A review of household carbon footprint: measurement methods, evolution and emissions assessment

Jiaxin Du; Zhenzhen Zhong; Qiaoling Shi; Ye Cao; Chuqiao Yang; Liukun Wang

doi:10.20517/cf.2024.08

Carbon Footprints ›› 2024, Vol. 3 ›› Issue (3) :11 DOI: 10.20517/cf.2024.08

Original Article

A review of household carbon footprint: measurement methods, evolution and emissions assessment

Author information +

History +

PDF

Abstract

The escalating concern over environmental issues stemming from global climate change is noteworthy. With the rapid pace of urbanization and industrialization, residential consumption has increasingly contributed to carbon emissions, posing an environmental challenge that demands attention. This paper presents a comprehensive overview of measurement methods, evolution, and assessment of household carbon footprints. It delves deeply into the concept of carbon footprints and measurement techniques, and examines the impacts of economic and social factors as well as consumption behaviors on household carbon footprints. The article introduces carbon footprint assessment models and tools suitable for individual up to city-level applications. It also thoroughly discusses the challenges related to data quality, model construction, and parameter selection in the assessment process, while offering insights into future research directions. By synthesizing interdisciplinary research findings, this article proposes a multidimensional and multi-level framework for assessing household carbon footprints, providing scientific guidance for policy formulation, environmental protection actions, and public participation. It aims to foster the transition of society towards a low-carbon and sustainable development model.

Keywords

Carbon footprints / household consumption / measurement methods / structural evolution

Cite this article

Download citation ▾

Jiaxin Du, Zhenzhen Zhong, Qiaoling Shi, Ye Cao, Chuqiao Yang, Liukun Wang. A review of household carbon footprint: measurement methods, evolution and emissions assessment. Carbon Footprints, 2024, 3(3): 11 DOI:10.20517/cf.2024.08

登录浏览全文

4963

注册一个新账户忘记密码

References

Publishing order | Descend order by publishing year | Descend order by cited within

[1]	Adedeji O,Olatoye O.Global climate change.J Geosci Environ Prot2014;2:114-22

[2]	Ogunbode CA,Böhm G.Exposure to the IPCC special report on 1.5 °C global warming is linked to perceived threat and increased concern about climate change.Clim Change2020;158:361-75

[3]	Lin J,Davis S.Global climate forcing of aerosols embodied in international trade.Nat Geosci2016;9:790-4

[4]	Zhang Q,Tong D.Transboundary health impacts of transported global air pollution and international trade.Nature2017;543:705-9

[5]	Hinnells M.Technologies to achieve demand reduction and microgeneration in buildings.Energy Policy2008;36:4427-33

[6]	Nejat P,Taheri MM,Abd Majid MZ.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 Rev2015;43:843-62

[7]	Zhang M,Xiao P.Impact of urban expansion on land surface temperature and carbon emissions using machine learning algorithms in Wuhan, China.Urban Clim2023;47:101347

[8]	Wang X.Urban-rural carbon footprint disparity across China from essential household expenditure: survey-based analysis, 2010-2014.J Environ Manag2020;267:110570

[9]	Zhang M,Tong B,Zhang L.Analysis of the coupling characteristics of land transfer and carbon emissions and its influencing factors: a case study of China.Front Environ Sci2023;10:1105552

[10]	Song C,Xu W.The spatial effect of industrial transfer on carbon emissions under firm location decision: a carbon neutrality perspective.J Environ Manag2023;330:117139

[11]	Li X.Pathways to mitigate household carbon emissions in Chinese cities: intentions, actions, and environments.Urban Clim2024;55:101953

[12]	Gifford R.Psychology’s essential role in alleviating the impacts of climate change.Can J Psychol2008;49:273-80

[13]	Steg L.Encouraging pro-environmental behaviour: an integrative review and research agenda.J Environ Psychol2009;29:309-17

[14]	Stern PC.Contributions of psychology to limiting climate change.Am Psychol2011;66:303-14

[15]	Rees WE.Ecological footprints and appropriated carrying capacity: what urban economics leaves out.Environ Urban1992;4:121-30

[16]	Wackernagel M,Hansson CB.Evaluating the use of natural capital with the ecological footprint: applications in Sweden and subregions.Ambio1999;28:604-12Available from: https://www.jstor.org/stable/4314966 [Last accessed on 20 Jun 2024]

[17]	Weidema BP,Christensen P,Løkke S.Carbon footprint: a catalyst for life cycle assessment?.J Ind Ecol2008;12:3-6

