References for Journalarticle economics

Please note: the authoritative source for references in this article is the according PDF file.

Number of references: 42

Adriaanse, A.et_al. (1997). Resource Flows: the Material Basis of Industrial Economies. World Resources Institute, Washington, D.C.

André, F.J., and Cerdá, E. (2006). On the Dynamics of Recycling and Natural Resources. Environmental Resource Economic, 33(2):199-221.

Ayres, R.U. (1989). Industrial Metabolism. In: Technology and Environment, ed. by J.H. Ausubel, and H.E. Sladovich, pp. 23-49, National Academy Press, Washington DC.

Ayres, R.U., and Simonis, U.E. (1994). Industrial Metabolism: Restructuring for Sustainable Development. United Nations University Press, Tokyo.

Ayres, R.U., and Ayres, L.W. (1996). Industrial Ecology: Towards Closing the Materials Cycle. Edward Elgar, Cheltenham/Brookfield.

Ayres, R.U. (1998). Eco-thermodynamics: Economics and the Second Law. Ecological Economics, 26(2):189-209.

Ayres, R.U. (1999). Materials, Economics and the Environment. In: Handbook of Environmental and Resource Economics, ed. by J. van den Bergh, pp. 867-894, Edward Elgar, Cheltenham/Northampton, MA.

Ayres, R.U. (1999). The Second Law, the Fourth Law, Recycling and Limits to Growth. Ecological Economics, 29(3):473-483.

Bianciardi, C.E.et_al. (1993). Complete Recycling of Matter in the Framework of Physics, Biology and Ecological Economics. Ecological Economics, 8(1):1-5.

Bianciardi, C.E.et_al. (1996). Response: The 'Recycle of Matter' Debate. Physical Principles versus Practical Impossibility. Ecological Economics, 19(3):195-196.

Bidard, C., and Erreygers, G. (2001). The Corn-Guano Model. Metroeconomica, 52(3):243-253.

Bouman, M._et (2000). Material Flows and Economic Models: An Analytical Comparison of SFA, LCA and Partial Equilibrium Models. Ecological Economics, 32(2):195-216.

Cleveland, C., and Ruth, M. (1997). When, Where and by How Much Do Biophysical Limits Constrain the Economic Process? A Survey of Nicholas Georgescu-Roegen's Contribution to Ecological Economics. Ecological Economics, 22(2):203-223.

Cogoy, M. (1999). The Consumer as a Social and Environmental Actor. Ecological Economics, 28(3):385-398.

Converse, A.O. (1996). On Complete Recycling. Ecological Economics, 19(2):193-194.

Converse, A.O. (1997). On Complete Recycling 2. Ecological Economics, 20(1):1-2.

Craig, P.P. (2001). Energy Limits on Recycling. Ecological Economics, 36(3):373-384.

Di_Vita, G. (1997). Macroeconomic Effects of the Recycling of Waste Derived from Imported Non-renewable Raw Materials. Resources Policy, 23(4):179-186.

Di_Vita, G. (2001). Technological Change, Growth and Waste Recycling. Energy Economics, 23(5):549-567.

Eichner, T., and R.Pethig (1999). Product Design and efficient Management of Recycling and Waste Treatment. Universität Siegen, Fachbereich Wirtschaftswissenschaften, Wirtschaftsinformatik und Wirtschaftsrecht, Volkswirtschaftliche Diskussionsbeitraege 76-99.

Eichner, T. (2005). Imperfect Competition In The Recycling Industry. Metroeconomica, 56(1):1-24.

Ekins, P. (2003). Identifying Critical Natural Capital: Conclusions about Critical Natural Capital. Ecological Economics, 44(2-3):277-292.

Ekins, P., Folke, C., and De_Groot, R. (2003). Identifying Critical Natural Capital. Ecological Economics, 44(2-3):159-163.

Erkman, S. (1997). Industrial Ecology: An Historical View. Journal of Cleaner Production, 5(1-2):1-10.

Fischer-Kowalski, M. (1998). Society’s Metabolism. The Intellectual History of Materials Flow Analysis, Part I: 1860-1970. Journal of Industrial Ecology, 2(1):61-78.

Fischer-Kowalski, M., and Hüttler, W. (1998). Society's Metabolism: The Intellectual History of Materials Flow Analysis, Part II: 1970-1998. Journal of Industrial Ecology, 2(4):107-136.

Highfill, J., and McAsey, M. (2001). Landfilling Versus "Backstop'' Recycling When Income Is Growing. Environmental & Resource Economics, 19(1):37-52.

Holloway, S. (2001). Storage of Fossil Fuel-Derived Carbon Dioxide beneath the Surface of the Earth. Annual Review of Energy and the Environment, 26(1):145-166.

Hosoda, E. (2001). Recycling and Landfilling in a Dynamic Sraffian Model: Application of the Cornguano Model to a Waste Treatment Problem. Metroeconomica, 52(3):268-281.

Huhtala, A. (1999). Optimizing Production Technology Choices: Conventional Production vs. Recycling. Resource and Energy Economics, 21(1):1-18.

Lucas, R.Jr. (1988). On the Mechanics of Economic Development. Journal of Monetary Economics, 22(1):3-42.

Nakamura, S. (1999). An Interindustry Approach to Analyzing Economic and Environmental Effects of the Recycling of Waste. Ecological Economics, 28(1):133 - 145.

Reijnders, L. (1998). The Factor X Debate. Journal of Industrial Ecology, 2(1):13-22.

Romer, P.M. (1989). Human Capital And Growth: Theory and Evidence. National Bureau of Economic Research, NBER Working Papers 3173.

Ruth, M. (1993). Integrating Economics, Ecology and Thermodynamics. Kluwer, Dordrecht.

Ruth, M. (1999). Physical Principles and Environmental Economic Analysis. In: Handbook of Environmental and Resource Economics, ed. by J.C.J.M. van den Bergh, pp. 855-866, Edward Elgar, Cheltenham/Northampton, Mass.

Schmidt-Bleek, F. (1993). MIPS: A Universal Ecological Measure. Fresenius Environmental Bulletin, 2(6):306-311.

Schmidt-Bleek, F. (1997). Wieviel Umwelt braucht der Mensch? Faktor 10 – das Mass für ökologisches Wirtschaften. Birkhäuser Verlag, Basel/Berlin/Boston.

Smith, V.L. (1972). Dynamics of Waste Accumulation: Disposal Versus Recycling. The Quarterly Journal of Economics, 86(4):600-616.

Van_den_Bergh, J.C.J.M. (1996). A Multisectoral Growth Model with Materials Flows and Economic-Ecological Interactions. Ecological Economics and Sustainable Development. Theory, Methods, Applications. Edward Elgar, Cheltenham/Brookfields.

Washida, T. (1998). Material Dissipative Conditions and the Impossibility of Complete Recycling. Structural Change and Economic Dynamics, 9(3):271-288.

Weizsäcker, E.U.von_et_al. (1997). Factor Four: Doubling Wealth, Halving Resource Use: The New Report to the Club of Rome. Earthscan, London.