegewald; Lukas Kluft; Aleksei Koldunov; Nikolay Koldunov; Tobias Kölling; Shunya Koseki; Sergey Kosukhin; Josh Kousal; Peter Kuma; Arjun U. Kumar; Rumeng Li; Nicolas Maury; Maximilian Meindl; Sebastian Milinski; Kristian Mogensen; Bimochan Niraula; Jakub Nowak; Divya Sri Praturi; Ulrike Proske; Dian Putrasahan; René Redler; David Santuy; Domokos Sármány; Reiner Schnur; Patrick Scholz; Dmitry Sidorenko; Dorian Spät; Birgit Sützl; Daisuke Takasuka; Adrian Tompkins; Alejandro Uribe; Mirco Valentini; Menno Veerman; Aiko Voigt; Sarah Warnau; Fabian Wachsmann; Marta Wacławczyk; Nils Wedi; Karl Hermann Wieners; Jonathan Wille; Marius Winkler; Yuting Wu; Florian Ziemen; Janos Zimmermann; Frida A.M. Bender; Dragana Bojovic; Sandrine Bony; Simona Bordoni; Patrice Brehmer; Marcus Dengler; Emanuel Dutra; Saliou Faye; Erich Fischer; Chiel van Heerwaarden; Cathy Hohenegger; Heikki Järvinen; Markus Jochum; Thomas Jung; Johann H. Jungclaus; Noel S. Keenlyside; Daniel Klocke; Heike Konow; Martina Klose; Szymon Malinowski; Olivia Martius; Thorsten Mauritsen; Juan Pedro Mellado; Theresa Mieslinger; Elsa Mohino; Hanna Pawłowska; Karsten Peters-Von Gehlen; Abdoulaye Sarré; Pajam Sobhani; Philip Stier; Lauri Tuppi; Pier Luigi Vidale; Irina Sandu; Bjorn Stevens

doi:10.5194/gmd-18-7735-2025

nextGEMS: entering the era of kilometer-scale Earth system modeling

Hans Segura
, Xabier Pedruzo-Bagazgoitia
, Philipp Weiss
, Sebastian K. Müller
, Thomas Rackow
, Junhong Lee
, Edgar Dolores-Tesillos
, Imme Benedict
, Matthias Aengenheyster
, Razvan Aguridan
, Gabriele Arduini
, Alexander J. Baker
, Jiawei Bao
, Swantje Bastin
, Eulàlia Baulenas
, Tobias Becker
, Sebastian Beyer
, Hendryk Bockelmann
, Nils Brüggemann
, Lukas Brunner

Suvarchal K. Cheedela, Sushant Das, Jasper Denissen, Ian Dragaud, Piotr Dziekan, Madeleine Ekblom, Jan Frederik Engels, Monika Esch, Richard Forbes, Claudia Frauen, Lilli Freischem, Diego García-Maroto, Philipp Geier, Paul Gierz, Álvaro González-Cervera, Katherine Grayson, Matthew Griffith, Oliver Gutjahr, Helmuth Haak, Ioan Hadade, Kerstin Haslehner, Shabeh ul Hasson, Jan Hegewald, Lukas Kluft, Aleksei Koldunov, Nikolay Koldunov, Tobias Kölling, Shunya Koseki, Sergey Kosukhin, Josh Kousal, Peter Kuma, Arjun U. Kumar, Rumeng Li, Nicolas Maury, Maximilian Meindl, Sebastian Milinski, Kristian Mogensen, Bimochan Niraula, Jakub Nowak, Divya Sri Praturi, Ulrike Proske, Dian Putrasahan, René Redler, David Santuy, Domokos Sármány, Reiner Schnur, Patrick Scholz, Dmitry Sidorenko, Dorian Spät, Birgit Sützl, Daisuke Takasuka, Adrian Tompkins, Alejandro Uribe, Mirco Valentini, Menno Veerman, Aiko Voigt, Sarah Warnau, Fabian Wachsmann, Marta Wacławczyk, Nils Wedi, Karl Hermann Wieners, Jonathan Wille, Marius Winkler, Yuting Wu, Florian Ziemen, Janos Zimmermann, Frida A.M. Bender, Dragana Bojovic, Sandrine Bony, Simona Bordoni, Patrice Brehmer, Marcus Dengler, Emanuel Dutra, Saliou Faye, Erich Fischer, Chiel van Heerwaarden, Cathy Hohenegger, Heikki Järvinen, Markus Jochum, Thomas Jung, Johann H. Jungclaus, Noel S. Keenlyside, Daniel Klocke, Heike Konow, Martina Klose, Szymon Malinowski, Olivia Martius, Thorsten Mauritsen, Juan Pedro Mellado, Theresa Mieslinger, Elsa Mohino, Hanna Pawłowska, Karsten Peters-Von Gehlen, Abdoulaye Sarré, Pajam Sobhani, Philip Stier, Lauri Tuppi, Pier Luigi Vidale, Irina Sandu, Bjorn Stevens

