Constraints on dematerialisation and allocation of natural capital along a sustainable growth path: Reply to Jorge Ares (original) (raw)

Dematerialization, growth theory and the environment

2001

This paper aims at providing a unifying reading to the mainstream economic literature on the environmental limits to growth since the 70s. The different analytical structures are described, first the neoclassical growth theory framework (Dasgupta-Solow-Stiglitz, 1974), then the endogenous growth archetypal models. The general requirement for unlimited growth turns out to be a progressive de-linking of income from its material basis. In particular, in a renewable resource context, material throughput has to be bounded from above. Rich countries still show increasing trends in total material use. Whether the whole world economy will be able to invert this trend is an open question.

Dematerialization , growth theory and the environment 27 / 08 / 2001 Tommaso Luzzati

This paper aims at providing a unifying reading to the mainstream economic literature on the environmental limits to growth since the 70s. The different analytical structures are described, first the neoclassical growth theory framework (Dasgupta-Solow-Stiglitz, 1974), then the endogenous growth archetypal models. The general requirement for unlimited growth turns out to be a progressive de-linking of income from its material basis. In particular, in a renewable resource context, material throughput has to be bounded from above. Rich countries still show increasing trends in total material use. Whether the whole world economy will be able to invert this trend is an open question.

A Theoretical Essay on Sustainability and Environmentally Balanced Output Growth: Natural Capital, Constrained Depletion of Resources and Pollution Generation

The fact that today's activities are imposing a heavy burden on the earth's capacity has led to an increasing interest in environmental issues. It is emphasized that rapid production growth has exhausted natural resources and polluted the environment. The objective of this essay is to offer a clear definition of natural capital, connect it to a qualitative concept of sustainability and, supported by two analytical models and a set of studies on related environmental literature, to show that sustainability can be attained via imposition of controls over production processes that use depletable natural resources and generate pollution. The methodology used contemplates an integrative approach combining a qualitative (seeking definitions)-analytical (appraising models) apparatus to reach a new conceptual perspective to conceive sustainability. As the main essay's contribution, it is showed that sustainability can be reached if compensation is allowed for, i.e., stocks of renewable being augmented as production depletes the stocks of nonrenewable natural resources. Moreover, that result is possible even considering nondecreasing output production, an important finding to contrast with the current environmentally based output growth literature, which asserts that slowing down output production is the only way to obtain sustainability.

The Role of Material/Energy Resources and Dematerialisation in Economic Growth Theories

2000

The nature of energy and material resources in an endogenous growth theory framework is clarified. This involves three modifications of the conventional theory. Firstly, multiple feedback mechanisms or “growth engines” are identified. Secondly, a production function distinguishes between resource use, technical efficiency and value creation. Thirdly, the impact of the cost of production through demand on growth is accounted for. A formal model is analytically solved under a condition of a constant growth rate. Given model complexity, numerical experiments are performed as well, providing relevant insights to the academic and political debates on ‘environmental Kuznets curves’ and ‘dematerialization’.

Sustainable growth with environmental spillovers

Journal of Economic Behavior & Organization, 2005

In this paper, we apply the canonical approach of Ramsey, Koopmans, and Diamond to the problem of optimal a nd intertemporally-equitable growth with a non-renewable resource constraint and show that the solution is sustainable. The model is extended to cases involving environmental amenities and disamenities and renewable resources. The solutions equivalently solve the problem of maximizing net national product adjusted for depreciation in natural capital and environmental effects, which turns out to be both sustainable and constant even without technical change.

Feasibility and optimality of sustainable growth under materials balance

Journal of Economic Dynamics and Control, 2007

Pollution from consumption and production is an inevitable part of economic processes. We employ a materials balance approach and develop an endogenous growth theory, with recycling activity, to examine the evolution of the economic and environment systems. This paper provides feasibility and optimality conditions for sustainable economic growth with rising environmental quality. The fundamental condition of feasibility is that the flow of natural resources, which eventually returns to the environment as waste and pollution, has a negative growth rate in the long run. r

Economic Growth and Environmental Degradation in a Global Context

Environment, Development and Sustainability, 2006

The overall aim of this study is to analyse the relationship between economic growth and environmental degradation with particular reference to carbon emissions and deforestation. The analysis is based upon the Environmental Kuznets Curve (EKC) model, which posits an inverted-U relationship between incomes per capita and environmental quality. In particular, the present analysis tries to take into account the current process of globalisation with the aim of defining the impact of the progressive global economic integration on the relationship between economic growth and environmental degradation.The study confirms that there is an inverted-U relationship between income growth and carbon emissions, while the relationship results less clear in the case of forest change. The inclusion of globalisation in the analysis confirms similar results and suggests a direct link between an increase in the rate of integration with the global economy and a worsening in terms of environmental degradation.

Natural capital and sustainability

Ecological Economics, 2000

This paper develops and rigorously analyses a model describing the optimal use of natural capital in a utilitarian framework. Natural capital is treated as an aggregate including exhaustibles, renewables and 'environmentals', performing several functions. It is found that it converges to a steady-state in which it is kept constant by simultaneous investments and use.

Balanced Growth Path in a Capital-Resource Growth Model

2012

We study a growth model with environmental externalities where a single consumption good is obtained using a renewable resource in combination with physical capital. Both inputs are essential for production and technical substitutes. In this context we analyze the issues of sustainability, long-run, associated with the competitive equilibrium solution trajectories. We show that long-run growth and sustainability are both compatible in a natural resource based production economy.