Quantifying synergies and trade-offs in the global water-land-food-climate nexus using a multi-model scenario approach

Jonathan C Doelman; Felicitas D Beier; Elke Stehfest; Benjamin L Bodirsky; Arthur H W Beusen; Florian Humpenöder; Abhijeet Mishra; Alexander Popp; Detlef P van Vuuren; Lotte de Vos; Isabelle Weindl; Willem-Jan van Zeist; Tom Kram

doi:10.1088/1748-9326/ac5766

Quantifying synergies and trade-offs in the global water-land-food-climate nexus using a multi-model scenario approach

Jonathan C Doelman, Felicitas D Beier, Elke Stehfest, Benjamin L Bodirsky, Arthur H W Beusen, Florian Humpenöder, Abhijeet Mishra, Alexander Popp, Detlef P van Vuuren, Lotte de Vos, Isabelle Weindl, Willem-Jan van Zeist, Tom Kram

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

Abstract

The human-earth system is confronted with the challenge of providing a range of resources for a growing and more prosperous world population while simultaneously reducing environmental degradation. The sustainable development goals and the planetary boundaries define targets to manage this challenge. Many of these are linked to the land system, such as biodiversity, water, food, nutrients and climate, and are strongly interconnected. A key question is how measures can be designed in the context of multi-dimensional sustainability targets to exploit synergies. To address this, a nexus approach is adopted that acknowledges the interconnectedness between the important sub-systems water, land, food, and climate. This study quantifies synergies and trade-offs from ambitious interventions in different components of this water-land-fod-climate nexus at the global scale. For this purpose, a set of six harmonized scenarios is simulated with the model of agricultural production and its impact on the environment and Integrated model to assess the global environment models. The multi-model approach improves robustness of the results while shedding light on variations coming from different modelling approaches. Our results show that measures in the food component towards healthy diets with low meat consumption have synergies with all other nexus dimensions: Increased natural land improving terrestrial biodiversity (+4% to +8%), lower greenhouse gas emissions from land (−45% to −58%), reduced irrigation water withdrawals to protect or restore hydrological environmental flows (−3% to −24%), and reductions in nitrogen surpluses (−23% to −35%). Climate mitigation measures in line with the Paris Agreement have trade-offs with the water and food components of the nexus, as they adversely affect irrigation water withdrawals (+5% to +30% in 2050 compared to reference scenario) and food prices (+1% to +20%). The analysis of a scenario combining all measures reveals how certain measures are in conflict while others reinforce each other. This study provides an example of a nexus approach to scenario analysis providing input to the next generation of pathways aiming to achieve multiple dimensions of sustainable development.

Original language	English
Article number	045004
Pages (from-to)	1-19
Journal	Environmental Research Letters
Volume	17
Issue number	4
DOIs	https://doi.org/10.1088/1748-9326/ac5766
Publication status	Published - Apr 2022

Bibliographical note

Funding Information:
The research benefited from funding under the European Union’s Horizon 2020 research and innovation programme, under Grant agreement no 689150 SIM4NEXUS. In addition, it received funding from the SHAPE project which is part of AXIS, an ERA-NET initiated by JPI Climate, and funded by FORMAS (SE), FFG/BMWFW (AT), DLR/BMBF (DE, Grant No. 01LS1907A-B-C), NWO (NL) and RCN (NO) with co-funding by the European Union (Grant No. 776608). It also received funding from the European Union’s Horizon 2020 research and innovation programme under Grant Agreement Nos. 776479 (COACCH), and 031B0787B (FOCUS). We acknowledge the support by the German Federal Environmental Foundation (DBU) through a scholarship for FB.

Publisher Copyright:
© 2022 The Author(s). Published by IOP Publishing Ltd.

Keywords

biodiversity
climate change mitigation
food security
integrated assessment
nexus
nitrogen budget
water use

UN SDGs

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

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10.1088/1748-9326/ac5766Licence: CC BY

Doelman_2022_Environ._Res._Lett._17_045004Final published version, 1.8 MBLicence: CC BY

Cite this

Doelman, J. C., Beier, F. D., Stehfest, E., Bodirsky, B. L., Beusen, A. H. W., Humpenöder, F., Mishra, A., Popp, A., Vuuren, D. P. V., Vos, L. D., Weindl, I., Zeist, W.-J. V., & Kram, T. (2022). Quantifying synergies and trade-offs in the global water-land-food-climate nexus using a multi-model scenario approach. Environmental Research Letters, 17(4), 1-19. Article 045004. https://doi.org/10.1088/1748-9326/ac5766

