Energetic assessment of the agricultural production system. A review

Hercher-Pasteur, Jean; Loiseau, Eléonore; Sinfort, Carole; Hélias, Arnaud

doi:10.1007/s13593-020-00627-2

Cited by 32 publications

(20 citation statements)

References 199 publications

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“…Thus, modelling the KE system, the system boundaries as defined by the funds and flows accounting for the energy transformation and circulation from an agroecological perspective, as described by Díez, Cussó [6]. The main stocks present in the KE system are a crop livestock system based on historical and current data, with subsystems allowing for the presence of internal flows of energy as described by Hercher-Pasteur, Loiseau [20]. The farmer as the manager or steward of the agroecosystem is part of the external input to the farming system, together with inputs in form of fertilizer, fuel, electricity, heating, and fodder for livestock production.…”

Section: Methodsmentioning

confidence: 99%

“…Furthermore, as described by Tello, Galán, Cunfer et al [52], manure as energy (calculations based on Danish numbers, see [53]) recycled in the system, is also part of the internal flows on this Danish farm. Even if many industrialized system studies exclude human labor [20], the human labor is included in this study, both to enquire about the difference between the KE 1840 and KE 2019 system, but also because, without human labor, there would be no production.…”

Section: Methodsmentioning

confidence: 99%

“…In the second part, the energetic indicators used by Hercher-Pasteur, Loiseau [20], with an anthropic consideration of the system, are regarded as an important qualitative approach to compare sustainability in the system over time. More concrete, the methodology we used follows the flow-fund approach, describing the relationships between elements contributing to the agricultural system as proposed and developed by Cattaneo, Marull [32], including the adoption of the social metabolism concept [32,54].…”

Section: Methodsmentioning

confidence: 99%

“…The particularly great economic success of the conversion of Danish agriculture to animal production can be found in the design and distribution of the cooperative dairy movement [17]. Since the industrial revolution, innovations such as modern machinery and inorganic fertilizers have helped to reduce the labor force, or even appropriated human labor and draft animals [6,18,19], but at the same time resulted in a dependency between human activity and fossil energy use to maintain agricultural systems [18][19][20]. These system changes came along with broader societal change, altogether constituting a new phase of Danish social ecology [21].…”

Section: Introductionmentioning

confidence: 99%

See 3 more Smart Citations

Historical Transition of a Farming System towards Industrialization: A Danish Agricultural Case Study Comparing Sustainability in the 1840s and 2019

2021

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A Danish pre-industrial farming system is reconstructed and compared to its modern industrialized farming system equivalent to evaluate agricultural performance in a sustainability perspective. The investigated Danish farm system and its contributing elements have undergone significant transformations. The intensity of contemporary agriculture shows that high productivity levels have been achieved by increasing the input of energy using modern machinery. At the same time, the energy efficiency (calculations based on energetic indicators) diminishes over time as the degree of dependence on fossil fuels increases. The results from this study show significant changes in the farming system, specifically inputs from agricultural land use, livestock, and energy systems. From being highly circular, the system changed to being a clear linear farming system with highly increased productivity but less efficient at the same time, questioning the relationship between productivity and efficiency and resource utilization in modern farming systems. Through utilizing an agroecological historical approach by comparing system performance over time, the results offer opportunities to explore how agricultural farming systems evolve over time and help to describe the complexity of the system level in a sustainability perspective.

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Section: Methodsmentioning

confidence: 99%

Section: Methodsmentioning

confidence: 99%

Section: Methodsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

See 2 more Smart Citations

Historical Transition of a Farming System towards Industrialization: A Danish Agricultural Case Study Comparing Sustainability in the 1840s and 2019

2021

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“…Due to the climatic features of most regions of the country, more than 1 million tons of fuel is spent on heating rooms and drying agricultural products. The total energy costs for the production of 1 ton of conventional grain unit in Russia in comparison with the United States are more than 5 times higher [1][2][3][4][5]. This alone significantly reduces the potential for competitiveness of agricultural products of Russian farmers.…”

Section: Introductionmentioning

confidence: 99%

Analysis of methodological bases of energy-economic assessment of agricultural technologies and projects

Shirokov

Tikhnenko

2021

E3S Web Conf.

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The article shows that the urgency of the fuel and energy problem determines the need for rational energy consumption in all sectors of the economy, including agriculture. A comprehensive cross-sectoral approach is needed to address the issues of systematic management of energy saving in agriculture and to justify rational measures of economic support for the introduction of energy-saving technologies, machines, and projects on the part of the state. It is shown that the energy-economic (bioenergetic) estimation method meets these requirements.. The main advantage of the energy-economic assessment is that its application makes it possible to compare in single units of measurement (regardless of the historical period or the state, the current market situation) the costs of cultivating plants or servicing animals with the results of production and is mainly of national strategic importance. An approach to improving the methodology of energy-economic assessment of agricultural technologies and projects when using renewable energy sources in technological processes is presented. It is proved that in order to ensure the reliability of the energy-economic assessment in connection with the constant technological and organizational changes and the digitalization of technology and the economy, it is necessary to continue research in the direction of improving the methodology for assessing, clarifying and regularly updating energy equivalents.

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Resources for plant‐based food: Estimating resource use to meet the requirements of urban and peri‐urban diets

Righini

Stanghellini

Hemming

et al. 2023

Food and Energy Security

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The rapid urban growth seen globally in recent years has not been supported by a simultaneous increase in agricultural land and/or crop productivity. Producing crops in (peri‐)urban areas shows good potential to provide the vegetable products for a healthy and balanced diet for the growing population, but it has to deal with the local availability of resources. Thus, meeting the food requirements of the urban population as efficiently and robustly as possible is a challenge. This study developed a methodology to estimate the use of resources of urban farming systems to produce energy‐ and nutrient‐dense vegetables capable of meeting human dietary needs. The method was applied to two extremely different cultivation systems (an open field farm and a plant factory with artificial lighting) for the production of seven crops. The results on the resource efficiencies to meet the annual per‐capita vegetable requirements are discussed in relation to crop type, local climate and cultivation system. The application of this methodology can support farmers' decisions on the choice of crops and the type of urban farming systems that are most efficient in contributing to a plant‐based diet. The results can also be translated into water, energy, and surface area needed to meet the nutritional requirements at a city‐regional level.

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Energetic assessment of the agricultural production system. A review

Cited by 32 publications

References 199 publications

Historical Transition of a Farming System towards Industrialization: A Danish Agricultural Case Study Comparing Sustainability in the 1840s and 2019

Historical Transition of a Farming System towards Industrialization: A Danish Agricultural Case Study Comparing Sustainability in the 1840s and 2019

Analysis of methodological bases of energy-economic assessment of agricultural technologies and projects

Resources for plant‐based food: Estimating resource use to meet the requirements of urban and peri‐urban diets

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