Max Planck Institute for Meteorology
European Centre for Medium-Range Weather Forecasts
University of Oxford
Università di Trento
University of Bern
Wageningen University & Research
Earth Sciences
University of Reading
University of Freiburg
Helmholtz Centre for Polar and Marine Sciences
Helmholtz-Zentrum Hereon GmbH
Universität Hamburg
National Institute of Technology Rourkela
University of Warsaw
University of Helsinki
Complutense University
University of Vienna
Technical University Braunschweig
University of Bergen
Stockholm University
Institute of Meteorology and Climate Research
CNRS
Tohoku University
Abdus Salam International Centre for Theoretical Physics
Wetsus, European Centre of Excellence for Sustainable Water Technology
ETH Zurich
Institut de Recherche pour le Développement Dakar
GEOMAR Helmholtz Centre for Ocean Research Kiel
Instituto Português do Mar e da Atmosfera
Institut Sénégalais de Recherches Agricoles Dakar
Niels Bohr Institutet
LATEST THINKING GMBH

Résultats de recherche: Contribution à un journal › Article › Revue par des pairs

Résumé

The Next Generation of Earth Modeling Systems (nextGEMS) project aimed to produce multidecadal climate simulations, for the first time, with resolved kilometer-scale (km-scale) processes in the ocean, land, and atmosphere. In only 3 years, nextGEMS achieved this milestone with the two km-scale Earth system models, ICOsahedral Nonhydrostatic model (ICON) and Integrated Forecasting System coupled to the Finite-volumE Sea ice-Ocean Model (IFS-FESOM). nextGEMS was based on three cornerstones: (1) developing km-scale Earth system models with small errors in the energy and water balance, (2) performing km-scale climate simulations with a throughput greater than 1 simulated year per day, and (3) facilitating new work-flows for an efficient analysis of the large simulations with common data structures and output variables. These cornerstones shaped the timeline of nextGEMS, divided into four cycles. Each cycle marked the release of a new configuration of ICON and IFS-FESOM, which were evaluated at hackathons. The hackathon participants included experts from climate science, software engineering, and high-performance computing as well as users from the energy and agricultural sectors. The continuous efforts over the four cycles allowed us to produce 30-year simulations with ICON and IFS-FESOM, spanning the period 2020–2049 under the SSP3-7.0 scenario. The throughput was about 500 simulated days per day on the Levante supercomputer of the German Climate Computing Center (DKRZ). The simulations employed a horizontal grid of about 5 km resolution in the ocean and 10 km resolution in the atmosphere and land. Aside from this technical achievement, the simulations allowed us to gain new insights into the realism of ICON and IFS-FESOM. Beyond its time frame, nextGEMS builds the foundation of the Climate Change Adaptation Digital Twin developed in the Destination Earth initiative and paves the way for future European research on climate change.

langue originale	Anglais
Pages (de - à)	7735-7761
Nombre de pages	27
journal	Geoscientific Model Development
Volume	18
Numéro de publication	20
Les DOIs	https://doi.org/10.5194/gmd-18-7735-2025
état	Publié - 23 oct. 2025

