Abstract
The objective of this study is to determine the nature of household consumption of goods and services and its implications in terms of differences in carbon emissions between developed and developing countries. In this study, data on per capita consumption expenditure (PCCE) for 71 countries (37 developed and 34 developing) and 12 consumption categories were used. The average PCCE by each consumption category over both developed and developing countries was estimated for the years 2004–2011 and compared with that of 1995. The twelve consumption categories were ranked (for developed and developing countries) according to CO2 emission intensities (kg/USD) as well as the percentage share of each category in total PCCE (in USD) in 1995 and for the period 2004–11. The two sets of ranks were matched to compare the implications of household consumption on carbon emissions. The results indicate that there are similarities as well as differences in terms of the burden of responsibility of causing CO2 emissions between consumption categories. While ‘housing’ and ‘transport’ occupy first and third places, respectively, for both groups, the second place is occupied by ‘food and non-alcoholic beverages’ in developed and ‘clothing and footwear’ in developing countries. Also, consumption categories ‘communication’ in developed and ‘education’ in developing countries are lowest emitting categories. The trends also revealed that changes in the consumption pattern were more significant in developing countries, both in terms of the rate of growth of PCCE and changes in the percentage share of different consumption categories in total PCCE.
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- 1.
Emissions by India and the USA have been compared in detail in the next phase of this research and are not within the scope of this paper.
- 2.
1 kt = 106 kg and PPP conversion factor for the year 2004 was $1 = Rs.14.47.
References
Büchs M, Schnepf SV (2013) Who emits most? Associations between socio-economic factors and UK households’ home energy, transport, indirect and total CO2 emissions. Ecol Econ 90:114–123
Cohen C, Lenzen M, Schaeffer R (2005) Energy requirements of households in Brazil. Energy Policy 33(4):555–562
Das A, Paul SK (2014) CO2 emissions from household consumption in India between 1993 and 94 and 2006–07: a decomposition analysis. Energy Economics 41:90–105
Euromonitor International (2012) World consumer income and expenditure patterns 2013
Gough I, Abdallah S, Collins JR, Smith C (2012) The distribution of total greenhouse gas emissions by households in UK, and some implications for social policy
Grunewald N, Harteisen M, Lay J, Minx J, Renner S (2012) The carbon footprint of Indian households. http://www.iariw.org/papers/2012/GrunewaldPaper.pdf
Herendeen RA (1978) Total energy cost of household consumption in Norway, 1973. Energy 3(5):615–630
Ivanova D, Stadler K, Steen-Olsen K, Wood R, Vita G, Tukker A, Hertwich EG (2016) Environmental impact assessment of household consumption. J Ind Ecol 20(3):526–536
IPCC (2007) Climate change 2007: synthesis report. Contribution of Working Groups I, II and III to the Fourth Assessment Report of the Intergovernmental Panel on Climate Change
Kerkhof AC, Nonhebel S, Moll HC (2009) Relating the environmental impact of consumption to household expenditures: an input–output analysis. Ecol Econ 68:1160–1170
Lenzen M, Wier M, Cohen C, Hayami H, Pachauri S, Schaeffer R (2006) A comparative multivariate analysis of household energy requirements in Australia, Brazil, Denmark, India and Japan. Energy 31(2–3):181–207
Liu L, Wu G, Wang J, Wei Y (2011) China’s carbon emissions from urban and rural households during 1992–2007. J Clean Prod 19:1754–1762
Lorek S, Spangenberg JH (2001) Environmentally sustainable household consumption: from aggregate environmental pressures to indicators for priority fields of action. Wuppertal Institute for Climate, Environment and Energy
Nejat P, Jomehzadeh F, Taheri MM, Gohari M, Majid MZA (2015) A global review of energy consumption, CO2 emissions and policy in the residential sector (with an overview of the top ten CO2 emitting countries). Renew Sustain Energy Rev 43:843–862
Nijdam DS, Wilting HC, Goedkoop MJ, Madsen J (2005) Environmental load from Dutch private consumption: how much damage takes place abroad. J Ind Ecol 9:147–168
OECD (2002) Towards sustainable household consumption? Trends and policies in OECD countries
OECD (2008) Household behaviour and the environment: reviewing the evidence, pp 1–264
Pachauri S, Spreng D (2002) Direct and indirect energy requirements of households in India. Energy Policy 30:511–523
Reinders A, Vringer K, Blok K (2003) The direct and indirect energy requirement of households in the European Union. Energy Policy 31:139–153
Satterthwaite D (2009) The implications of population growth and urbanization for climate change. Environ Urbanization 21(2):545–567
Steen-Olsen K, Wood R, Hertwich EG (2016) The carbon footprint of Norwegian household consumption 1999–2012. J Ind Ecol 20:582–592
Stern N (2007) The economics of climate change: the stern review. Cambridge University Press
Shui B, Dowlatabadi H (2005) Consumer lifestyle approach to us energy use and the related CO2 emissions. Energy Policy 33:197–208
UNDESA (2007) Sustainable consumption and production: promoting climate-friendly household consumption patterns. Division for Sustainable Development, Policy Integration and Analysis Branch
UNDP (2013) The rise of the south: human progress in a diverse world. Human Development Report
UNEP (2010) Assessing the environmental impacts of consumption and production: priority products and materials. In: Hertwich E, van der Voet E, Suh S, Tukker A, Huijbregts M, Kazmierczyk P, Lenzen M, McNeely J, Moriguchi Y (eds) A report of the Working Group on the Environmental Impacts of Products and Materials to the International Panel for Sustainable Resource Management
Wang Z, Yang L (2014) Indirect carbon emissions in household consumption: evidence from the urban and rural area in China. J Clean Prod 78:94–103
Weber CL (2008) Trade, consumption and climate change: an input-output study of the United States
Wiedmann T, Min J, Barrett J, Wackernagel M (2006) Allocating ecological footprints to final consumption categories with input–output analysis. Ecol Econ 56:28–48
Xu X, Han L, Lv X (2016) Household carbon inequality in urban China, its sources and determinants. Ecol Econ 128:77–86
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Gupta, P., Dutta, M. (2018). Individual Consumption and Its Effects on Carbon Emissions: A Comparison of Developed and Developing Countries. In: Gautam, A., De, S., Dhar, A., Gupta, J., Pandey, A. (eds) Sustainable Energy and Transportation . Energy, Environment, and Sustainability. Springer, Singapore. https://doi.org/10.1007/978-981-10-7509-4_14
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