This article presents the accounts of China’s Total Material Requirement (TMR) during 1995–2008, which were compiled under the guidelines of Eurostat (2009) and with the Hidden Flow (HF) coefficients developed by the Wuppertal Institute. Subsequently, comparisons with previous studies are conducted. Using decomposition, we finally examine the influential factors that have changed the TMR of China. The main findings are the following: (1) During 1995–2008 China’s TMR increased from 32.7 Gt to 57.0 Gt. Domestic extraction dominated China’s TMR, but a continuous decrease of its shares can be observed. In terms of material types, excavation constituted the biggest component of China’s TMR, and a shift from biomass to metallic minerals is apparent; (2) Compared with two previous studies on China’s TMR, the amounts of TMR in this study are similar to the others, whereas the amounts of the used part of TMR (Direct Material Input, DMI) are quite different as a result of following different guidelines; (3) Compared with developed countries, China’s TMR per capita was much lower, but a continuous increase of this indicator can be observed; (4) Factors of Affluence (A) and Material Intensity (T), respectively, contributed the most to the increase and decrease of TMR, but the overall decrease effect is limited.
References
[1]
United Nations Environment Programme (UNEP). Decoupling Natural Resource Use and Environmental Impacts from Economic Growth, A Report of the Working Group on Decoupling to the International Resource Panel; Fischer-Kowalski, M., Swilling, M., von Weizs?cker, E.U., Ren, Y., Moriguchi, Y., Crane, W., Krausmann, F., Eisenmenger, N., Giljum, S., Hennicke, P., Romero Lankao, P., Siriban Manalang, A., Eds.; UNEP: Paris, France, 2011.
[2]
Wang, H.; Yue, Q.; Hashimoto, S.; Moriguchi, Y.; Lu, Z. Decoupling analysis of four selected countries: China, Russia, Japan and the USA during 2000–2007. J. Ind. Ecol. 2013, 17, 618–629, doi:10.1111/jiec.12005.
[3]
Statistical Office of the European Communities (EUROSTAT). Economy–Wide Material Flow Accounts and Derived Indicators: A Methodological Guide; EUROSTAT: Luxembourg, 2011.
[4]
Bringezu, S.; Moriguchi, Y. Material ?ow analysis. In A Handbook of Industrial Ecology; Ayres, R.U., Ayres, L., Eds.; Edward Elgar Publishers: Cheltenham, UK, 2002.
[5]
Fischer-Kowalski, M.; Krausmann, F.; Giljum, S.; Lutter, S.; Mayer, A.; Bringezu, S.; Moriguchi, Y.; Schuetz, H; Schandl, H.; Weisz, H. Methodology and indicators of economy-wide material flow accounting. J. Ind. Ecol. 2011, 15, 855–876, doi:10.1111/j.1530-9290.2011.00366.x.
[6]
Bringezu, S.; Schuetz, H.; Moll, S. Rationale for and interpretation of economy-wide materials flow analysis and derived indicators. J. Ind. Ecol. 2003, 7, 43–64, doi:10.1162/108819803322564343.
[7]
Adriaanse, A.; Bringezu, S.; Hammond, A.; Moriguchi, Y.; Rodenburg, E.; Rogich, D.; Schuetz, H. Resource Flows: The Material Base of Industrial Economics; World Resource Institute: Washington, DC, USA, 1997.
[8]
Bringezu, S.; Schuetz, H. Total Material Requirement of the European Union, Technical Part; European Environment Agency: Copenhagen, Denmark, 2001.
[9]
Schmidt-Bleek, F. Wieviel Umwelt Braucht Der Mensch? MIPS, Das Mass Fuer Oekologisches Wirtschaften; Birkhauser: Berlin, Germany, 1994.
[10]
Gerhold, S.; Petrovic, B. Material Flow Accounts, Material Balance and Indicators, Austria 1960–1997; Eurostat Working Papers 2/ 2000/B/6; Office of Eurostat: Luxembourg, 2000.
[11]
Chen, X.; Qiao, L. Material flow analysis of Chinese economic-environmental system. J. Nat. Resour. 2000, 15, 17–23.
[12]
Liu, J. Material Flow Account and Resource Efficiency Revolution of China. Master’s Thesis, Northeastern University, Shenyang, China, 2004.
[13]
Xu, M.; Zhang, T. Material ?ows and economic growth in developing China. J. Ind. Ecol. 2007, 11, 121–140.
[14]
Scasny, M.; Kovanda, J.; Hak, T. Material ?ow accounts, balances and derived indicators for the Czech Republic during the 1990s: Results and recommendations for methodological improvement. Ecol. Econ. 2003, 45, 41–57, doi:10.1016/S0921-8009(02)00260-4.