SDG des Nations Unies

Ce résultat contribue à ou aux Objectifs de développement durable suivants

SDG 13 Action climatique
SDG 15 Vie sur terre

Accès au document

10.5194/gmd-18-7735-2025

Autres fichiers et liens

Lien vers la publication dans Scopus

Contient cette citation

Segura, H., Pedruzo-Bagazgoitia, X., Weiss, P., Müller, S. K., Rackow, T., Lee, J., Dolores-Tesillos, E., Benedict, I., Aengenheyster, M., Aguridan, R., Arduini, G., Baker, A. J., Bao, J., Bastin, S., Baulenas, E., Becker, T., Beyer, S., Bockelmann, H., Brüggemann, N., ... Stevens, B. (2025). nextGEMS: entering the era of kilometer-scale Earth system modeling. Geoscientific Model Development, 18(20), 7735-7761. https://doi.org/10.5194/gmd-18-7735-2025

@article{20df64f5718a4ed18d7e56f3189f0af1,

title = "nextGEMS: entering the era of kilometer-scale Earth system modeling",

abstract = "The Next Generation of Earth Modeling Systems (nextGEMS) project aimed to produce multidecadal climate simulations, for the first time, with resolved kilometer-scale (km-scale) processes in the ocean, land, and atmosphere. In only 3 years, nextGEMS achieved this milestone with the two km-scale Earth system models, ICOsahedral Nonhydrostatic model (ICON) and Integrated Forecasting System coupled to the Finite-volumE Sea ice-Ocean Model (IFS-FESOM). nextGEMS was based on three cornerstones: (1) developing km-scale Earth system models with small errors in the energy and water balance, (2) performing km-scale climate simulations with a throughput greater than 1 simulated year per day, and (3) facilitating new work-flows for an efficient analysis of the large simulations with common data structures and output variables. These cornerstones shaped the timeline of nextGEMS, divided into four cycles. Each cycle marked the release of a new configuration of ICON and IFS-FESOM, which were evaluated at hackathons. The hackathon participants included experts from climate science, software engineering, and high-performance computing as well as users from the energy and agricultural sectors. The continuous efforts over the four cycles allowed us to produce 30-year simulations with ICON and IFS-FESOM, spanning the period 2020–2049 under the SSP3-7.0 scenario. The throughput was about 500 simulated days per day on the Levante supercomputer of the German Climate Computing Center (DKRZ). The simulations employed a horizontal grid of about 5 km resolution in the ocean and 10 km resolution in the atmosphere and land. Aside from this technical achievement, the simulations allowed us to gain new insights into the realism of ICON and IFS-FESOM. Beyond its time frame, nextGEMS builds the foundation of the Climate Change Adaptation Digital Twin developed in the Destination Earth initiative and paves the way for future European research on climate change.",

author = "Hans Segura and Xabier Pedruzo-Bagazgoitia and Philipp Weiss and M{\"u}ller, \{Sebastian K.\} and Thomas Rackow and Junhong Lee and Edgar Dolores-Tesillos and Imme Benedict and Matthias Aengenheyster and Razvan Aguridan and Gabriele Arduini and Baker, \{Alexander J.\} and Jiawei Bao and Swantje Bastin and Eul{\`a}lia Baulenas and Tobias Becker and Sebastian Beyer and Hendryk Bockelmann and Nils Br{\"u}ggemann and Lukas Brunner and Cheedela, \{Suvarchal K.\} and Sushant Das and Jasper Denissen and Ian Dragaud and Piotr Dziekan and Madeleine Ekblom and Engels, \{Jan Frederik\} and Monika Esch and Richard Forbes and Claudia Frauen and Lilli Freischem and Diego Garc{\'i}a-Maroto and Philipp Geier and Paul Gierz and {\'A}lvaro Gonz{\'a}lez-Cervera and Katherine Grayson and Matthew Griffith and Oliver Gutjahr and Helmuth Haak and Ioan Hadade and Kerstin Haslehner and \{ul Hasson\}, Shabeh and Jan Hegewald and Lukas Kluft and Aleksei Koldunov and Nikolay Koldunov and Tobias K{\"o}lling and Shunya Koseki and Sergey Kosukhin and Josh Kousal and Peter Kuma and Kumar, \{Arjun U.\} and Rumeng Li and Nicolas Maury and Maximilian Meindl and Sebastian Milinski and Kristian Mogensen and Bimochan Niraula and Jakub Nowak and Praturi, \{Divya Sri\} and Ulrike Proske and Dian Putrasahan and Ren{\'e} Redler and David Santuy and Domokos S{\'a}rm{\'a}ny and Reiner Schnur and Patrick Scholz and Dmitry Sidorenko and Dorian Sp{\"a}t and Birgit S{\"u}tzl and Daisuke Takasuka and Adrian Tompkins and Alejandro Uribe and Mirco Valentini and Menno Veerman and Aiko Voigt and Sarah Warnau and Fabian Wachsmann and Marta Wac{\l}awczyk and Nils Wedi and Wieners, \{Karl Hermann\} and Jonathan Wille and Marius Winkler and Yuting Wu and Florian Ziemen and Janos Zimmermann and Bender, \{Frida A.M.\} and Dragana Bojovic and Sandrine Bony and Simona Bordoni and Patrice Brehmer and Marcus Dengler and Emanuel Dutra and Saliou Faye and Erich Fischer and \{van Heerwaarden\}, Chiel and Cathy Hohenegger and Heikki J{\"a}rvinen and Markus Jochum and Thomas Jung and Jungclaus, \{Johann H.\} and Keenlyside, \{Noel S.\} and Daniel Klocke and Heike Konow and Martina Klose and Szymon Malinowski and Olivia Martius and Thorsten Mauritsen and Mellado, \{Juan Pedro\} and Theresa Mieslinger and Elsa Mohino and Hanna Paw{\l}owska and \{Peters-Von Gehlen\}, Karsten and Abdoulaye Sarr{\'e} and Pajam Sobhani and Philip Stier and Lauri Tuppi and Vidale, \{Pier Luigi\} and Irina Sandu and Bjorn Stevens",

