The Scenario Model Intercomparison Project for CMIP7 (ScenarioMIP-CMIP7)

Detlef P. Van Vuuren; Brian C. O'Neill; Claudia Tebaldi; Benjamin M. Sanderson; Louise P. Chini; Pierre Friedlingstein; Tomoko Hasegawa; Keywan Riahi; Bala Govindasamy; Nico Bauer; Veronika Eyring; Cheikh M.N. Fall; Katja Frieler; Matthew J. Gidden; Laila K. Gohar; Annika Högner; Andrew D. Jones; Jarmo Kikstra; Andrew King; Reto Knutti; Elmar Kriegler; Peter Lawrence; Chris Lennard; Jason Lowe; Camilla Mathison; Shahbaz Mehmood; Zebedee Nicholls; Luciana F. Prado; Qiang Zhang; Steven K. Rose; Alex C. Ruane; Marit Sandstad; Carl-Friedrich Schleussner; Roland Seferian; Jana Sillmann; Chris Smith; Anna A. Sörensson; Swapna Panickal; Kaoru Tachiiri; Naomi Vaughan; Saritha S. Vishwanathan; Tokuta Yokohata; Marco Zecchetto; Tilo Ziehn

doi:10.5194/gmd-19-2627-2026

The Scenario Model Intercomparison Project for CMIP7 (ScenarioMIP-CMIP7)

Detlef P. Van Vuuren
, Brian C. O'Neill
, Claudia Tebaldi
, Benjamin M. Sanderson
, Louise P. Chini
, Pierre Friedlingstein
, Tomoko Hasegawa
, Keywan Riahi
, Bala Govindasamy
, Nico Bauer
, Veronika Eyring
, Cheikh M.N. Fall
, Katja Frieler
, Matthew J. Gidden
, Laila K. Gohar
, Annika Högner
, Andrew D. Jones
, Jarmo Kikstra
, Andrew King
, Reto Knutti

Elmar Kriegler, Peter Lawrence, Chris Lennard, Jason Lowe, Camilla Mathison, Shahbaz Mehmood, Zebedee Nicholls, Luciana F. Prado, Qiang Zhang, Steven K. Rose, Alex C. Ruane, Marit Sandstad, Carl-Friedrich Schleussner, Roland Seferian, Jana Sillmann, Chris Smith, Anna A. Sörensson, Swapna Panickal, Kaoru Tachiiri, Naomi Vaughan, Saritha S. Vishwanathan, Tokuta Yokohata, Marco Zecchetto, Tilo Ziehn

Research output: Contribution to journal › Article › peer-review

6 Citations (Scopus)

Abstract

Scenarios serve as a critical tool in climate change analysis, enabling the exploration of future evolution of the climate system, climate impacts, and the human system (including mitigation and adaptation actions). This paper describes the scenario framework for ScenarioMIP as part of CMIP7. The design process has involved various rounds of interaction with the research community and user groups at large. The proposal covers a set of scenarios exploring high levels of climate change (to explore high-end climate risks), medium levels of climate change (anchored to current policy), and low levels of climate change (aligned with current international agreements). These scenarios follow very different trajectories in terms of emissions, with some likely to experience peaks and subsequent declines in greenhouse gas concentrations in this century. An important innovation is that most scenarios are intended to be run, if possible, in emission-driven mode, providing a better representation of the Earth system uncertainty space. The proposal also includes plans for long-term extensions (up to 2500 AD) to study long-term impacts, climate change-related processes on long timescales, and (ir)reversibility. This proposal forms the basis for further implementation of the framework in terms of the derivation of emissions and land use pathways for use by Earth system models and additional variants for adaptation and mitigation studies.

Original language	English
Pages (from-to)	2627-2656
Number of pages	30
Journal	Geoscientific Model Development
Volume	19
Issue number	7
DOIs	https://doi.org/10.5194/gmd-19-2627-2026
Publication status	Published - 7 Apr 2026

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

SDG 13 Climate Action
SDG 15 Life on Land

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gmd-19-2627-2026Final published version, 5.3 MBLicence: CC BY

Cite this

Van Vuuren, D. P., O'Neill, B. C., Tebaldi, C., Sanderson, B. M., Chini, L. P., Friedlingstein, P., Hasegawa, T., Riahi, K., Govindasamy, B., Bauer, N., Eyring, V., Fall, C. M. N., Frieler, K., Gidden, M. J., Gohar, L. K., Högner, A., Jones, A. D., Kikstra, J., King, A., ... Ziehn, T. (2026). The Scenario Model Intercomparison Project for CMIP7 (ScenarioMIP-CMIP7). Geoscientific Model Development, 19(7), 2627-2656. https://doi.org/10.5194/gmd-19-2627-2026

