[1] Giampietro M,Mayumi K. Multiple-scale integrated assessment of societal metabolism: Introducing the approach [J]. Population and Environment,2000,22(2): 109-154.
[2] Giampietro M,Mayumi K,Martinez-Alier J. Introduction to the special issues on societal metabolism: Blending new insights from complex system thinking with old insights from biophysical analyses of the economic process [J]. Population and Environment,2000,22(2): 97-108.
[3] Giampietro M,Mayumi K. Multiple-scale integrated assessment of societal metabolism: Integrating biophysical and economic representations across scales [J]. Population and Environment,2000,22(2): 155-210.
[4] Pastore G,Giampietro M,Mayumi K. Societal metabolism and multiple-scale integrated assessment: Empirical validation and examples of application [J]. Population and Environment,2000,22(2): 211-254.
[5] Giampietro M,Mayumi K,Bukkens G F. Multiple-scale integrated assessment of societal metabolism: An analytical tool to study development and sustainability [J]. Environment,Development and Sustainability,2001,3: 275-307.
[6] Giampietro M. The link between resources,technology and standard of living: a theoretical model [C]∥Freese L ed. Advances in Human Ecology. Greenwich CT: JAI Press,1997,6: 73-128.
[7] Giampietro M. Using hierarchy theory to explore the concept of sustainable development [J]. Futures,1994,26(6): 616-625.
[8] Giampietro M. Socioeconomic pressure,demographic pressure,environmental loading and technological changes in agriculture [J]. Agriculture,Ecosystems and Environment,1997,65: 201-229.
[9] Giampietro M. Socioeconomic constraints to farming with biodiversity [J]. Agriculture,Ecosystems and Environment,1997,62: 145-167.
[10] Giampietro M. Energy budget and demographic changes in socioeconomic systems [C]∥Ganslösser U,O'Connor M,eds. Life Science Dimensions of Ecological Economics and Sustainable Uses. Fürth: Filander Verlag,1998: 327-354.
[11] Giampietro M. Complexity and scales: The challenge for integrated assessments [C]∥Jan Rotmans,van Asselts M,eds. Scaling Issues in Integrated Assessment. Dordrecht,the Netherlands: Kluwer Academic Publishers,2001: 305-318.
[12] Giampietro M,Mayumi K. A dynamic model of socioeconomic systems based on hierarchy theory and its application to sustainability [J]. Structural Change and Economic Dynamics,1997,8(4): 453-469.
[13] Giampietro M. Multi-scale Integrated Analysis of Agroecosystems [M]. Boca Raton: CRC Press,2003.
[14] Giampietro M,Mayumi K. Complex systems and energy[C]∥Cleveland C ed. Encyclopedia of Energy. San Diego: Elsvier,2004.
[15] Giampietro M,Mayumi K,Munda G. Integrated asssessment and energy analysis: Quality assurance in multi-criteria analysis of sustainability [J]. Energy,2006,31: 59-86.
[16] Giampietro M,Pastore G. Multidimensional reading of the concept of rural intensification in China: The AMOEBA approach [J]. Critical Reviews in Plant Sciences,1999,18(3): 299-330.
[17] Giampietro M,Pastor,G. Biophysical roots of “enjoyment of life” according to Georgescu-Roegen's bioeconomic paradigm [C]∥Mayumi K,Gowdy J,eds. Bioeconomics and Sustainability: Essays in Honor of Nicholas Georgescu-Roegen. Edward Elgar Publisher,1999: 287-325.
[18] Giampietro M,Bukkens S G F,Pimental D. Labour productivity: A biophysical definition and assessment [J]. Human Ecology,1993,21(3): 229-260.
[19] Giampietro M,Bukkens S G F,Pimental D. Models of energy analysis to assess the performance of food systems [J]. Agricultural Systems,1994,45(1): 19-41.
[20] Giampietro M,Bukkens S G F,Pimental D. The link between resources,technology and standard of living: Examples and applications [C]∥Freese L,ed. Advances in Human Ecology. Greenwich,CT: JAI Press,1997,6: 129-199.
[21] Giampietro M,Pimental D. Assessment of the energetics of human labor [J]. Agriculture,Ecosystems and Environment,1990,32: 257-272.
