Reducing climate change impacts from the global food system through diet shifts

Yanxian Li; Pan He; Yuli Shan; Yu Li; Ye Hang; Shuai Shao; Franco Ruzzenenti; Klaus Hubacek

doi:10.1038/s41558-024-02084-1

Reducing climate change impacts from the global food system through diet shifts

Yanxian Li
, Pan He
, Yuli Shan^*
, Yu Li
, Ye Hang
, Shuai Shao
, Franco Ruzzenenti
, Klaus Hubacek^*

^*Corresponding author for this work

Geography, Earth and Environmental Sciences

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

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Abstract

How much and what we eat and where it is produced can create huge differences in GHG emissions. On the basis of detailed household-expenditure data, we evaluate the unequal distribution of dietary emissions from 140 food products in 139 countries or areas and further model changes in emissions of global diet shifts. Within countries, consumer groups with higher expenditures generally cause more dietary emissions due to higher red meat and dairy intake. Such inequality is more pronounced in low-income countries. The present global annual dietary emissions would fall by 17% with the worldwide adoption of the EAT-Lancet planetary health diet, primarily attributed to shifts from red meat to legumes and nuts as principal protein sources. More than half (56.9%) of the global population, which is presently overconsuming, would save 32.4% of global emissions through diet shifts, offsetting the 15.4% increase in global emissions from presently underconsuming populations moving towards healthier diets.

Original language	English
Number of pages	18
Journal	Nature Climate Change
Early online date	13 Aug 2024
DOIs	https://doi.org/10.1038/s41558-024-02084-1
Publication status	E-pub ahead of print - 13 Aug 2024

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title = "Reducing climate change impacts from the global food system through diet shifts",

abstract = "How much and what we eat and where it is produced can create huge differences in GHG emissions. On the basis of detailed household-expenditure data, we evaluate the unequal distribution of dietary emissions from 140 food products in 139 countries or areas and further model changes in emissions of global diet shifts. Within countries, consumer groups with higher expenditures generally cause more dietary emissions due to higher red meat and dairy intake. Such inequality is more pronounced in low-income countries. The present global annual dietary emissions would fall by 17\% with the worldwide adoption of the EAT-Lancet planetary health diet, primarily attributed to shifts from red meat to legumes and nuts as principal protein sources. More than half (56.9\%) of the global population, which is presently overconsuming, would save 32.4\% of global emissions through diet shifts, offsetting the 15.4\% increase in global emissions from presently underconsuming populations moving towards healthier diets.",

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AU - Li, Yanxian

AU - He, Pan

AU - Shan, Yuli

AU - Li, Yu

AU - Hang, Ye

AU - Shao, Shuai

AU - Ruzzenenti, Franco

AU - Hubacek, Klaus

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N2 - How much and what we eat and where it is produced can create huge differences in GHG emissions. On the basis of detailed household-expenditure data, we evaluate the unequal distribution of dietary emissions from 140 food products in 139 countries or areas and further model changes in emissions of global diet shifts. Within countries, consumer groups with higher expenditures generally cause more dietary emissions due to higher red meat and dairy intake. Such inequality is more pronounced in low-income countries. The present global annual dietary emissions would fall by 17% with the worldwide adoption of the EAT-Lancet planetary health diet, primarily attributed to shifts from red meat to legumes and nuts as principal protein sources. More than half (56.9%) of the global population, which is presently overconsuming, would save 32.4% of global emissions through diet shifts, offsetting the 15.4% increase in global emissions from presently underconsuming populations moving towards healthier diets.

AB - How much and what we eat and where it is produced can create huge differences in GHG emissions. On the basis of detailed household-expenditure data, we evaluate the unequal distribution of dietary emissions from 140 food products in 139 countries or areas and further model changes in emissions of global diet shifts. Within countries, consumer groups with higher expenditures generally cause more dietary emissions due to higher red meat and dairy intake. Such inequality is more pronounced in low-income countries. The present global annual dietary emissions would fall by 17% with the worldwide adoption of the EAT-Lancet planetary health diet, primarily attributed to shifts from red meat to legumes and nuts as principal protein sources. More than half (56.9%) of the global population, which is presently overconsuming, would save 32.4% of global emissions through diet shifts, offsetting the 15.4% increase in global emissions from presently underconsuming populations moving towards healthier diets.

U2 - 10.1038/s41558-024-02084-1

DO - 10.1038/s41558-024-02084-1

M3 - Article

SN - 1758-678X

JO - Nature Climate Change

JF - Nature Climate Change

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Reducing climate change impacts from the global food system through diet shifts

Abstract

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