Overshoot, potential air pollution co-benefits and food shortages

Li Jing Liu; Qiao Mei Liang; Felix Creutzig; Hua Tong; Yu Xuan Xiao; Xiang Yan Qian; Hao Wang; Si Yi Wei; Xiao Chen Yuan; Biying Yu; Lan Cui Liu; Yi Ming Wei

doi:10.1016/j.gloenvcha.2025.103040

Overshoot, potential air pollution co-benefits and food shortages

Li Jing Liu, Qiao Mei Liang^*, Felix Creutzig, Hua Tong, Yu Xuan Xiao, Xiang Yan Qian, Hao Wang, Si Yi Wei, Xiao Chen Yuan, Biying Yu, Lan Cui Liu, Yi Ming Wei

^*Corresponding author for this work

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

Abstract

Achieving the 1.5°C target will entail a temporary overshoot, with peak temperatures potentially exceeding 1.7°C before declining towards the end of the century. This study examines how different economic growth patterns, energy transitions, and non-CO₂ mitigation strategies influence this trajectory. Our simulations reveal that achieving this target requires confining cumulative CO₂ emissions to 220–370 GtCO₂ by 2100, with a peak around 2060 of 530–650 GtCO₂. Key to success is the transition to net-zero CO₂ by 2060 and the implementation of Carbon Dioxide Removal (CDR) technologies. Effective reductions in CH₄ and N₂O are vital for minimizing additional warming. Significant co-benefits include improved air quality, with SO₂ and NOx emissions decreasing by 60–80 %, enhancing public health. However, aggressive climate policies and resulting high fertilizer prices may reduce food crop yields by up to 16.8 %, highlighting the need to integrate climate and agricultural strategies to balance emission reductions with food security and achieve long-term climate and sustainability goals. The deployment of CDR technologies with low land footprint, such as direct air capture, could help alleviate land-based trade-offs.

Original language	English
Article number	103040
Journal	Global Environmental Change
Volume	94
DOIs	http://doi.org/10.1016/j.gloenvcha.2025.103040
Publication status	Published - Oct 2025
Externally published	Yes

Keywords

1.5°C target
Co-benefits
Food security
Non-CO emissions
Overshoot

UN SDGs

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

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10.1016/j.gloenvcha.2025.103040

Cite this

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title = "Overshoot, potential air pollution co-benefits and food shortages",

abstract = "Achieving the 1.5°C target will entail a temporary overshoot, with peak temperatures potentially exceeding 1.7°C before declining towards the end of the century. This study examines how different economic growth patterns, energy transitions, and non-CO2 mitigation strategies influence this trajectory. Our simulations reveal that achieving this target requires confining cumulative CO2 emissions to 220–370 GtCO2 by 2100, with a peak around 2060 of 530–650 GtCO2. Key to success is the transition to net-zero CO2 by 2060 and the implementation of Carbon Dioxide Removal (CDR) technologies. Effective reductions in CH4 and N2O are vital for minimizing additional warming. Significant co-benefits include improved air quality, with SO2 and NOx emissions decreasing by 60–80 \%, enhancing public health. However, aggressive climate policies and resulting high fertilizer prices may reduce food crop yields by up to 16.8 \%, highlighting the need to integrate climate and agricultural strategies to balance emission reductions with food security and achieve long-term climate and sustainability goals. The deployment of CDR technologies with low land footprint, such as direct air capture, could help alleviate land-based trade-offs.",

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author = "Liu, \{Li Jing\} and Liang, \{Qiao Mei\} and Felix Creutzig and Hua Tong and Xiao, \{Yu Xuan\} and Qian, \{Xiang Yan\} and Hao Wang and Wei, \{Si Yi\} and Yuan, \{Xiao Chen\} and Biying Yu and Liu, \{Lan Cui\} and Wei, \{Yi Ming\}",

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year = "2025",

month = oct,

doi = "10.1016/j.gloenvcha.2025.103040",

language = "English",

volume = "94",

journal = "Global Environmental Change",

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T1 - Overshoot, potential air pollution co-benefits and food shortages

AU - Liu, Li Jing

AU - Liang, Qiao Mei

AU - Creutzig, Felix

AU - Tong, Hua

AU - Xiao, Yu Xuan

AU - Qian, Xiang Yan

AU - Wang, Hao

AU - Wei, Si Yi

AU - Yuan, Xiao Chen

AU - Yu, Biying

AU - Liu, Lan Cui

AU - Wei, Yi Ming

PY - 2025/10

Y1 - 2025/10

N2 - Achieving the 1.5°C target will entail a temporary overshoot, with peak temperatures potentially exceeding 1.7°C before declining towards the end of the century. This study examines how different economic growth patterns, energy transitions, and non-CO2 mitigation strategies influence this trajectory. Our simulations reveal that achieving this target requires confining cumulative CO2 emissions to 220–370 GtCO2 by 2100, with a peak around 2060 of 530–650 GtCO2. Key to success is the transition to net-zero CO2 by 2060 and the implementation of Carbon Dioxide Removal (CDR) technologies. Effective reductions in CH4 and N2O are vital for minimizing additional warming. Significant co-benefits include improved air quality, with SO2 and NOx emissions decreasing by 60–80 %, enhancing public health. However, aggressive climate policies and resulting high fertilizer prices may reduce food crop yields by up to 16.8 %, highlighting the need to integrate climate and agricultural strategies to balance emission reductions with food security and achieve long-term climate and sustainability goals. The deployment of CDR technologies with low land footprint, such as direct air capture, could help alleviate land-based trade-offs.

AB - Achieving the 1.5°C target will entail a temporary overshoot, with peak temperatures potentially exceeding 1.7°C before declining towards the end of the century. This study examines how different economic growth patterns, energy transitions, and non-CO2 mitigation strategies influence this trajectory. Our simulations reveal that achieving this target requires confining cumulative CO2 emissions to 220–370 GtCO2 by 2100, with a peak around 2060 of 530–650 GtCO2. Key to success is the transition to net-zero CO2 by 2060 and the implementation of Carbon Dioxide Removal (CDR) technologies. Effective reductions in CH4 and N2O are vital for minimizing additional warming. Significant co-benefits include improved air quality, with SO2 and NOx emissions decreasing by 60–80 %, enhancing public health. However, aggressive climate policies and resulting high fertilizer prices may reduce food crop yields by up to 16.8 %, highlighting the need to integrate climate and agricultural strategies to balance emission reductions with food security and achieve long-term climate and sustainability goals. The deployment of CDR technologies with low land footprint, such as direct air capture, could help alleviate land-based trade-offs.

KW - 1.5°C target

KW - Co-benefits

KW - Food security

KW - Non-CO emissions

KW - Overshoot

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DO - 10.1016/j.gloenvcha.2025.103040

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VL - 94

JO - Global Environmental Change

JF - Global Environmental Change

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ER -

Overshoot, potential air pollution co-benefits and food shortages

Abstract

Keywords

UN SDGs

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