note = "Publisher Copyright: {\textcopyright} Author(s) 2025.",

year = "2025",

month = oct,

day = "23",

doi = "10.5194/gmd-18-7735-2025",

language = "English",

volume = "18",

pages = "7735--7761",

journal = "Geoscientific Model Development",

issn = "1991-959X",

number = "20",

}

Segura, H, Pedruzo-Bagazgoitia, X, Weiss, P, Müller, SK, Rackow, T, Lee, J, Dolores-Tesillos, E, Benedict, I, Aengenheyster, M, Aguridan, R, Arduini, G, Baker, AJ, Bao, J, Bastin, S, Baulenas, E, Becker, T, Beyer, S, Bockelmann, H, Brüggemann, N, Brunner, L, Cheedela, SK, Das, S, Denissen, J, Dragaud, I, Dziekan, P, Ekblom, M, Engels, JF, Esch, M, Forbes, R, Frauen, C, Freischem, L, García-Maroto, D, Geier, P, Gierz, P, González-Cervera, Á, Grayson, K, Griffith, M, Gutjahr, O, Haak, H, Hadade, I, Haslehner, K, ul Hasson, S, Hegewald, J, Kluft, L, Koldunov, A, Koldunov, N, Kölling, T, Koseki, S, Kosukhin, S, Kousal, J, Kuma, P, Kumar, AU, Li, R, Maury, N, Meindl, M, Milinski, S, Mogensen, K, Niraula, B, Nowak, J, Praturi, DS, Proske, U, Putrasahan, D, Redler, R, Santuy, D, Sármány, D, Schnur, R, Scholz, P, Sidorenko, D, Spät, D, Sützl, B, Takasuka, D, Tompkins, A, Uribe, A, Valentini, M, Veerman, M, Voigt, A, Warnau, S, Wachsmann, F, Wacławczyk, M, Wedi, N, Wieners, KH, Wille, J, Winkler, M, Wu, Y, Ziemen, F, Zimmermann, J, Bender, FAM, Bojovic, D, Bony, S, Bordoni, S, Brehmer, P, Dengler, M, Dutra, E, Faye, S, Fischer, E, van Heerwaarden, C, Hohenegger, C, Järvinen, H, Jochum, M, Jung, T, Jungclaus, JH, Keenlyside, NS, Klocke, D, Konow, H, Klose, M, Malinowski, S, Martius, O, Mauritsen, T, Mellado, JP, Mieslinger, T, Mohino, E, Pawłowska, H, Peters-Von Gehlen, K, Sarré, A, Sobhani, P, Stier, P, Tuppi, L, Vidale, PL, Sandu, I & Stevens, B 2025, 'nextGEMS: entering the era of kilometer-scale Earth system modeling', Geoscientific Model Development, VOL. 18, Numéro 20, p. 7735-7761. https://doi.org/10.5194/gmd-18-7735-2025

TY - JOUR

T1 - nextGEMS

T2 - entering the era of kilometer-scale Earth system modeling

AU - Segura, Hans

AU - Pedruzo-Bagazgoitia, Xabier

AU - Weiss, Philipp

AU - Müller, Sebastian K.

