A New Modelling Approach to Adaptation-Mitigation in the Land System

Juliette Maire; Peter Alexander; Peter Anthoni; Chris Huntingford; Thomas A.M. Pugh; Sam Rabin; Mark Rounsevell; Almut Arneth

doi:10.1007/978-3-030-86211-4_16

A New Modelling Approach to Adaptation-Mitigation in the Land System

Juliette Maire, Peter Alexander^*, Peter Anthoni, Chris Huntingford, Thomas A.M. Pugh, Sam Rabin, Mark Rounsevell, Almut Arneth^*

^*Corresponding author for this work

Research output: Chapter in Book/Report/Conference proceeding › Chapter

3 Citations (Scopus)

19 Downloads (Pure)

Abstract

Climate change, growing populations and economic shocks are adding pressure on the global agricultural system’s ability to feed the world. In addition to curbing the emissions from fossil fuel use, land-based actions are seen as essential in the effort to mitigate climate change, but these tend to reduce areas available for food production, thereby further increasing this pressure. The actors of the food system have the capacity to respond and adapt to changes in climate, and thereby reduce the negative consequences, while potentially creating additional challenges, including further greenhouse gas emissions. The food system actors may respond autonomously based on economic drivers and other factors to adapt to climate change, whereas policy measures are usually needed for mitigation actions to be implemented. Much research and policy focus has been given to land-based climate change mitigation, but far less emphasis has to date been given to the understanding of adaptation, or the interaction between adaptation and mitigation in the land use and food system. Here, we present an approach to better understand and plan these interactions through modelling. Climate change adaptation and mitigation strategies and the impacts on the global food system and socio-economic development can be simulated over long-term predictions, thanks to the new combination of multiple models into the Land System Modular Model (LandSyMM). LandSyMM takes into account the impacts in changes in climate (i.e. temperature, precipitation, atmospheric greenhouse gas concentrations) and land management on crop yields with its implications for land allocation, food security and trade. This new coupled model integrates, over fine spatial scale, the interactions between commodities consumption, land use management, vegetation and climate into a worldwide dynamic economic system. This study offers an outline description of the LandSyMM as well as the perspectives of uses for climate adaptation assessment.

Original language	English
Title of host publication	Climate Adaptation Modelling
Editors	Claus Kondrup, Paola Mercogliano, Francesco Bosello, Jaroslav Mysiak, Enrico Scoccimarro, Angela Rizzo, Rhian Ebrey, Marleen de Ruiter, Ad Jeuken, Paul Watkiss
Publisher	Springer
Chapter	16
Pages	133-140
Number of pages	8
Edition	1
ISBN (Electronic)	9783030862114
ISBN (Print)	9783030862107, 9783030862138
DOIs	https://doi.org/10.1007/978-3-030-86211-4_16
Publication status	Published - 1 Feb 2022

Publication series

Name	Springer Climate
ISSN (Print)	2352-0698
ISSN (Electronic)	2352-0701

Bibliographical note

Funding Information:
Acknowledgements We acknowledge the support of the UK’s Global Food Security Programme project Resilience of the UK food system to Global Shocks (RUGS, BB/N020707/1) and the Helmholtz Association.

Publisher Copyright:
© 2022, The Author(s).

Keywords

Climate change
Dynamic global vegetation model
Food system
Land-use change

ASJC Scopus subject areas

Global and Planetary Change
Atmospheric Science
Management, Monitoring, Policy and Law

UN SDGs

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

Access to Document

10.1007/978-3-030-86211-4_16Licence: Creative Commons: Attribution (CC BY)

MaireJ2022NewFinal published version, 258 KBLicence: Creative Commons: Attribution (CC BY)

Cite this

Maire, J., Alexander, P., Anthoni, P., Huntingford, C., Pugh, T. A. M., Rabin, S., Rounsevell, M., & Arneth, A. (2022). A New Modelling Approach to Adaptation-Mitigation in the Land System. In C. Kondrup, P. Mercogliano, F. Bosello, J. Mysiak, E. Scoccimarro, A. Rizzo, R. Ebrey, M. de Ruiter, A. Jeuken, & P. Watkiss (Eds.), Climate Adaptation Modelling (1 ed., pp. 133-140). (Springer Climate). Springer. https://doi.org/10.1007/978-3-030-86211-4_16

Maire, Juliette ; Alexander, Peter ; Anthoni, Peter et al. / A New Modelling Approach to Adaptation-Mitigation in the Land System. Climate Adaptation Modelling. editor / Claus Kondrup ; Paola Mercogliano ; Francesco Bosello ; Jaroslav Mysiak ; Enrico Scoccimarro ; Angela Rizzo ; Rhian Ebrey ; Marleen de Ruiter ; Ad Jeuken ; Paul Watkiss. 1. ed. Springer, 2022. pp. 133-140 (Springer Climate).