@article{d11e2dcf320c42d9bb84f020e3df516c,

title = "The Scenario Model Intercomparison Project for CMIP7 (ScenarioMIP-CMIP7)",

abstract = "Scenarios serve as a critical tool in climate change analysis, enabling the exploration of future evolution of the climate system, climate impacts, and the human system (including mitigation and adaptation actions). This paper describes the scenario framework for ScenarioMIP as part of CMIP7. The design process has involved various rounds of interaction with the research community and user groups at large. The proposal covers a set of scenarios exploring high levels of climate change (to explore high-end climate risks), medium levels of climate change (anchored to current policy), and low levels of climate change (aligned with current international agreements). These scenarios follow very different trajectories in terms of emissions, with some likely to experience peaks and subsequent declines in greenhouse gas concentrations in this century. An important innovation is that most scenarios are intended to be run, if possible, in emission-driven mode, providing a better representation of the Earth system uncertainty space. The proposal also includes plans for long-term extensions (up to 2500 AD) to study long-term impacts, climate change-related processes on long timescales, and (ir)reversibility. This proposal forms the basis for further implementation of the framework in terms of the derivation of emissions and land use pathways for use by Earth system models and additional variants for adaptation and mitigation studies.",

author = "\{Van Vuuren\}, \{Detlef P.\} and O'Neill, \{Brian C.\} and Claudia Tebaldi and Sanderson, \{Benjamin M.\} and Chini, \{Louise P.\} and Pierre Friedlingstein and Tomoko Hasegawa and Keywan Riahi and Bala Govindasamy and Nico Bauer and Veronika Eyring and Fall, \{Cheikh M.N.\} and Katja Frieler and Gidden, \{Matthew J.\} and Gohar, \{Laila K.\} and Annika H{\"o}gner and Jones, \{Andrew D.\} and Jarmo Kikstra and Andrew King and Reto Knutti and Elmar Kriegler and Peter Lawrence and Chris Lennard and Jason Lowe and Camilla Mathison and Shahbaz Mehmood and Zebedee Nicholls and Prado, \{Luciana F.\} and Qiang Zhang and Rose, \{Steven K.\} and Ruane, \{Alex C.\} and Marit Sandstad and Carl-Friedrich Schleussner and Roland Seferian and Jana Sillmann and Chris Smith and S{\"o}rensson, \{Anna A.\} and Swapna Panickal and Kaoru Tachiiri and Naomi Vaughan and Vishwanathan, \{Saritha S.\} and Tokuta Yokohata and Marco Zecchetto and Tilo Ziehn",

note = "Code and data availability: Data on the figures is available at Zenodo: https://doi.org/10.5281/zenodo.14382495 (Sanderson and Smith, 2025).",

year = "2026",

month = apr,

day = "7",

doi = "10.5194/gmd-19-2627-2026",

language = "English",

volume = "19",

pages = "2627--2656",

journal = "Geoscientific Model Development",

issn = "1991-959X",

publisher = "Copernicus Publications",

number = "7",

}

Van Vuuren, DP, O'Neill, BC, Tebaldi, C, Sanderson, BM, Chini, LP, Friedlingstein, P, Hasegawa, T, Riahi, K, Govindasamy, B, Bauer, N, Eyring, V, Fall, CMN, Frieler, K, Gidden, MJ, Gohar, LK, Högner, A, Jones, AD, Kikstra, J, King, A, Knutti, R, Kriegler, E, Lawrence, P, Lennard, C, Lowe, J, Mathison, C, Mehmood, S, Nicholls, Z, Prado, LF, Zhang, Q, Rose, SK, Ruane, AC, Sandstad, M, Schleussner, C-F, Seferian, R, Sillmann, J, Smith, C, Sörensson, AA, Panickal, S, Tachiiri, K, Vaughan, N, Vishwanathan, SS, Yokohata, T, Zecchetto, M & Ziehn, T 2026, 'The Scenario Model Intercomparison Project for CMIP7 (ScenarioMIP-CMIP7)', Geoscientific Model Development, vol. 19, no. 7, pp. 2627-2656. https://doi.org/10.5194/gmd-19-2627-2026

TY - JOUR

T1 - The Scenario Model Intercomparison Project for CMIP7 (ScenarioMIP-CMIP7)

AU - Van Vuuren, Detlef P.

