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Reducing material use and their greenhouse gas emissions in the Greater Oslo

Lola Rousseau, Jan Sandstad Næss, Fabio Carrer, Sara Amini, Helge Brattebø and Edgar Hertwich
Additional contact information
Edgar Hertwich: Norwegian University of Science and Technology

No 9ek48_v1, SocArXiv from Center for Open Science

Abstract: Resource efficiency strategies are key to reduce material use and help limit global warming to below 2°C in 2100. Understanding the role of such strategies at municipal-level requires a localized approach. Here we evaluate a ramp-up of resource efficiency strategies and their associated effects on vehicle usage and climate benefits towards 2050 for 19 individual sub-regions within the Greater Oslo region in Norway. In our scenarios, material stocks increase from 344 megatonnes (Mt) in 2022 to 349-367 Mt in 2050 driven by population growth, with low-end estimate relying on a sufficiency scenario limiting floor area per capita and banning new single-family houses. The sufficiency (SUF) scenario reduces total material consumption until 2050 (48 Mt) with 28% relative to a business-as-usual (BAU) scenario (66.3 Mt) with continuation of ongoing trends, thereby reducing GHG emissions from material production by 17% (BAU: 12.44 MtCO2-eq, SUF: 10.36 MtCO2-eq). If resource efficiency strategies are combined with rapid material production decarbonization in-line with a 2°C scenario, a 30% reduction in emissions is achievable (8.67 MtCO2-eq). Car ownership rates and traveled distance per capita decrease in the sufficiency scenario compared to 2022 with 6.4%. Assuming the current relationship between settlement characteristics and transport demand, total driving distance fails to decline due to population growth. Limiting the floor-area per capita in residential buildings significantly decreases material demand. Resource efficiency strategies including densification need to be complemented with a rapid decarbonization of material supply and stronger incentives to move away from car driving to maximize climate change mitigation.

Date: 2025-01-13
New Economics Papers: this item is included in nep-ene, nep-env and nep-tre
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Persistent link: https://EconPapers.repec.org/RePEc:osf:socarx:9ek48_v1

DOI: 10.31219/osf.io/9ek48_v1

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