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Embodied energy in agricultural inputs. Incorporating a historical perspective

Author

Listed:
  • Eduardo Aguilera
  • Gloria I. Guzmán
  • Juan Infante-Amate
  • David Soto
  • Roberto García-Ruiz
  • Antonio Herrera
  • Inmaculada Villa
  • Eva Torremocha
  • Guiomar Carranza
  • Manuel González de Molina

Abstract

This working paper analyzes the energy embodied in agricultural inputs from a historical perspective. The study is based on a wide literature review, which has been complemented with own estimations in order to create a coherent database including all direct and indirect energy associated to the main agricultural inputs with the maximum possible level of disaggregation. The inputs studied include human labour, energy carriers such as fuels and electricity, materials, machinery, synthetic fertilizers and pesticides, organic inputs, propagation material, irrigation inputs, buildings, greenhouses, transport and non-material services. For each input we describe its historical evolution from an energetic perspective, the most common methods used for the calculation of its embodied energy published in the literature and temporal data series on the historical evolution of this energy. The temporal data series are expressed in 10-year time-steps and, in the majority of cases, they cover the whole 20th century and the first decade of the 21st century. The values provided are global averages or covering the main producing regions. The results show the large changes that have occurred in the energy efficiency of the production of agricultural inputs, underlining the need for the use of dynamic coefficients in historical energy analyses of agricultural systems.

Suggested Citation

  • Eduardo Aguilera & Gloria I. Guzmán & Juan Infante-Amate & David Soto & Roberto García-Ruiz & Antonio Herrera & Inmaculada Villa & Eva Torremocha & Guiomar Carranza & Manuel González de Molina, 2015. "Embodied energy in agricultural inputs. Incorporating a historical perspective," Documentos de Trabajo de la Sociedad de Estudios de Historia Agraria 1507, Sociedad de Estudios de Historia Agraria.
    • Handle: RePEc:seh:wpaper:1507
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    Citations

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    Cited by:

    1. Elsoragaby, Suha & Yahya, Azmi & Mahadi, Muhammad Razif & Nawi, Nazmi Mat & Mairghany, Modather, 2019. "Energy utilization in major crop cultivation," Energy, Elsevier, vol. 173(C), pages 1285-1303.
    2. Valerii Havrysh & Vitalii Nitsenko & Vasyl Hruban, 2022. "Sorghum-Based Power Generation in Southern Ukraine: Energy and Environmental Assessment," Agriculture, MDPI, vol. 12(12), pages 1-15, December.
    3. Roberts, Cameron & Greene, Jenna & Nemet, Gregory F., 2023. "Key enablers for carbon dioxide removal through the application of biochar to agricultural soils: Evidence from three historical analogues," Technological Forecasting and Social Change, Elsevier, vol. 195(C).
    4. Zeke Marshall & Paul E. Brockway, 2020. "A Net Energy Analysis of the Global Agriculture, Aquaculture, Fishing and Forestry System," Biophysical Economics and Resource Quality, Springer, vol. 5(2), pages 1-27, June.
    5. Tello, E. & Galán, E. & Sacristán, V. & Cunfer, G. & Guzmán, G.I. & González de Molina, M. & Krausmann, F. & Gingrich, S. & Padró, R. & Marco, I. & Moreno-Delgado, D., 2016. "Opening the black box of energy throughputs in farm systems: A decomposition analysis between the energy returns to external inputs, internal biomass reuses and total inputs consumed (the Vallès Count," Ecological Economics, Elsevier, vol. 121(C), pages 160-174.
    6. Maria Lampridi & Dimitrios Kateris & Claus Grøn Sørensen & Dionysis Bochtis, 2020. "Energy Footprint of Mechanized Agricultural Operations," Energies, MDPI, vol. 13(3), pages 1-15, February.
    7. Manuel González de Molina & David Soto Fernández & Juan Infante-Amate & Eduardo Aguilera & Jaime Vila Traver & Gloria I. Guzmán, 2017. "Decoupling Food from Land: The Evolution of Spanish Agriculture from 1960 to 2010," Sustainability, MDPI, vol. 9(12), pages 1-18, December.
    8. Paul Steenwyk & Matthew Kuperus Heun & Paul Brockway & Tânia Sousa & Sofia Henriques, 2022. "The Contributions of Muscle and Machine Work to Land and Labor Productivity in World Agriculture Since 1800," Biophysical Economics and Resource Quality, Springer, vol. 7(2), pages 1-17, June.
    9. Guzmán, Gloria Isabel & Fernández, David Soto & Aguilera, Eduardo & Infante-Amate, Juan & de Molina, Manuel González, 2022. "The close relationship between biophysical degradation, ecosystem services and family farms decline in Spanish agriculture (1992–2017)," Ecosystem Services, Elsevier, vol. 56(C).
    10. Galiana-Carballo, C. & Rivera-Ferre, M.G. & Méndez, P.F. & Palau-Salvador, G., 2024. "Reducing fossil fuel dependency in smallholding farming in l'Horta de València, Spain: A socio-metabolic approach," Ecological Economics, Elsevier, vol. 217(C).
    11. Oleg Bazaluk & Valerii Havrysh & Mykhailo Fedorchuk & Vitalii Nitsenko, 2021. "Energy Assessment of Sorghum Cultivation in Southern Ukraine," Agriculture, MDPI, vol. 11(8), pages 1-22, July.
    12. Galán, E. & Padró, R. & Marco, I. & Tello, E. & Cunfer, G. & Guzmán, G.I. & González de Molina, M. & Krausmann, F. & Gingrich, S. & Sacristán, V. & Moreno-Delgado, D., 2016. "Widening the analysis of Energy Return on Investment (EROI) in agro-ecosystems: Socio-ecological transitions to industrialized farm systems (the Vallès County, Catalonia, c.1860 and 1999)," Ecological Modelling, Elsevier, vol. 336(C), pages 13-25.
    13. Montero-Mora, Andrea & Dermott, Anthony Goebel-Mc, 2023. "Socioecological transformations at the specialized productive space in coffee and sugarcane in the context of the Green Revolution. Costa Rica (1955–1973)," Ecological Economics, Elsevier, vol. 208(C).
    14. Elsoragaby, Suha & Yahya, Azmi & Mahadi, Muhammad Razif & Nawi, Nazmi Mat & Mairghany, Modather, 2019. "Analysis of energy use and greenhouse gas emissions (GHG) of transplanting and broadcast seeding wetland rice cultivation," Energy, Elsevier, vol. 189(C).
    15. Paris, Bas & Vandorou, Foteini & Balafoutis, Athanasios T. & Vaiopoulos, Konstantinos & Kyriakarakos, George & Manolakos, Dimitris & Papadakis, George, 2022. "Energy use in open-field agriculture in the EU: A critical review recommending energy efficiency measures and renewable energy sources adoption," Renewable and Sustainable Energy Reviews, Elsevier, vol. 158(C).
    16. Fullana Llinàs, O. & Tello Aragay, E. & Murray Mas, I. & Jover-Avellà, G. & Marull López, J., 2021. "Socio-ecological transition in a Mediterranean agroecosystem: What energy flows tell us about agricultural landscapes ruled by landlords, peasants and tourism (Mallorca, 1860-1956-2012)," Ecological Economics, Elsevier, vol. 190(C).
    17. Tatevik Yezekyan & Marco Benetti & Giannantonio Armentano & Samuele Trestini & Luigi Sartori & Francesco Marinello, 2021. "Definition of Reference Models for Power, Mass, Working Width, and Price for Tillage Implements," Agriculture, MDPI, vol. 11(3), pages 1-15, February.
    18. David Pérez-Neira & Marta Soler-Montiel & Rosario Gutiérrez-Peña & Yolanda Mena-Guerrero, 2018. "Energy Assessment of Pastoral Dairy Goat Husbandry from an Agroecological Economics Perspective. A Case Study in Andalusia (Spain)," Sustainability, MDPI, vol. 10(8), pages 1-20, August.
    19. Infante-Amate, Juan & Aguilera, Eduardo & de Molina, Manuel González, 2018. "Energy transition in Agri-food systems. Structural change, drivers and policy implications (Spain, 1960–2010)," Energy Policy, Elsevier, vol. 122(C), pages 570-579.
    20. Claudio Cattaneo & Joan Marull & Enric Tello, 2018. "Landscape Agroecology. The Dysfunctionalities of Industrial Agriculture and the Loss of the Circular Bioeconomy in the Barcelona Region, 1956–2009," Sustainability, MDPI, vol. 10(12), pages 1-22, December.

    More about this item

    Keywords

    Embodied Energy; Energy Balances; Agricultural Inputs; EROI; Life Cycle Assessment; Industrial History; Energy Efficiency;
    All these keywords.

    JEL classification:

    • N54 - Economic History - - Agriculture, Natural Resources, Environment and Extractive Industries - - - Europe: 1913-
    • Q01 - Agricultural and Natural Resource Economics; Environmental and Ecological Economics - - General - - - Sustainable Development
    • Q18 - Agricultural and Natural Resource Economics; Environmental and Ecological Economics - - Agriculture - - - Agricultural Policy; Food Policy; Animal Welfare Policy
    • Q57 - Agricultural and Natural Resource Economics; Environmental and Ecological Economics - - Environmental Economics - - - Ecological Economics

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