Robust strategies of climate change mitigation in interacting energy, economy, and land use systems.

Marian Leimbach; Maryse Labriet; Markus Bonsch; Jan-Philipp Dietrich; Amid Kanudia; Ioanna Mouratiadou; Alexander Popp; David Klein

doi:10.1108/IJCCSM-09-2015-0135

Robust strategies of climate change mitigation in interacting energy, economy, and land use systems.

Marian Leimbach, Maryse Labriet, Markus Bonsch, Jan-Philipp Dietrich, Amid Kanudia, Ioanna Mouratiadou, Alexander Popp, David Klein

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

Abstract

Purpose
Bioenergy is a key component of climate change mitigation strategies aiming at low stabilization. Its versatility and capacity to generate negative emissions when combined with carbon capture and storage add degrees of freedom to the timing of emission reductions. This paper aims to explore the robustness of a bioenergy-based mitigation strategy by addressing several dimensions of uncertainty on biomass potential, bioenergy use and induced land use change emissions.

Design/methodology/approach
Different mitigation scenarios were explored by two different energy-economy optimization models coupled to the same land use model, which provides a common basis for the second generation bioenergy dynamics in the two energy-economy models.

Findings
Using bioenergy is found to be a robust mitigation strategy as demonstrated by high biomass shares in primary energy demand in both models and in all mitigation scenarios.

Practical implications
A variety of possible storylines about future uses of biomass exist. The comparison of the technology choices preferred by the applied models helps understand how future emission reductions can be achieved under alternative storylines.

Originality/value
The presented comparison-based assessment goes beyond other comparison studies because both energy-economy models are coupled to the same land use model.

Original language	English
Pages (from-to)	732-757
Journal	International Journal of Climate Change Strategies and Management
Volume	8
Issue number	5
DOIs	https://doi.org/10.1108/IJCCSM-09-2015-0135
Publication status	Published - 2016
Externally published	Yes

Keywords

valorisation
Energy system
Land use
Bioenergy
Climate change mitigation

UN SDGs

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

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10.1108/IJCCSM-09-2015-0135

Cite this

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title = "Robust strategies of climate change mitigation in interacting energy, economy, and land use systems.",

abstract = "PurposeBioenergy is a key component of climate change mitigation strategies aiming at low stabilization. Its versatility and capacity to generate negative emissions when combined with carbon capture and storage add degrees of freedom to the timing of emission reductions. This paper aims to explore the robustness of a bioenergy-based mitigation strategy by addressing several dimensions of uncertainty on biomass potential, bioenergy use and induced land use change emissions.Design/methodology/approachDifferent mitigation scenarios were explored by two different energy-economy optimization models coupled to the same land use model, which provides a common basis for the second generation bioenergy dynamics in the two energy-economy models.FindingsUsing bioenergy is found to be a robust mitigation strategy as demonstrated by high biomass shares in primary energy demand in both models and in all mitigation scenarios.Practical implicationsA variety of possible storylines about future uses of biomass exist. The comparison of the technology choices preferred by the applied models helps understand how future emission reductions can be achieved under alternative storylines.Originality/valueThe presented comparison-based assessment goes beyond other comparison studies because both energy-economy models are coupled to the same land use model.",

keywords = "valorisation, Energy system, Land use, Bioenergy, Climate change mitigation",

author = "Marian Leimbach and Maryse Labriet and Markus Bonsch and Jan-Philipp Dietrich and Amid Kanudia and Ioanna Mouratiadou and Alexander Popp and David Klein",

year = "2016",

doi = "10.1108/IJCCSM-09-2015-0135",

language = "English",

volume = "8",

pages = "732--757",

journal = "International Journal of Climate Change Strategies and Management",

issn = "1756-8692",

publisher = "Emerald Group Publishing Ltd.",

number = "5",

}

TY - JOUR

T1 - Robust strategies of climate change mitigation in interacting energy, economy, and land use systems.

AU - Leimbach, Marian

AU - Labriet, Maryse

AU - Bonsch, Markus

AU - Dietrich, Jan-Philipp

AU - Kanudia, Amid

AU - Mouratiadou, Ioanna

AU - Popp, Alexander

AU - Klein, David

PY - 2016

Y1 - 2016

N2 - PurposeBioenergy is a key component of climate change mitigation strategies aiming at low stabilization. Its versatility and capacity to generate negative emissions when combined with carbon capture and storage add degrees of freedom to the timing of emission reductions. This paper aims to explore the robustness of a bioenergy-based mitigation strategy by addressing several dimensions of uncertainty on biomass potential, bioenergy use and induced land use change emissions.Design/methodology/approachDifferent mitigation scenarios were explored by two different energy-economy optimization models coupled to the same land use model, which provides a common basis for the second generation bioenergy dynamics in the two energy-economy models.FindingsUsing bioenergy is found to be a robust mitigation strategy as demonstrated by high biomass shares in primary energy demand in both models and in all mitigation scenarios.Practical implicationsA variety of possible storylines about future uses of biomass exist. The comparison of the technology choices preferred by the applied models helps understand how future emission reductions can be achieved under alternative storylines.Originality/valueThe presented comparison-based assessment goes beyond other comparison studies because both energy-economy models are coupled to the same land use model.

AB - PurposeBioenergy is a key component of climate change mitigation strategies aiming at low stabilization. Its versatility and capacity to generate negative emissions when combined with carbon capture and storage add degrees of freedom to the timing of emission reductions. This paper aims to explore the robustness of a bioenergy-based mitigation strategy by addressing several dimensions of uncertainty on biomass potential, bioenergy use and induced land use change emissions.Design/methodology/approachDifferent mitigation scenarios were explored by two different energy-economy optimization models coupled to the same land use model, which provides a common basis for the second generation bioenergy dynamics in the two energy-economy models.FindingsUsing bioenergy is found to be a robust mitigation strategy as demonstrated by high biomass shares in primary energy demand in both models and in all mitigation scenarios.Practical implicationsA variety of possible storylines about future uses of biomass exist. The comparison of the technology choices preferred by the applied models helps understand how future emission reductions can be achieved under alternative storylines.Originality/valueThe presented comparison-based assessment goes beyond other comparison studies because both energy-economy models are coupled to the same land use model.

KW - valorisation

KW - Energy system

KW - Land use

KW - Bioenergy

KW - Climate change mitigation

U2 - 10.1108/IJCCSM-09-2015-0135

DO - 10.1108/IJCCSM-09-2015-0135

M3 - Article

SN - 1756-8692

VL - 8

SP - 732

EP - 757

JO - International Journal of Climate Change Strategies and Management

JF - International Journal of Climate Change Strategies and Management

IS - 5

ER -

Robust strategies of climate change mitigation in interacting energy, economy, and land use systems.

Abstract

Keywords

UN SDGs

Access to Document

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Cite this