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title = "Quantifying synergies and trade-offs in the global water-land-food-climate nexus using a multi-model scenario approach",

abstract = "The human-earth system is confronted with the challenge of providing a range of resources for a growing and more prosperous world population while simultaneously reducing environmental degradation. The sustainable development goals and the planetary boundaries define targets to manage this challenge. Many of these are linked to the land system, such as biodiversity, water, food, nutrients and climate, and are strongly interconnected. A key question is how measures can be designed in the context of multi-dimensional sustainability targets to exploit synergies. To address this, a nexus approach is adopted that acknowledges the interconnectedness between the important sub-systems water, land, food, and climate. This study quantifies synergies and trade-offs from ambitious interventions in different components of this water-land-fod-climate nexus at the global scale. For this purpose, a set of six harmonized scenarios is simulated with the model of agricultural production and its impact on the environment and Integrated model to assess the global environment models. The multi-model approach improves robustness of the results while shedding light on variations coming from different modelling approaches. Our results show that measures in the food component towards healthy diets with low meat consumption have synergies with all other nexus dimensions: Increased natural land improving terrestrial biodiversity (+4% to +8%), lower greenhouse gas emissions from land (−45% to −58%), reduced irrigation water withdrawals to protect or restore hydrological environmental flows (−3% to −24%), and reductions in nitrogen surpluses (−23% to −35%). Climate mitigation measures in line with the Paris Agreement have trade-offs with the water and food components of the nexus, as they adversely affect irrigation water withdrawals (+5% to +30% in 2050 compared to reference scenario) and food prices (+1% to +20%). The analysis of a scenario combining all measures reveals how certain measures are in conflict while others reinforce each other. This study provides an example of a nexus approach to scenario analysis providing input to the next generation of pathways aiming to achieve multiple dimensions of sustainable development.",

keywords = "biodiversity, climate change mitigation, food security, integrated assessment, nexus, nitrogen budget, water use",

author = "Doelman, {Jonathan C} and Beier, {Felicitas D} and Elke Stehfest and Bodirsky, {Benjamin L} and Beusen, {Arthur H W} and Florian Humpen{\"o}der and Abhijeet Mishra and Alexander Popp and Vuuren, {Detlef P van} and Vos, {Lotte de} and Isabelle Weindl and Zeist, {Willem-Jan van} and Tom Kram",

note = "Funding Information: The research benefited from funding under the European Union{\textquoteright}s Horizon 2020 research and innovation programme, under Grant agreement no 689150 SIM4NEXUS. In addition, it received funding from the SHAPE project which is part of AXIS, an ERA-NET initiated by JPI Climate, and funded by FORMAS (SE), FFG/BMWFW (AT), DLR/BMBF (DE, Grant No. 01LS1907A-B-C), NWO (NL) and RCN (NO) with co-funding by the European Union (Grant No. 776608). It also received funding from the European Union{\textquoteright}s Horizon 2020 research and innovation programme under Grant Agreement Nos. 776479 (COACCH), and 031B0787B (FOCUS). We acknowledge the support by the German Federal Environmental Foundation (DBU) through a scholarship for FB. Publisher Copyright: {\textcopyright} 2022 The Author(s). Published by IOP Publishing Ltd.",

year = "2022",

month = apr,

doi = "10.1088/1748-9326/ac5766",

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Doelman, JC, Beier, FD, Stehfest, E, Bodirsky, BL, Beusen, AHW, Humpenöder, F, Mishra, A, Popp, A, Vuuren, DPV, Vos, LD, Weindl, I, Zeist, W-JV & Kram, T 2022, 'Quantifying synergies and trade-offs in the global water-land-food-climate nexus using a multi-model scenario approach', Environmental Research Letters, vol. 17, no. 4, 045004, pp. 1-19. https://doi.org/10.1088/1748-9326/ac5766

