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Fire weather compromises forestation-reliant climate mitigation pathways

Felix Jaeger, Jonas Schwaab, Yann Quilcaille, Michael Windisch, Jonathan Doelman, Stefan Frank, Mykola Gusti, Peter Havlík, Florian Humpenöder, Andrey Lessa Derci Augustynczik, Christoph Müller, Kanishka B. Narayan, Ryan S. Padrón, Alexander Popp, Detlef P. van Vuuren, Michael Wögerer, Sonia I. Seneviratne

2024Earth System Dynamics15 citationsDOIOpen Access PDF

Abstract

Abstract. Forestation can contribute to climate change mitigation. However, increasing frequency and intensity of climate extremes are posed to have profound impact on forests and consequently on the mitigation potential of forestation efforts. In this perspective, we critically assess forestation-reliant climate mitigation scenarios from five different integrated assessment models (IAMs) by showcasing the spatially explicit exposure of forests to fire weather and the simulated increase in global annual burned area. We provide a detailed description of the feedback from climate change to forest carbon uptake in IAMs. Few IAMs are currently accounting for feedback mechanisms like loss from fire disturbance. Consequently, many forestation areas proposed by IAM scenarios will be exposed to fire-promoting weather conditions and without costly prevention measures might be object to frequent burning. We conclude that the actual climate mitigation portfolio in IAM scenarios is subject to substantial uncertainty and that the risk of overly optimistic estimates of negative emission potential of forestation should be avoided. As a way forward we propose how to integrate more detailed climate information when modeling climate mitigation pathways heavily relying on forestation.

Topics & Concepts

AfforestationEnvironmental scienceClimate changeEnvironmental resource managementClimate change mitigationAgroforestryEcologyBiologyFire effects on ecosystemsPlant Water Relations and Carbon DynamicsAtmospheric and Environmental Gas Dynamics
Fire weather compromises forestation-reliant climate mitigation pathways | Litcius