This paper presents a theoretical model of withdrawing resources based on Odum's energy systems diagrams. According to the theory of a general pulsing principle, withdrawing resources changes in time shifting from the initial phases of growth and maturity to the phases of descent and low energy restoration. A simulation was performed in order to hypothesize potential future trends of withdrawing renewable and non-renewable resources and to show some aspects of their sustainability-unsustainability, respectively. According to Odum's theory, after the rapid growth of the last century, our civilization is living in a climax transition phase and it is now approaching a descent phase. A "way down" will be necessary due to the exhaustion of non-renewable and to the limited use of renewable resources. An integrated "renew-non-renew" model was developed by Odum to show how a "business as usual" trend will bring us to a drastic transition to a world that uses scarce renewable resources. Nevertheless, a different choice is possible, based on Daly's concept of quasi-sustainability that can inspire a new model. The latter argued that the exploitation of a non-renewable resource must be paired with a compensating investment in a renewable substitute. Our model shows that we can use non-renewable resources better to considerably improve our capacity of capturing renewable resources in the future. We present this as a necessary condition to address a sustainable environmental policy. © 2009 Elsevier B.V. All rights reserved.
Bastianoni, S., Pulselli, R.M., Pulselli, F.M. (2009). Models of withdrawing renewable and non renewable resources based on Odum’s energy systems theory and Daly’s quasi-sustainability principle. ECOLOGICAL MODELLING, 220(16), 1926-1930 [10.1016/j.ecolmodel.2009.04.014].
Models of withdrawing renewable and non renewable resources based on Odum’s energy systems theory and Daly’s quasi-sustainability principle
BASTIANONI, S.;PULSELLI, F. M.
2009-01-01
Abstract
This paper presents a theoretical model of withdrawing resources based on Odum's energy systems diagrams. According to the theory of a general pulsing principle, withdrawing resources changes in time shifting from the initial phases of growth and maturity to the phases of descent and low energy restoration. A simulation was performed in order to hypothesize potential future trends of withdrawing renewable and non-renewable resources and to show some aspects of their sustainability-unsustainability, respectively. According to Odum's theory, after the rapid growth of the last century, our civilization is living in a climax transition phase and it is now approaching a descent phase. A "way down" will be necessary due to the exhaustion of non-renewable and to the limited use of renewable resources. An integrated "renew-non-renew" model was developed by Odum to show how a "business as usual" trend will bring us to a drastic transition to a world that uses scarce renewable resources. Nevertheless, a different choice is possible, based on Daly's concept of quasi-sustainability that can inspire a new model. The latter argued that the exploitation of a non-renewable resource must be paired with a compensating investment in a renewable substitute. Our model shows that we can use non-renewable resources better to considerably improve our capacity of capturing renewable resources in the future. We present this as a necessary condition to address a sustainable environmental policy. © 2009 Elsevier B.V. All rights reserved.File | Dimensione | Formato | |
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https://hdl.handle.net/11365/19105
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