AU - O'Neill, Brian C.

AU - Tebaldi, Claudia

AU - Sanderson, Benjamin M.

AU - Chini, Louise P.

AU - Friedlingstein, Pierre

AU - Hasegawa, Tomoko

AU - Riahi, Keywan

AU - Govindasamy, Bala

AU - Bauer, Nico

AU - Eyring, Veronika

AU - Fall, Cheikh M.N.

AU - Frieler, Katja

AU - Gidden, Matthew J.

AU - Gohar, Laila K.

AU - Högner, Annika

AU - Jones, Andrew D.

AU - Kikstra, Jarmo

AU - King, Andrew

AU - Knutti, Reto

AU - Kriegler, Elmar

AU - Lawrence, Peter

AU - Lennard, Chris

AU - Lowe, Jason

AU - Mathison, Camilla

AU - Mehmood, Shahbaz

AU - Nicholls, Zebedee

AU - Prado, Luciana F.

AU - Zhang, Qiang

AU - Rose, Steven K.

AU - Ruane, Alex C.

AU - Sandstad, Marit

AU - Schleussner, Carl-Friedrich

AU - Seferian, Roland

AU - Sillmann, Jana

AU - Smith, Chris

AU - Sörensson, Anna A.

AU - Panickal, Swapna

AU - Tachiiri, Kaoru

AU - Vaughan, Naomi

AU - Vishwanathan, Saritha S.

AU - Yokohata, Tokuta

AU - Zecchetto, Marco

AU - Ziehn, Tilo

N1 - Code and data availability: Data on the figures is available at Zenodo: https://doi.org/10.5281/zenodo.14382495 (Sanderson and Smith, 2025).

PY - 2026/4/7

Y1 - 2026/4/7

N2 - Scenarios serve as a critical tool in climate change analysis, enabling the exploration of future evolution of the climate system, climate impacts, and the human system (including mitigation and adaptation actions). This paper describes the scenario framework for ScenarioMIP as part of CMIP7. The design process has involved various rounds of interaction with the research community and user groups at large. The proposal covers a set of scenarios exploring high levels of climate change (to explore high-end climate risks), medium levels of climate change (anchored to current policy), and low levels of climate change (aligned with current international agreements). These scenarios follow very different trajectories in terms of emissions, with some likely to experience peaks and subsequent declines in greenhouse gas concentrations in this century. An important innovation is that most scenarios are intended to be run, if possible, in emission-driven mode, providing a better representation of the Earth system uncertainty space. The proposal also includes plans for long-term extensions (up to 2500 AD) to study long-term impacts, climate change-related processes on long timescales, and (ir)reversibility. This proposal forms the basis for further implementation of the framework in terms of the derivation of emissions and land use pathways for use by Earth system models and additional variants for adaptation and mitigation studies.

AB - Scenarios serve as a critical tool in climate change analysis, enabling the exploration of future evolution of the climate system, climate impacts, and the human system (including mitigation and adaptation actions). This paper describes the scenario framework for ScenarioMIP as part of CMIP7. The design process has involved various rounds of interaction with the research community and user groups at large. The proposal covers a set of scenarios exploring high levels of climate change (to explore high-end climate risks), medium levels of climate change (anchored to current policy), and low levels of climate change (aligned with current international agreements). These scenarios follow very different trajectories in terms of emissions, with some likely to experience peaks and subsequent declines in greenhouse gas concentrations in this century. An important innovation is that most scenarios are intended to be run, if possible, in emission-driven mode, providing a better representation of the Earth system uncertainty space. The proposal also includes plans for long-term extensions (up to 2500 AD) to study long-term impacts, climate change-related processes on long timescales, and (ir)reversibility. This proposal forms the basis for further implementation of the framework in terms of the derivation of emissions and land use pathways for use by Earth system models and additional variants for adaptation and mitigation studies.

UR - https://www.scopus.com/pages/publications/105035243175

U2 - 10.5194/gmd-19-2627-2026

DO - 10.5194/gmd-19-2627-2026

M3 - Article

AN - SCOPUS:105035243175

SN - 1991-959X

VL - 19

SP - 2627

EP - 2656

JO - Geoscientific Model Development

JF - Geoscientific Model Development

IS - 7

ER -

The Scenario Model Intercomparison Project for CMIP7 (ScenarioMIP-CMIP7)

Abstract

UN SDGs

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