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abstract = "Climate change, growing populations and economic shocks are adding pressure on the global agricultural system{\textquoteright}s ability to feed the world. In addition to curbing the emissions from fossil fuel use, land-based actions are seen as essential in the effort to mitigate climate change, but these tend to reduce areas available for food production, thereby further increasing this pressure. The actors of the food system have the capacity to respond and adapt to changes in climate, and thereby reduce the negative consequences, while potentially creating additional challenges, including further greenhouse gas emissions. The food system actors may respond autonomously based on economic drivers and other factors to adapt to climate change, whereas policy measures are usually needed for mitigation actions to be implemented. Much research and policy focus has been given to land-based climate change mitigation, but far less emphasis has to date been given to the understanding of adaptation, or the interaction between adaptation and mitigation in the land use and food system. Here, we present an approach to better understand and plan these interactions through modelling. Climate change adaptation and mitigation strategies and the impacts on the global food system and socio-economic development can be simulated over long-term predictions, thanks to the new combination of multiple models into the Land System Modular Model (LandSyMM). LandSyMM takes into account the impacts in changes in climate (i.e. temperature, precipitation, atmospheric greenhouse gas concentrations) and land management on crop yields with its implications for land allocation, food security and trade. This new coupled model integrates, over fine spatial scale, the interactions between commodities consumption, land use management, vegetation and climate into a worldwide dynamic economic system. This study offers an outline description of the LandSyMM as well as the perspectives of uses for climate adaptation assessment.",

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author = "Juliette Maire and Peter Alexander and Peter Anthoni and Chris Huntingford and Pugh, {Thomas A.M.} and Sam Rabin and Mark Rounsevell and Almut Arneth",

note = "Funding Information: Acknowledgements We acknowledge the support of the UK{\textquoteright}s Global Food Security Programme project Resilience of the UK food system to Global Shocks (RUGS, BB/N020707/1) and the Helmholtz Association. Publisher Copyright: {\textcopyright} 2022, The Author(s).",

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Maire, J, Alexander, P, Anthoni, P, Huntingford, C, Pugh, TAM, Rabin, S, Rounsevell, M & Arneth, A 2022, A New Modelling Approach to Adaptation-Mitigation in the Land System. in C Kondrup, P Mercogliano, F Bosello, J Mysiak, E Scoccimarro, A Rizzo, R Ebrey, M de Ruiter, A Jeuken & P Watkiss (eds), Climate Adaptation Modelling. 1 edn, Springer Climate, Springer, pp. 133-140. https://doi.org/10.1007/978-3-030-86211-4_16

A New Modelling Approach to Adaptation-Mitigation in the Land System. / Maire, Juliette; Alexander, Peter; Anthoni, Peter et al.
Climate Adaptation Modelling. ed. / Claus Kondrup; Paola Mercogliano; Francesco Bosello; Jaroslav Mysiak; Enrico Scoccimarro; Angela Rizzo; Rhian Ebrey; Marleen de Ruiter; Ad Jeuken; Paul Watkiss. 1. ed. Springer, 2022. p. 133-140 (Springer Climate).

Research output: Chapter in Book/Report/Conference proceeding › Chapter

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AU - Rabin, Sam

AU - Rounsevell, Mark

AU - Arneth, Almut

N1 - Funding Information: Acknowledgements We acknowledge the support of the UK’s Global Food Security Programme project Resilience of the UK food system to Global Shocks (RUGS, BB/N020707/1) and the Helmholtz Association. Publisher Copyright: © 2022, The Author(s).

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AB - Climate change, growing populations and economic shocks are adding pressure on the global agricultural system’s ability to feed the world. In addition to curbing the emissions from fossil fuel use, land-based actions are seen as essential in the effort to mitigate climate change, but these tend to reduce areas available for food production, thereby further increasing this pressure. The actors of the food system have the capacity to respond and adapt to changes in climate, and thereby reduce the negative consequences, while potentially creating additional challenges, including further greenhouse gas emissions. The food system actors may respond autonomously based on economic drivers and other factors to adapt to climate change, whereas policy measures are usually needed for mitigation actions to be implemented. Much research and policy focus has been given to land-based climate change mitigation, but far less emphasis has to date been given to the understanding of adaptation, or the interaction between adaptation and mitigation in the land use and food system. Here, we present an approach to better understand and plan these interactions through modelling. Climate change adaptation and mitigation strategies and the impacts on the global food system and socio-economic development can be simulated over long-term predictions, thanks to the new combination of multiple models into the Land System Modular Model (LandSyMM). LandSyMM takes into account the impacts in changes in climate (i.e. temperature, precipitation, atmospheric greenhouse gas concentrations) and land management on crop yields with its implications for land allocation, food security and trade. This new coupled model integrates, over fine spatial scale, the interactions between commodities consumption, land use management, vegetation and climate into a worldwide dynamic economic system. This study offers an outline description of the LandSyMM as well as the perspectives of uses for climate adaptation assessment.

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Maire J, Alexander P, Anthoni P, Huntingford C, Pugh TAM, Rabin S et al. A New Modelling Approach to Adaptation-Mitigation in the Land System. In Kondrup C, Mercogliano P, Bosello F, Mysiak J, Scoccimarro E, Rizzo A, Ebrey R, de Ruiter M, Jeuken A, Watkiss P, editors, Climate Adaptation Modelling. 1 ed. Springer. 2022. p. 133-140. (Springer Climate). Epub 2022 Jan 31. doi: 10.1007/978-3-030-86211-4_16

A New Modelling Approach to Adaptation-Mitigation in the Land System

Abstract

Publication series

Bibliographical note

Keywords

ASJC Scopus subject areas

UN SDGs

Access to Document

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Cite this