The application of the biological concept of metabolism (‘Stoffwechsel’) to social systems can be traced back to Marx who, influenced by Liebig and Moleschott, talked about the ‘metabolism between man and nature as mediated by the labour process’. Such a biophysical approach to the economy was not unusual at the turn of the nineteenth century but arguably did not form an integrated school of thought until recently (Martinez Alier and Schlupmann, 1987). This biological analogy grew from the observation that biological systems (organisms, but also higher-level systems such as ecosystems) and socio-economic systems (human societies, economies, companies, households, etc.) decisively depend on a continuous throughput of energy and materials in order to maintain their internal structure (Fischer-Kowalski and Haberl, 1993).
Today, a number of standardised methods exist for accounting for energy flow, material flow and land use aspects, provides the basis for empirical analyses of the biophysical structure of economies and for developing strategies towards more sustainable production and consumption patterns. These methods include material and energy flow analysis (MEFA), life cycle analysis (LCA), life cycle inventory (LCI) and life cycle impact assessment (LCIA), and also input-output analysis (IOA) (Weisz, 2006). Other instruments in the social metabolic toolkit include HANPP, EROI and Virtual Water, as well as related concepts such as ecological footprinting, and ecological rucksacks.
References
Fischer-Kowalski, M. and Haberl, H. (1993)‘Metabolism and colonisation. Modes of production and the physical exchange between societies and nature’, Innovation: The European Journal of Social Science Research, 6(4): 415–442.
Martínez-Alier , J. and Schlüpmann , K. (1987) Ecological Economics: Energy, Environment and Society , Oxford : Blackwell .
Weisz, H. (2006) ‘Accounting for raw material equivalents of traded goods. A comparison of input-output approaches in physical, monetary, and mixed units’, Social Ecology Working Paper 87, Vienna: IFF Social Ecology.
For further reading
Ayres, Robert U. and Kneese, Allen V. (1969) ‘Production, Consumption and Externalities’, American Economic Review 59(3), pp. 282-297
Ekvall, T. & Finnveden, G. (2001) ’Allocation in ISO 14041 – a critical review’, Journal of Cleaner Production 9(3), pp. 197-208.
Fischer-Kowalski, Marina and Weisz, Helga (1999) ‘Society as a hybrid between material and symbolic realms – towards a theoretical framework of society-nature interaction’, Advances in Human Ecology 8, pp. 215-251
Haas, W, Hertwich, E, Hubacek, K, Korytarova, K, Ornetzeder, M, Weisz, H (2005) The Environmental Impacts of Consumption: Research Methods and Driving Forces, IIASA Interim Report IR-05-027 [April 2005, 96 pp]
Haberl, H., M. Fischer-Kowalski, F. Krausmann, H. Weisz, V. Winiwarter (2004) ‘Progress towards sustainability? What the conceptual framework of material and energy flow accounting (MEFA) can offer’, Land Use Policy 21(3), 199-213.
This glossary entry is based on contributions by Willi Haas, Simron Jit Singh and Annabella Musel
EJOLT glossary editors: Hali Healy, Sylvia Lorek and Beatriz Rodríguez-Labajos
The project ENVJUSTICE has received funding from the European Research Council (ERC) under the European Union’s Horizon 2020 research and innovation programme (grant agreement No. 695446)