Author
Listed:
- Rik Heerden
(PBL Netherlands Environmental Assessment Agency)
- Oreane Y. Edelenbosch
(PBL Netherlands Environmental Assessment Agency
Utrecht University)
- Vassilis Daioglou
(PBL Netherlands Environmental Assessment Agency
Utrecht University)
- Thomas Gallic
(Centre International de Recherche sur l’Environnement et le Développement (CIRED)
SMASH – CIRED)
- Luiz Bernardo Baptista
(Universidade Federal do Rio de Janeiro)
- Alice Bella
(CMCC Foundation – Euro-Mediterranean Center on Climate Change
RFF-CMCC European Institute on Economics and the Environment
Politecnico di Milano)
- Francesco Pietro Colelli
(CMCC Foundation – Euro-Mediterranean Center on Climate Change
RFF-CMCC European Institute on Economics and the Environment
Ca’ Foscari University)
- Johannes Emmerling
(CMCC Foundation – Euro-Mediterranean Center on Climate Change
RFF-CMCC European Institute on Economics and the Environment)
- Panagiotis Fragkos
(E3M-Modelling)
- Robin Hasse
(Potsdam Institute for Climate Impact Research (PIK)
Technische Universität Berlin)
- Johanna Hoppe
(Potsdam Institute for Climate Impact Research (PIK)
Technische Universität Berlin)
- Paul Kishimoto
(International Institute for Applied Systems Analysis (IIASA))
- Florian Leblanc
(CNRS, CIRED)
- Julien Lefèvre
(AgroParisTech, CIRED)
- Gunnar Luderer
(Potsdam Institute for Climate Impact Research (PIK)
Technische Universität Berlin)
- Giacomo Marangoni
(CMCC Foundation – Euro-Mediterranean Center on Climate Change
RFF-CMCC European Institute on Economics and the Environment
Delft University of Technology)
- Alessio Mastrucci
(International Institute for Applied Systems Analysis (IIASA))
- Hazel Pettifor
(Oxford Centre for the Environment)
- Robert Pietzcker
(Potsdam Institute for Climate Impact Research (PIK))
- Pedro Rochedo
(Khalifa University)
- Bas Ruijven
(International Institute for Applied Systems Analysis (IIASA))
- Roberto Schaeffer
(Universidade Federal do Rio de Janeiro)
- Charlie Wilson
(International Institute for Applied Systems Analysis (IIASA)
Oxford Centre for the Environment)
- Sonia Yeh
(Chalmers University of Technology)
- Eleftheria Zisarou
(E3M-Modelling)
- Detlef Vuuren
(PBL Netherlands Environmental Assessment Agency
Utrecht University)
Abstract
Decarbonization of energy-using sectors is essential for tackling climate change. We use an ensemble of global integrated assessment models to assess CO2 emissions reduction potentials in buildings and transport, accounting for system interactions. We focus on three intervention strategies with distinct emphases: reducing or changing activity, improving technological efficiency and electrifying energy end use. We find that these strategies can reduce emissions by 51–85% in buildings and 37–91% in transport by 2050 relative to a current policies scenario (ranges indicate model variability). Electrification has the largest potential for direct emissions reductions in both sectors. Interactions between the policies and measures that comprise the three strategies have a modest overall effect on mitigation potentials. However, combining different strategies is strongly beneficial from an energy system perspective as lower electricity demand reduces the need for costly supply-side investments and infrastructure.
Suggested Citation
Rik Heerden & Oreane Y. Edelenbosch & Vassilis Daioglou & Thomas Gallic & Luiz Bernardo Baptista & Alice Bella & Francesco Pietro Colelli & Johannes Emmerling & Panagiotis Fragkos & Robin Hasse & Joha, 2025.
"Demand-side strategies enable rapid and deep cuts in buildings and transport emissions to 2050,"
Nature Energy, Nature, vol. 10(3), pages 380-394, March.
Handle:
RePEc:nat:natene:v:10:y:2025:i:3:d:10.1038_s41560-025-01703-1
DOI: 10.1038/s41560-025-01703-1
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