AU - Rackow, Thomas

AU - Lee, Junhong

AU - Dolores-Tesillos, Edgar

AU - Benedict, Imme

AU - Aengenheyster, Matthias

AU - Aguridan, Razvan

AU - Arduini, Gabriele

AU - Baker, Alexander J.

AU - Bao, Jiawei

AU - Bastin, Swantje

AU - Baulenas, Eulàlia

AU - Becker, Tobias

AU - Beyer, Sebastian

AU - Bockelmann, Hendryk

AU - Brüggemann, Nils

AU - Brunner, Lukas

AU - Cheedela, Suvarchal K.

AU - Das, Sushant

AU - Denissen, Jasper

AU - Dragaud, Ian

AU - Dziekan, Piotr

AU - Ekblom, Madeleine

AU - Engels, Jan Frederik

AU - Esch, Monika

AU - Forbes, Richard

AU - Frauen, Claudia

AU - Freischem, Lilli

AU - García-Maroto, Diego

AU - Geier, Philipp

AU - Gierz, Paul

AU - González-Cervera, Álvaro

AU - Grayson, Katherine

AU - Griffith, Matthew

AU - Gutjahr, Oliver

AU - Haak, Helmuth

AU - Hadade, Ioan

AU - Haslehner, Kerstin

AU - ul Hasson, Shabeh

AU - Hegewald, Jan

AU - Kluft, Lukas

AU - Koldunov, Aleksei

AU - Koldunov, Nikolay

AU - Kölling, Tobias

AU - Koseki, Shunya

AU - Kosukhin, Sergey

AU - Kousal, Josh

AU - Kuma, Peter

AU - Kumar, Arjun U.

AU - Li, Rumeng

AU - Maury, Nicolas

AU - Meindl, Maximilian

AU - Milinski, Sebastian

AU - Mogensen, Kristian

AU - Niraula, Bimochan

AU - Nowak, Jakub

AU - Praturi, Divya Sri

AU - Proske, Ulrike

AU - Putrasahan, Dian

AU - Redler, René

AU - Santuy, David

AU - Sármány, Domokos

AU - Schnur, Reiner

AU - Scholz, Patrick

AU - Sidorenko, Dmitry

AU - Spät, Dorian

AU - Sützl, Birgit

AU - Takasuka, Daisuke

AU - Tompkins, Adrian

AU - Uribe, Alejandro

AU - Valentini, Mirco

AU - Veerman, Menno

AU - Voigt, Aiko

AU - Warnau, Sarah

AU - Wachsmann, Fabian

AU - Wacławczyk, Marta

AU - Wedi, Nils

AU - Wieners, Karl Hermann

AU - Wille, Jonathan

AU - Winkler, Marius

AU - Wu, Yuting

AU - Ziemen, Florian

AU - Zimmermann, Janos

AU - Bender, Frida A.M.

AU - Bojovic, Dragana

AU - Bony, Sandrine

AU - Bordoni, Simona

AU - Brehmer, Patrice

AU - Dengler, Marcus

AU - Dutra, Emanuel

AU - Faye, Saliou

AU - Fischer, Erich

AU - van Heerwaarden, Chiel

AU - Hohenegger, Cathy

AU - Järvinen, Heikki

AU - Jochum, Markus

AU - Jung, Thomas

AU - Jungclaus, Johann H.

AU - Keenlyside, Noel S.

