Construction ecology and metabolism: natural system analogues for a sustainable built environment: Fid-Bau Portal

Construction ecology and metabolism: natural system analogues for a sustainable built environment

Kibert, Charles J. / Sendzimir, Jan / Guy, Brad

Applying the principles of sustainability to human activities ultimately must result in the scrutiny of all sectors of economic activity to assess the changes required to provide for a high quality of life for future generations. A high priority for evaluation, in the light of its impacts on environmental quality and resources, is industrial activity in general and the construction industry specifically. The construction sector consumes 40% of all extracted materials in the USA, and accounts for 30% of national energy consumption for its operation. The sustainability of this industrial sector is dependent on a fundamental shift in the way resources are used, from non-renewables to renewables, from high levels of waste to high levels of reuse and recycling, and from products based on lowest first cost to those based on life-cycle costs and full cost accounting, especially as applied to waste and emissions from the industrial processes that support construction activity. The emerging field of industrial ecology provides some insights into sustainability in the built environment or sustainable construction. Construction, like other industries, would benefit from observing the metabolic behaviour of natural systems where sustainability is built in. This paper describes a view of the construction industry based on natural systems and industrial ecology for the purpose of beginning the discovery of how to shift the construction industry and its supporting materials industries onto a path much closer to the ideals of sustainability.