[15]
Pedersen, O.G. Physical Input–Output Tables for Denmark: Products and Materials 1990,Air Emissions 1990–92; Statistics Denmark: Kobenhavn, Denmark, 1999.
[16]
Bringezu, S.; Schuetz, H. How to measure the ecological sustainability of an economy? A contribution of materials flow accounting for the example of Germany. In New Approaches to Environmental Statistics; Bringezu, S., Berlin, S., Eds.; Birkh?user Verlag, Basel, Switzerland, 1995.
[17]
Bringezu, S. Industrial ecology: Material flow analyses for sustainable materials and resource management in Germany and Europe. In Handbook of Industrial Ecology; Ayres, R.U., Ayres, L., Eds.; Edward Elgar Publishers: Cheltenham, UK, 2002; pp. 288–300.
[18]
Statistics Finland. Finland’s Natural Resources and the Environment 1999; Statistics Finland: Helsinki, Finland, 1999.
[19]
De Marco, O.; Lagioia, G.; Mazzacane, E.P. Material flow analysis of the Italian economy. J. Ind. Ecol. 2000, 4, 55–70, doi:10.1162/108819800569807.
[20]
Moriguchi, Y. Material flow analysis and industrial ecology studies in Japan. In Handbook of Industrial Ecology; Ayres, R.U., Ayres, L., Eds.; Edward Elgar Publishers: Cheltenham, UK, 2002.
[21]
Matthews, E.; Bringezu, S.; Fischer-Kowalski, M.; Huttller, W.; Kleijn, R.; Moriguchi, Y.; Ottke, C.; Rodenburg, E.; Rogich, D.; Schandl, H.; et al. The Weight of Nations: Material Out?ows from Industrial Economies; World Resources Institute: Washington, DC, USA, 2000.
[22]
Schuetz, H.; Welfens, M.J. Sustainable Development by Dematerialization in Production and Consumption—Strategy for the New Environmental Policy in Poland; Wuppertal Institute: Wuppertal, Germany, 2000.
[23]
Arto, I. Using total material requirement to reduce the global environmental burden. J. Ind. Ecol. 2009, 13, 775–790, doi:10.1111/j.1530-9290.2009.00172.x.
[24]
Isacsson, A.; Jonson, K.; Linder, I. Material Flow Accounts, DMI and DMC for Sweden 1987–1997; Working Papers 2/2000/B/2; EUROSTAT: Luxembourg, 2000.
[25]
Bringezu, S.; Schuetz, H. Material Use Indicators for the European Union,1980–1997: Economy-Wide Material Flow Accounts and Balances and Derived Indicators of Resource Use; Working paper 2/2001/B/2; EUROSTAT: Luxembourg, 2001.
[26]
Schandl, H.; Schulz, N. Using Material Flow Accounting to Operationalize the Concept of Society’s Metabolism. A Preliminary MFA for the United Kingdom for the Period of 1937–1997; ISER Working Papers Number 2000-3; Office of Institute for Social and Economic Research: Essex, UK, 2000.
[27]
Rogich, D.; Matos, G.R. Material flow accounts: The United States and the world. In Handbook of Industrial Ecology; Ayres, R.U., Ayres, L., Eds.; Edwar Elgar Publishers: Cheltenham, UK, 2002; pp. 260–287.
[28]
Statistical Office of the European Communities (EUROSTAT). Economy-Wide Material ?ow Accounting: A Compilation Guide; European Statistical Office: Luxembourg, 2007.
[29]
Statistical Office of the European Communities (EUROSTAT). Economy-Wide Material ?ow Accounts: Compilation Guidelines for Reporting to the 2009 EUROSTAT Questionnaire; European Statistical Office: Luxembourg, 2009.
[30]
United Nations Commodity Trade Statistics Database Home Page. Available online: http://comtrade.un.org/ (accessed on 11th November 2010).
[31]
Dittrich, M.; Bringezu, S. The physical dimension of international trade. Part 1: Direct global flows between 1962 and 2005. Ecol. Econ. 2010, 69, 1838–1847, doi:10.1016/j.ecolecon.2010.04.023.
[32]
Hu, M.; van der Voet, E.; Huppes, G. Dynamic material flow analysis for strategic construction and demolition waste management in Beijing. J. Ind. Ecol. 2010, 14, 440–456, doi:10.1111/j.1530-9290.2010.00245.x.