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AU - Beier, Felicitas D

AU - Stehfest, Elke

AU - Bodirsky, Benjamin L

AU - Beusen, Arthur H W

AU - Humpenöder, Florian

AU - Mishra, Abhijeet

AU - Popp, Alexander

AU - Vuuren, Detlef P van

AU - Vos, Lotte de

AU - Weindl, Isabelle

AU - Zeist, Willem-Jan van

AU - Kram, Tom

N1 - Funding Information: The research benefited from funding under the European Union’s Horizon 2020 research and innovation programme, under Grant agreement no 689150 SIM4NEXUS. In addition, it received funding from the SHAPE project which is part of AXIS, an ERA-NET initiated by JPI Climate, and funded by FORMAS (SE), FFG/BMWFW (AT), DLR/BMBF (DE, Grant No. 01LS1907A-B-C), NWO (NL) and RCN (NO) with co-funding by the European Union (Grant No. 776608). It also received funding from the European Union’s Horizon 2020 research and innovation programme under Grant Agreement Nos. 776479 (COACCH), and 031B0787B (FOCUS). We acknowledge the support by the German Federal Environmental Foundation (DBU) through a scholarship for FB. Publisher Copyright: © 2022 The Author(s). Published by IOP Publishing Ltd.

PY - 2022/4

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N2 - The human-earth system is confronted with the challenge of providing a range of resources for a growing and more prosperous world population while simultaneously reducing environmental degradation. The sustainable development goals and the planetary boundaries define targets to manage this challenge. Many of these are linked to the land system, such as biodiversity, water, food, nutrients and climate, and are strongly interconnected. A key question is how measures can be designed in the context of multi-dimensional sustainability targets to exploit synergies. To address this, a nexus approach is adopted that acknowledges the interconnectedness between the important sub-systems water, land, food, and climate. This study quantifies synergies and trade-offs from ambitious interventions in different components of this water-land-fod-climate nexus at the global scale. For this purpose, a set of six harmonized scenarios is simulated with the model of agricultural production and its impact on the environment and Integrated model to assess the global environment models. The multi-model approach improves robustness of the results while shedding light on variations coming from different modelling approaches. Our results show that measures in the food component towards healthy diets with low meat consumption have synergies with all other nexus dimensions: Increased natural land improving terrestrial biodiversity (+4% to +8%), lower greenhouse gas emissions from land (−45% to −58%), reduced irrigation water withdrawals to protect or restore hydrological environmental flows (−3% to −24%), and reductions in nitrogen surpluses (−23% to −35%). Climate mitigation measures in line with the Paris Agreement have trade-offs with the water and food components of the nexus, as they adversely affect irrigation water withdrawals (+5% to +30% in 2050 compared to reference scenario) and food prices (+1% to +20%). The analysis of a scenario combining all measures reveals how certain measures are in conflict while others reinforce each other. This study provides an example of a nexus approach to scenario analysis providing input to the next generation of pathways aiming to achieve multiple dimensions of sustainable development.

AB - The human-earth system is confronted with the challenge of providing a range of resources for a growing and more prosperous world population while simultaneously reducing environmental degradation. The sustainable development goals and the planetary boundaries define targets to manage this challenge. Many of these are linked to the land system, such as biodiversity, water, food, nutrients and climate, and are strongly interconnected. A key question is how measures can be designed in the context of multi-dimensional sustainability targets to exploit synergies. To address this, a nexus approach is adopted that acknowledges the interconnectedness between the important sub-systems water, land, food, and climate. This study quantifies synergies and trade-offs from ambitious interventions in different components of this water-land-fod-climate nexus at the global scale. For this purpose, a set of six harmonized scenarios is simulated with the model of agricultural production and its impact on the environment and Integrated model to assess the global environment models. The multi-model approach improves robustness of the results while shedding light on variations coming from different modelling approaches. Our results show that measures in the food component towards healthy diets with low meat consumption have synergies with all other nexus dimensions: Increased natural land improving terrestrial biodiversity (+4% to +8%), lower greenhouse gas emissions from land (−45% to −58%), reduced irrigation water withdrawals to protect or restore hydrological environmental flows (−3% to −24%), and reductions in nitrogen surpluses (−23% to −35%). Climate mitigation measures in line with the Paris Agreement have trade-offs with the water and food components of the nexus, as they adversely affect irrigation water withdrawals (+5% to +30% in 2050 compared to reference scenario) and food prices (+1% to +20%). The analysis of a scenario combining all measures reveals how certain measures are in conflict while others reinforce each other. This study provides an example of a nexus approach to scenario analysis providing input to the next generation of pathways aiming to achieve multiple dimensions of sustainable development.

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KW - climate change mitigation

KW - food security

KW - integrated assessment

KW - nexus

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ER -

Quantifying synergies and trade-offs in the global water-land-food-climate nexus using a multi-model scenario approach

Abstract

Bibliographical note

Keywords

UN SDGs

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