AU - Klocke, Daniel

AU - Konow, Heike

AU - Klose, Martina

AU - Malinowski, Szymon

AU - Martius, Olivia

AU - Mauritsen, Thorsten

AU - Mellado, Juan Pedro

AU - Mieslinger, Theresa

AU - Mohino, Elsa

AU - Pawłowska, Hanna

AU - Peters-Von Gehlen, Karsten

AU - Sarré, Abdoulaye

AU - Sobhani, Pajam

AU - Stier, Philip

AU - Tuppi, Lauri

AU - Vidale, Pier Luigi

AU - Sandu, Irina

AU - Stevens, Bjorn

PY - 2025/10/23

Y1 - 2025/10/23

N2 - The Next Generation of Earth Modeling Systems (nextGEMS) project aimed to produce multidecadal climate simulations, for the first time, with resolved kilometer-scale (km-scale) processes in the ocean, land, and atmosphere. In only 3 years, nextGEMS achieved this milestone with the two km-scale Earth system models, ICOsahedral Nonhydrostatic model (ICON) and Integrated Forecasting System coupled to the Finite-volumE Sea ice-Ocean Model (IFS-FESOM). nextGEMS was based on three cornerstones: (1) developing km-scale Earth system models with small errors in the energy and water balance, (2) performing km-scale climate simulations with a throughput greater than 1 simulated year per day, and (3) facilitating new work-flows for an efficient analysis of the large simulations with common data structures and output variables. These cornerstones shaped the timeline of nextGEMS, divided into four cycles. Each cycle marked the release of a new configuration of ICON and IFS-FESOM, which were evaluated at hackathons. The hackathon participants included experts from climate science, software engineering, and high-performance computing as well as users from the energy and agricultural sectors. The continuous efforts over the four cycles allowed us to produce 30-year simulations with ICON and IFS-FESOM, spanning the period 2020–2049 under the SSP3-7.0 scenario. The throughput was about 500 simulated days per day on the Levante supercomputer of the German Climate Computing Center (DKRZ). The simulations employed a horizontal grid of about 5 km resolution in the ocean and 10 km resolution in the atmosphere and land. Aside from this technical achievement, the simulations allowed us to gain new insights into the realism of ICON and IFS-FESOM. Beyond its time frame, nextGEMS builds the foundation of the Climate Change Adaptation Digital Twin developed in the Destination Earth initiative and paves the way for future European research on climate change.

AB - The Next Generation of Earth Modeling Systems (nextGEMS) project aimed to produce multidecadal climate simulations, for the first time, with resolved kilometer-scale (km-scale) processes in the ocean, land, and atmosphere. In only 3 years, nextGEMS achieved this milestone with the two km-scale Earth system models, ICOsahedral Nonhydrostatic model (ICON) and Integrated Forecasting System coupled to the Finite-volumE Sea ice-Ocean Model (IFS-FESOM). nextGEMS was based on three cornerstones: (1) developing km-scale Earth system models with small errors in the energy and water balance, (2) performing km-scale climate simulations with a throughput greater than 1 simulated year per day, and (3) facilitating new work-flows for an efficient analysis of the large simulations with common data structures and output variables. These cornerstones shaped the timeline of nextGEMS, divided into four cycles. Each cycle marked the release of a new configuration of ICON and IFS-FESOM, which were evaluated at hackathons. The hackathon participants included experts from climate science, software engineering, and high-performance computing as well as users from the energy and agricultural sectors. The continuous efforts over the four cycles allowed us to produce 30-year simulations with ICON and IFS-FESOM, spanning the period 2020–2049 under the SSP3-7.0 scenario. The throughput was about 500 simulated days per day on the Levante supercomputer of the German Climate Computing Center (DKRZ). The simulations employed a horizontal grid of about 5 km resolution in the ocean and 10 km resolution in the atmosphere and land. Aside from this technical achievement, the simulations allowed us to gain new insights into the realism of ICON and IFS-FESOM. Beyond its time frame, nextGEMS builds the foundation of the Climate Change Adaptation Digital Twin developed in the Destination Earth initiative and paves the way for future European research on climate change.

UR - https://www.scopus.com/pages/publications/105020034811

U2 - 10.5194/gmd-18-7735-2025

DO - 10.5194/gmd-18-7735-2025

M3 - Article

AN - SCOPUS:105020034811

SN - 1991-959X

VL - 18

SP - 7735

EP - 7761

JO - Geoscientific Model Development

JF - Geoscientific Model Development

IS - 20

ER -

nextGEMS: entering the era of kilometer-scale Earth system modeling

Résumé

SDG des Nations Unies

Accès au document

Autres fichiers et liens

Empreinte digitale

Contient cette citation