[33]
Bringezu, S.; Schuetz, H.; Steger, S.; Baudisch, J. International comparison of resource use and its relation to economic growth: The development of total material requirement, direct material inputs and hidden flows and the structure of TMR. Ecol. Econ. 2004, 51, 97–124, doi:10.1016/j.ecolecon.2004.04.010.
[34]
Hoffrén, J.; Luukkanen, J.; Kaivo-Oja, J. Decomposition analysis of Finnish material flows: 1960–1996. J. Ind. Ecol. 2000, 4, 105–125, doi:10.1162/10881980052541972.
[35]
Hashimoto, S.; Matsui, S.; Matsuno, Y.; Nansai, K.; Murakami, S.; Moriguchi, Y. What factors have changed Japanese resource productivity? A decomposition analysis for 1995–2002. J. Ind. Ecol. 2008, 12, 657–668, doi:10.1111/j.1530-9290.2008.00072.x.
[36]
Commoner, B. The environmental cost of economic growth. In Population, Resources, Environment; Ridker, R.G., Ed.; U.S. Government Printing Office: Washington, DC, USA, 1972; pp. 339–363.
[37]
Graedel, T.; Allenby, B. Industrial Ecology; Prentice Hall: Englewood Cliffs, NJ, USA, 1995.
[38]
Ang, B.W.; Zhang, F.Q. A survey of index decomposition analysis in energy and environmental studies. Energy 2000, 25, 1149–1176.
[39]
Sun, J.W. Changes in energy consumption and energy intensity: A complete decomposition model. Energy Econ. 1998, 20, 85–100, doi:10.1016/S0140-9883(97)00012-1.
[40]
FAO Statistical Databases Home Page. Available online: http://faostat.fao.org (accessed on 20th January 2011).
[41]
National Bureau of Statistics of China. China Statistical Yearbook 1996–2009; China Statistics Press: Beijing, China, 1996.
[42]
Wirsenius, S. Human Use of Land and Organic Materials: Modeling the Turnover of Biomass in the Global Food System. Master’s Thesis, Chalmers University of Technology, Gothenburg, Sweden, 2000.
[43]
Penman, J.; Gytarsky, M.; Hiraishi, T.; Krug, T.; Kruger, D.; Pipatti, R.; Buendia, L.; Miwa, K.; Ngara, T.; Tanabe, K.; et al. Good Practice Guidance for Land Use, Land–Use Change and Forestry; Institute for Global Environmental Strategies: Kanagawa Prefecture, Japan, 2003.
[44]
Editing Committee of China Steel Industry Yearbook. China Steel Industry Yearbooks 1996–2009; China Metallurgy Press: Beijing, China, 1996–2009.
[45]
Editing Committee of China Nonferrous Metal Industry Yearbook. China Nonferrous Metal Industry Yearbooks 1996–2009; China Statistics Press: Beijing, China, 1996–2009.
[46]
Ministry of Land and Resources of China. China Land and Resources Statistical Yearbooks 1996–2009; China Geology Press: Beijing, China, 1999–2009.
[47]
PCA (2007): Cement and Concrete Basics. Available online: http://www.cement.org/basics/concretebasics_concretebasics.asp (accessed on 25th January 2011).
[48]
Steger, S.; Fekkak, M.; Erren, M.; Lischka, S.; Bringezu, S.; Scharp, M. Determining the Current Stock Size and the Material Memory of the Reference Systems; Office of Wuppertal Institute for Climate, Environment and Energy: Wuppertal, Germany, 2009.
[49]
Ministry of Transport of China. Available online: http://www.moc.gov.cn/zhuzhan/tongjigongbao/hangyenianjian/201009/t20100927_844402.html (accessed on 20th January 2011).
[50]
Editing Committee of China Construction Materials Industry Yearbook. China Construction Materials Industry Yearbooks 1996–2009; China Construction Materials Industry Press: Beijing, China, 1996–2009.
[51]
Editing Committee of China Energy Statistical Yearbook. China Energy Statistical Yearbooks 1996–2009; China Statistics Press: Beijing, China, 1996–2009.
[52]
Editing Committee of China Water Resources Yearbook. China Water Resources Yearbooks 1996–2009; China Statistics Press: Beijing, China, 1996–2009.
[53]
The World Bank. World Development Indicators. Available online: http://data.worldbank.org/data-catalog/world-development-indicators (accessed on 12 November 2010).
[54]
Wang, H.; Hashimoto, S.; Moriguchi, Y.; Yue, Q.; Lu, Z. Resource use in growing China: Past trends, influence factors and future demand. J. Ind. Ecol. 2012, 16, 481–492, doi:10.1111/j.1530-9290.2012.00484.x.
