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Tackling food consumption inequality to fight hunger without pressuring the environment

Author

Listed:
  • Tomoko Hasegawa

    (Ritsumeikan University
    International Institute for Applied Systems Analysis
    National Institute for Environmental Studies)

  • Petr Havlík

    (International Institute for Applied Systems Analysis)

  • Stefan Frank

    (International Institute for Applied Systems Analysis)

  • Amanda Palazzo

    (International Institute for Applied Systems Analysis)

  • Hugo Valin

    (International Institute for Applied Systems Analysis)

Abstract

Ending hunger is a Sustainable Development Goal of the UN. However, feeding a growing world population by increasing food production without implementing more sustainable consumption will threaten the environment. We explore alternative hunger eradication scenarios that do not compromise environmental protection. We find that an economy-growth-oriented scenario, which ignores inequitable food distribution and is aimed at ending hunger by increasing overall food availability, would require about 20% more food production, 48 Mha of additional agricultural land and would increase greenhouse gas emissions by 550 Mt of CO2 equivalents yr−1 in 2030, compared with the business-as-usual scenario. If hunger eradication efforts were focused solely on the under-nourished, food demand would increase by only 3%, and the associated environmental trade-offs would be largely reduced. Moreover, a combined scenario that targets the under-nourished while also reducing over-consumption, food waste, agricultural intensification and other environmental impacts would reduce food demand by 9% compared with the business-as-usual scenario and would lead to the multiple benefits of reducing hunger and contributing to environmental sustainability.

Suggested Citation

  • Tomoko Hasegawa & Petr Havlík & Stefan Frank & Amanda Palazzo & Hugo Valin, 2019. "Tackling food consumption inequality to fight hunger without pressuring the environment," Nature Sustainability, Nature, vol. 2(9), pages 826-833, September.
    • Handle: RePEc:nat:natsus:v:2:y:2019:i:9:d:10.1038_s41893-019-0371-6
    DOI: 10.1038/s41893-019-0371-6
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    Cited by:

    1. Ana Luiza Fontenelle & Erik Nilsson & Ieda Geriberto Hidalgo & Cintia B. Uvo & Drielli Peyerl, 2022. "Temporal Understanding of the Water–Energy Nexus: A Literature Review," Energies, MDPI, vol. 15(8), pages 1-21, April.
    2. Wang, Xue-Chao & Jiang, Peng & Yang, Lan & Fan, Yee Van & Klemeš, Jiří Jaromír & Wang, Yutao, 2021. "Extended water-energy nexus contribution to environmentally-related sustainable development goals," Renewable and Sustainable Energy Reviews, Elsevier, vol. 150(C).
    3. Marta Kozicka & Petr Havlík & Hugo Valin & Eva Wollenberg & Andre Deppermann & David Leclère & Pekka Lauri & Rebekah Moses & Esther Boere & Stefan Frank & Chris Davis & Esther Park & Noel Gurwick, 2023. "Feeding climate and biodiversity goals with novel plant-based meat and milk alternatives," Nature Communications, Nature, vol. 14(1), pages 1-13, December.
    4. Kocak, Emrah & Bilgili, Faik & Bulut, Umit & Kuskaya, Sevda, 2022. "Is ethanol production responsible for the increase in corn prices?," Renewable Energy, Elsevier, vol. 199(C), pages 689-696.
    5. Bilgili, Faik & Kocak, Emrah & Kuskaya, Sevda & Bulut, Umit, 2022. "Co-movements and causalities between ethanol production and corn prices in the USA: New evidence from wavelet transform analysis," Energy, Elsevier, vol. 259(C).
    6. Jianjian He & Siqi Wang & Reinout Heijungs & Yi Yang & Shumiao Shu & Weiwen Zhang & Anqi Xu & Kai Fang, 2024. "Interprovincial food trade aggravates China’s land scarcity," Palgrave Communications, Palgrave Macmillan, vol. 11(1), pages 1-14, December.
    7. Huang, Rui & Tian, Lixin, 2021. "CO2 emissions inequality through the lens of developing countries," Applied Energy, Elsevier, vol. 281(C).

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