[18]	Wiedmann T.Editorial: carbon footprint and input-output analysis - an introduction.Econ Syst Res2009;21:175-86

[19]	Wood R.Regional sustainability in Northern Australia - a quantitative assessment of social, economic and environmental impacts.Ecol Econ2010;69:1877-82

[20]	Ivanova D.The unequal distribution of household carbon footprints in Europe and its link to sustainability.Glob Sustain2020;3:e18

[21]	Wiedenhofer D,Liu Z,Zhang N.Unequal household carbon footprints in China.Nat Clim Change2017;7:75-80

[22]	Osorio P,Tomás M.Are there gender differences in household carbon footprints? Evidence from Spain.Ecol Econ2024;219:108130

[23]	Pang M,Moreau V.Urban carbon footprints: a consumption-based approach for Swiss households.Environ Res Commun2020;2:011003

[24]	Schleich J,Kanberger E.On the relationship between individual carbon literacy and carbon footprint components.Ecol Econ2024;218:108100

[25]	Ottelin J,Nässén J.Household carbon footprint patterns by the degree of urbanisation in Europe.Environ Res Lett2019;14:114016

[26]	Yu F,Geng Y,Li H.Uncovering the differences of household carbon footprints and driving forces between China and Japan.Energy Policy2022;165:112990

[27]	Zhang X.How to reduce household carbon emissions: a review of experience and policy design considerations.Energy Policy2017;102:116-24

[28]	Fang K,Heijungs R.The footprint’s fingerprint: on the classification of the footprint family.Curr Opin Environ Sustain2016;23:54-62

[29]	Fang K,de Snoo GR.Theoretical exploration for the combination of the ecological, energy, carbon, and water footprints: overview of a footprint family.Ecol Indic2014;36:508-18

[30]	Wackernagel M. Our ecological footprint: reducing human impact on the earth. 1997. Available from: https://escholarship.org/content/qt7730w81q/qt7730w81q.pdf?t=q9ns62 [Last accessed on 20 Jun 2024]

[31]	Finkbeiner M.Carbon footprinting-opportunities and threats.Int J Life Cycle Assess2009;14:91-4

[32]	Hammond G.Time to give due weight to the 'carbon footprint' issue.Nature2007;445:256

[33]	Matthews HS,Weber CL.The importance of carbon footprint estimation boundaries.Environ Sci Technol2008;42:5839-42

[34]	Wiedmann T. A definition of ‘carbon footprint’. In: Ecological economics research trends. New York: Nova Science Publishers; 2008. pp 1-11.

[35]	Peters GP.Carbon footprints and embodied carbon at multiple scales.Curr Opin Environ Sustain2010;2:245-50

[36]	Wiedmann TO,Barrett JR.Companies on the scale: comparing and benchmarking the sustainability performance of businesses.J Ind Ecol2009;13:361-83

[37]	Huang YA,Weber CL,Matthews HS.The role of input-output analysis for the screening of corporate carbon footprints.Econ Syst Res2009;21:217-42

[38]	Shang W,Yu Q.Spatio-temporal analysis of carbon footprints for urban public transport systems based on smart card data.Appl Energy2023;352:121859

[39]	Kanemoto K,Hertwich EG.Mapping the carbon footprint of nations.Environ Sci Technol2016;50:10512-7

[40]	Tukker A,Henkemans M.Consumption-based carbon accounting: sense and sensibility.Climate Policy2020;20:S1-13

[41]	Pottier A.Expenditure elasticity and income elasticity of GHG emissions: a survey of literature on household carbon footprint.Ecol Econ2022;192:107251

[42]	Wiedmann TO,Barrett J.The concept of city carbon maps: a case study of Melbourne, Australia.J Ind Ecol2016;20:676-91

[43]	Perobelli FS,Vale VDA.The increase in Brazilian household income and its impact on CO₂ emissions: evidence for 2003 and 2009 from input-output tables.Energy Econ2015;52:228-39

[44]	Seriño MNV.Estimation and determinants of the Philippines' household carbon footprint.Dev Econ2015;53:44-62

[45]	Steen-Olsen K,Hertwich EG.The carbon footprint of norwegian household consumption 1999-2012.J Ind Ecol2016;20:582-92

[46]	Druckman A.The carbon footprint of UK households 1990-2004: a socio-economically disaggregated, quasi-multi-regional input-output model.Ecol Econ2009;68:2066-77

[47]	Starr J,Ash M,Moran D.Assessing U.S. consumers' carbon footprints reveals outsized impact of the top 1%.Ecol Econ2023;205:107698

