Article Dans Une Revue Environmental Research Letters Année : 2025

Potential and costs required for methane removal to compete with BECCS as a mitigation option

Yann Gaucher
Katsumasa Tanaka
Daniel J A Johansson
  • Fonction : Auteur
Olivier Boucher

Résumé

Methane is the second most important anthropogenic greenhouse gas (GHG) causing warming after carbon dioxide, and the emission reductions potentials are known to be limited due to the difficulty of abating agricultural methane. We explore in this study the emerging option of atmospheric methane removal (MR) that could complement carbon dioxide removal (CDR) in mitigation pathways. MR is technologically very challenging and potentially very expensive, so the main question is at which cost per ton of methane removed is MR more cost effective than CDR. To address this question, we use an intertemporal optimization climate-GHG-energy model to evaluate the MR cost and removal potential thresholds that would allow us to meet a given climate target with the same or a lower abatement cost and allowing for equal or higher gross CO 2 emissions than if CDR through bioenergy with carbon capture and storage were an option. We also compare the effects of MR and CDR on the cost-effective mitigation pathways achieving four different climate targets. Using the ACC2-GET integrated carbon cycle, atmospheric chemistry, climate and energy system model, we consider a generic MR technology characterized by a given unit cost and a maximal removal potential. We show that to totally replace bioenergy based CDR with MR, the MR potential should reach at least 180-290 MtCH 4 per year, i.e. between 50% and 90% of current anthropogenic methane emissions, with maximum unit cost between 11 000 and 69 000 $/tCH 4 , depending on the climate target. Finally, we found that replacing CDR by MR reshapes the intergenerational distribution of climate mitigation efforts by delaying further the mitigation burden.

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hal-04939786 , version 1 (11-02-2025)

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Yann Gaucher, Katsumasa Tanaka, Daniel J A Johansson, Olivier Boucher, Philippe Ciais. Potential and costs required for methane removal to compete with BECCS as a mitigation option. Environmental Research Letters, 2025, 20 (2), pp.024034. ⟨10.1088/1748-9326/ada813⟩. ⟨hal-04939786⟩
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