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Can Agriculture Balance Its Energy Consumption and Continue to Produce Food? A Framework for Assessing Energy Neutrality Applied to French Agriculture

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  • Souhil Harchaoui

    (Laboratoire Interdisciplinaire des Énergies de Demain (LIED), Université Paris Diderot, 75013 Paris, France)

  • Petros Chatzimpiros

    (Laboratoire Interdisciplinaire des Énergies de Demain (LIED), Université Paris Diderot, 75013 Paris, France)

Abstract

In the context of energy transition, agriculture is facing a double challenge, which is to reduce its fossil fuel dependency and provide—in addition to food—bioenergy to society for substitution to fossil fuels. The feasibility of this challenge depends on whether agriculture can achieve energy neutrality, meaning to balance its consumption of external energy by energy recovery from internal sources. Livestock feed is a major determinant in this balance. We use France as a demonstration case of the changing role of feed in the long-term agricultural energy metabolism and the challenge of reaching energy neutrality. Results show that current agriculture is structurally energy deficient to such an extent that its functional energy requirements almost equal its final produce. The energy recovery potential from crop residues and manure could at best cover the primary biomass equivalent of the external energy inputs to agriculture. Only a suppression of feed from cropland combined with very high energy recovery from agricultural residues could allow achieving energy neutrality and making agriculture a net energy source to society.

Suggested Citation

  • Souhil Harchaoui & Petros Chatzimpiros, 2018. "Can Agriculture Balance Its Energy Consumption and Continue to Produce Food? A Framework for Assessing Energy Neutrality Applied to French Agriculture," Sustainability, MDPI, vol. 10(12), pages 1-14, December.
    • Handle: RePEc:gam:jsusta:v:10:y:2018:i:12:p:4624-:d:188315
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    2. Court Victor & Florent Mc Isaac, 2019. "A Representation of the World Population Dynamics for Integrated Assessment Models," Working Papers hal-03192539, HAL.
    3. Li, Yiming & Solaymani, Saeed, 2021. "Energy consumption, technology innovation and economic growth nexuses in Malaysian," Energy, Elsevier, vol. 232(C).
    4. Court Victor & Florent Mc Isaac, 2019. "A Representation of the World Population Dynamics for Integrated Assessment Models," Working Papers hal-03192539, HAL.
    5. Yiping Gao & Rong Yuan & Shenglin Zheng, 2022. "Effects of Human Capital on Energy Consumption: The Role of Income Inequality," IJERPH, MDPI, vol. 19(24), pages 1-17, December.
    6. Benoit, Marc & Mottet, Anne, 2023. "Energy scarcity and rising cost: Towards a paradigm shift for livestock," Agricultural Systems, Elsevier, vol. 205(C).
    7. Alina Zaharia & Maria Claudia Diaconeasa & Laura Brad & Georgiana-Raluca Lădaru & Corina Ioanăș, 2019. "Factors Influencing Energy Consumption in the Context of Sustainable Development," Sustainability, MDPI, vol. 11(15), pages 1-28, August.
    8. Armand Kasztelan & Anna Nowak, 2020. "Construction and Empirical Verification of the Agri-Environmental Index (AEI) as a Tool for Assessing the Green Performance of Agriculture," Energies, MDPI, vol. 14(1), pages 1-12, December.
    9. Ricardo F.M. Teixeira & Tiago Domingos, 2019. "Current Practice and Future Perspectives for Livestock Production and Industrial Ecology," Sustainability, MDPI, vol. 11(15), pages 1-5, August.
    10. Vlada Vitunskienė & Akvilė Aleksandravičienė & Neringa Ramanauskė, 2022. "Spatio-Temporal Assessment of Biomass Self-Sufficiency in the European Union," Sustainability, MDPI, vol. 14(3), pages 1-19, February.
    11. Martinho, V.J.P.D., 2020. "Relationships between agricultural energy and farming indicators," Renewable and Sustainable Energy Reviews, Elsevier, vol. 132(C).

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