[48]	Ma X,Zhang M.Indirect carbon emissions from household consumption between China and the USA: based on an input-output model.Nat Hazards2016;84:399-410

[49]	Choi T.Understanding environmental responsibility of cities and emissions embodied in trade.Econ Syst Res2015;27:133-53

[50]	Bachmann C,Roorda MJ.Applications of random-utility-based multi-region input-output models of transport and the spatial economy.Transport Rev2014;34:418-40

[51]	Sommer M.The carbon footprint of European households and income distribution.Ecol Econ2017;136:62-72

[52]

Yao L,Wang RS.Comparison and analysis of carbon emissions embodied in household consumption between urban and rural area of China.Chin J Popul Resour2011;21:25-9Available from: http://www.zgrz.cbpt.cnki.net/WKC/WebPublication/paperDigest.aspx?paperID=efdc19a9-77db-4640-a623-b265728137c0 [Last accessed on 21 Jun 2024]

[53]	Trainer T.A critical analysis of the 2014 IPCC report on capital cost of mitigation and of renewable energy.Energy Policy2017;104:214-20

[54]	ISO 14040:2006. Environmental management - life cycle assessment - principles and framework. Available from: https://www.iso.org/standard/37456.html [Last accessed on 20 Jun 2024]

[55]	Specification PA.Specification for the assessment of the life cycle greenhouse gas emissions of goods and services.Bsi Br Stand Isbn2008;978:580

[56]	Bin S.Consumer lifestyle approach to US energy use and the related CO₂ emissions.Energy Policy2005;33:197-208

[57]	Chen C,Meng F,Zhang Y.Energy consumption and carbon footprint accounting of urban and rural residents in Beijing through consumer lifestyle approach.Ecol Indic2019;98:575-86

[58]	Liu Z,Wei W.Reduced carbon emission estimates from fossil fuel combustion and cement production in China.Nature2015;524:335-8

[59]	Gao X,Liu L.Exploring the determinants of the evolution of urban and rural household carbon footprints inequality in China.Energy Policy2024;185:113955

[60]	Lv J,Chai L.Comparing the determinants of household carbon footprints between rural and urban: evidence from China household survey data.China Agr Econ Rev2024;16:154-80

[61]	Zhang Z,Zhang Z.Unequal age-based household carbon footprint in China.Clim Policy2023;23:577-92

[62]	An N,Shen Y.Efficient data-driven prediction of household carbon footprint in China with limited features.Energy Policy2024;185:113926

[63]	Liu L,Wang S.The transition patterns of rural household carbon footprint in China.Resour Environ Sustain2023;13:100122

[64]	Kanemoto K,Shigetomi Y,Kondo Y.Meat consumption does not explain differences in household food carbon footprints in Japan.One Earth2019;1:464-71

[65]	Zen IS,Alam M.Magnitudes of households’ carbon footprint in Iskandar Malaysia: policy implications for sustainable development.J Clean Prod2021;315:128042

[66]	Seriño MNV.Rising carbon footprint inequality in the Philippines.Environ Econ Policy Stud2020;22:173-95

[67]	Mi Z,Meng J.Economic development and converging household carbon footprints in China.Nat Sustain2020;3:529-37

[68]	Dreyer LC,Hauschild MZ.Comparison of three different LCIA methods: EDIP97, CML2001 and eco-indicator 99: does it matter which one you choose?.Int J Life Cycle Assess2003;8:191-200

[69]

Steen B. A Systematic approach to environmental priority strategies in product development (Eps). Version 2000 - General system characteristics. 1994. Available from: https://citeseerx.ist.psu.edu/document?repid=rep1&type=pdf&doi=e5fb278678a8e84984e384bf5929dafc74e7adeb [Last accessed on 21 Jun 2024]

[70]	Toffoletto L,Godin J,Deschênes L.LUCAS - a new LCIA method used for a Canadian-specific context.Int J Life Cycle Assess2007;12:93-102

[71]	Bare JC.Traci: the tool for the reduction and assessment of chemical and other environmental impacts.J Ind Ecol2002;6:49-78

[72]	Jolliet O,Charles R.IMPACT 2002+: a new life cycle impact assessment methodology.Int J Life Cycle Assess2003;8:324-30

[73]	Owsianiak M,Bjørn A.IMPACT 2002+, ReCiPe 2008 and ILCD’s recommended practice for characterization modelling in life cycle impact assessment: a case study-based comparison.Int J Life Cycle Assess2014;19:1007-21