[22] Giampietro M,Pimental D. Energy efficiency: Assessing the interaction between humans and their environment [J]. Ecological Economics,1991,4:117-144.
[23] Giampietro M,Mayumi K. Complex systems and energy [C]∥Cleveland C ed. Encyclopedia of Energy. San Diego: Elsevier,2004,1: 617-631.
[24] Giampietro M,Mayumi K,Ramos-Martin J. Can biofuels replace fossil energy fuels? A multi-scale integrated analysis based on the concept of societal and ecosystem metabolism: Part 1 [J]. International Journal of Transdisciplinary Research,2006,1(1):51-87.
[25] Haberl H. The global socioeconomic energetic metabolism as a sustainability problem [J]. Energy,2006,31: 87-99.
[26] Ulgiati S,Brown M,Giampietro M,et al. Advances in Energy Studies(3): Reconsidering the importance of Energy [C]∥Proceedings of the 3rd Biennial International Workshop. Servizi Grafici Editoriali,Padova,Italy,2003.
[27] Ramos-Martin J. Historical analysis of energy intensity of Spain: From a“conventional view” to an “integrated assessment” [J]. Population and Environment,2001,22(3): 281-313.
[28] Allen T F H. Hierarchy Theory: Perspective for Ecological Complexity [M]. Chicago: University of Chicago Press,1982.
[29] Ahl V,Allen T F H. Hierarchy Theory [M]. New York: Columbia University Press,1996.
[30] Georgescu-Roegen N. The Entropy Law and the Economic Process [M]. Cambridge,MA: Harvard University Press,1971.
[31] Georgescu-Roegen N. Energy and economic myths [J]. Southern Economic Journal,1975,41: 347-381.
[32] Mayumi K,Gowdy J,eds. Bioeconomics and Sustainability: Essays in Honor of Nicholas Georgescu-Roegen [M]. Cheltenham,UK: Edwasrd Elgar,1999.
[33] Odum H T. Environment,Power,and Society [M]. New York: Wiley-Interscience,1971.
[34] Odum H T. Environmental Accounting: Emergy and Decision Making [M]. New York: John Wiley,1996.
[35] Pimentel D,Pimentel M. Food,Energy and Society [M]. London: Edward Arnold,1979.
[36] Adams R N. The Eight Day: Social Evolution as the Self-organization of Energy [M]. Austin: University of Texas Press,1988.
[37] Smil V. General Energetics: Energy in the Biosphere and Civilization [M]. New York: John Wiley & Sons,1991.
[38] Costanza R. Embodied energy and economic valuation [J]. Science,1980,210: 1 219-1 224.
[39] Herendeen R A. Energy intensities in economic and ecological systems [J]. Journal of Theoretical Biology,1981,91: 607-620.
[40] Cleveland C J,Costanza R,et al. Energy and the U. S. economy: A biophysical perspective [J]. Science,984,225: 880-889.
[41] Watt K. Evidence of the role of energy resources in producing long waves in the US economy [J]. Ecological Economics,1989,1: 181-195.
[42] Kaufmann R. A biophysical analysis of the energy/real GDP ratio: Implications for substitution and technical change [J]. Ecological Economics,1992,6: 35-56.
[43] Zipf G K. National Unity and Disunity: The Nation as a Bio-social Organism [M]. Bloomington,IN: The Principia Press,1941.
[44] Calstein T. Time resources,society and ecology: On the capacity for human interaction in space and time in pre-industial societies[C]∥Lund Studies in Geography,Series B: Human Geography No.49. Lund: The Royal University of Lund,1982.
[45] Mayumi K. The Origins of Ecological Economics: The Bioeconomics of Georgescu-Roegen [M]. Landon: Routledge,2001.
[46] Ramos-Martin J,Giampietro M,Mayumi K. On China's exosomatic energy metabolism: An application of multi-scale integrated analysis of societal metabolism(MSIASM)[J]. Ecological Economics,2007,63(1):174-191.
[47] Falconi-Benitez F. Integrated assessment of the recent economic history of Ecuador [J]. Population and Environment,2001,22(3): 257-280.
[48] Gomiero T,Giampietro M.Multiple-scale integrated analysis of farming systems: The Thuong LO Commune(Vietnamese Uplands)case study [J]. Population and Environment,2001,22(3):315-352. |