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Approaches for Quantifying the Metabolism of Physical Economies: Part I: Methodological Overview

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  • Peter L. Daniels
  • Stephen Moore

Abstract

This article is the first of a two‐part series that describes and compares the essential features of nine existing “physical economy” approaches for quantifying the material demands of the human economy upon the natural environment. A range of material flow analysis (MFA) and related techniques is assessed and compared in terms of several major dimensions. These include the system boundary identification for material flow sources, extents, and the key socioinstitutional entities containing relevant driving forces, as well as the nature and detailing of system components and flow interconnections, and the comprehensiveness and types of flows and materials covered. Shared conceptual themes of a new wave of physical economy approaches are described with a brief overview of the potential applications of this broad family of methodologies. The evolving and somewhat controversial nature of the characteristics and role that define MFA is examined. This review suggests the need to specify whether MFA is a general metabolic flow measurement procedure that can be applied from micro to macrolevels of economic activity, or a more specific methodology aimed primarily at economy‐wide analyses that “map” the material relations between society and nature. Some alternative options for classifying MFA are introduced for discussion before a more detailed comparative summary of the key methodological features of each approach in the second part of this two‐part article. The review is presented (1) as a reference and resource for the increasing number of policy makers and practitioners involved in industrial ecology and the evaluation of the material basis of economies and the formulation of eco‐efficiency strategies, and (2) to provoke discussion and ongoing dialogue to clarify the many existing areas of discordance in environmental accounting related to material flows, and help consolidate the methodological basis and application of MFA.

Suggested Citation

  • Peter L. Daniels & Stephen Moore, 2001. "Approaches for Quantifying the Metabolism of Physical Economies: Part I: Methodological Overview," Journal of Industrial Ecology, Yale University, vol. 5(4), pages 69-93, October.
    • Handle: RePEc:bla:inecol:v:5:y:2001:i:4:p:69-93
    DOI: 10.1162/10881980160084042
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    1. Regueiro-Ferreira, Rosa María & Alonso-Fernández, Pablo, 2023. "Interaction between renewable energy consumption and dematerialization: Insights based on the material footprint and the Environmental Kuznets Curve," Energy, Elsevier, vol. 266(C).
    2. Magnus Andersson & Maria Ljunggren Söderman & Björn A. Sandén, 2019. "Adoption of Systemic and Socio-Technical Perspectives in Waste Management, WEEE and ELV Research," Sustainability, MDPI, vol. 11(6), pages 1-26, March.
    3. Joris Baars & Mohammad Ali Rajaeifar & Oliver Heidrich, 2022. "Quo vadis MFA? Integrated material flow analysis to support material efficiency," Journal of Industrial Ecology, Yale University, vol. 26(4), pages 1487-1503, August.
    4. Alonso-Fernández, Pablo & Regueiro-Ferreira, Rosa María, 2022. "Extractivism, ecologically unequal exchange and environmental impact in South America: A study using Material Flow Analysis (1990–2017)," Ecological Economics, Elsevier, vol. 194(C).
    5. Tsaples, G. & Papathanasiou, J., 2021. "Data envelopment analysis and the concept of sustainability: A review and analysis of the literature," Renewable and Sustainable Energy Reviews, Elsevier, vol. 138(C).
    6. Dotanhan Yeo & Kouassi Dongo & Adeline Mertenat & Phillipp Lüssenhop & Ina Körner & Christian Zurbrügg, 2020. "Material Flows and Greenhouse Gas Emissions Reduction Potential of Decentralized Composting in Sub-Saharan Africa: A Case Study in Tiassalé, Côte d’Ivoire," IJERPH, MDPI, vol. 17(19), pages 1-15, October.
    7. Haberl, Helmut & Gaube, Veronika & Díaz-Delgado, Ricardo & Krauze, Kinga & Neuner, Angelika & Peterseil, Johannes & Plutzar, Christoph & Singh, Simron J. & Vadineanu, Angheluta, 2009. "Towards an integrated model of socioeconomic biodiversity drivers, pressures and impacts. A feasibility study based on three European long-term socio-ecological research platforms," Ecological Economics, Elsevier, vol. 68(6), pages 1797-1812, April.
    8. Ta-Thi Huong & Liang Dong & Izhar Hussain Shah & Hung-Suck Park, 2021. "Exploring the Sustainability of Resource Flow and Productivity Transition in Vietnam from 1978 to 2017: MFA and DEA-Based Malmquist Productivity Index Approach," Sustainability, MDPI, vol. 13(21), pages 1-26, October.
    9. Pablo Alonso-Fernández & Rosa María Regueiro-Ferreira, 2021. "An Approximation to the Environmental Impact of Economic Growth Using the Material Flow Analysis: Differences between Production and Consumption Methods, Applied to China, United Kingdom and USA (1990," Sustainability, MDPI, vol. 13(10), pages 1-21, May.
    10. Schwarzlmüller, Elmar, 2009. "Human appropriation of aboveground net primary production in Spain, 1955-2003: An empirical analysis of the industrialization of land use," Ecological Economics, Elsevier, vol. 69(2), pages 282-291, December.
    11. Terje Andersen & Bjørn Jæger, 2021. "Circularity for Electric and Electronic Equipment (EEE), the Edge and Distributed Ledger (Edge&DL) Model," Sustainability, MDPI, vol. 13(17), pages 1-23, September.

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