An approach to acquiring knowledge of the personal carbon footprint in Cartagena, in the Colombian Caribbean region

1Anderegga W., Abatzogloub J., Andereggc L., Bielorye L., Kinneyh P., Ziskai L. 2021. Anthropogenic climate change is worsening North. PNAS, 118(7), 1−6.Search in Google Scholar

2Andersson D. 2020. A novel approach to calculate individuals’ carbon footprints using financial transaction data–App development and design. Journal of Cleaner Production, 256, 120396.Search in Google Scholar

3Bekaroo G., Bokhoree C., Ramsamy P., Moedeen W. 2019. Investigating personal carbon emissions of employees of higher education institutions: Insights from Mauritius. Journal of Cleaner Production, 209, 581−594.Search in Google Scholar

4Bello M.O., Solarin S.A., Yen Y. 2018. The impact of electricity consumption on CO₂ emission, carbon footprint, water footprint and ecological footprint: the role of hydropower in an emerging economy. Journal of Environmental Management, 219, 218−230.Search in Google Scholar

5Bhoyar S.P., Dusad S., Shrivastava R., Mishra S., Gupta N., Rao A. 2014. Understanding the impact of lifestyle on individual carbon-footprint. Procedia-Social and Behavioral Sciences, 133, 47−60.Search in Google Scholar

6Birnik A. 2013. An evidence-based assessment of online carbon calculators. International Journal of Greenhouse Gas Control, 17, 280−293.Search in Google Scholar

7Burbano-Orjuela H. 2018. The soil orgabic carbon and its role on climate change. Revista de Ciências Agrárias, 35(1), 82−96.Search in Google Scholar

8Collins A., Galli A., Patrizi N., Pulselli F.M. 2018. Learning and teaching sustainability: The contribution of Ecological Footprint calculators. Journal of Cleaner Production, 174, 1000−1010.Search in Google Scholar

9DADIS. 2023. Análisis de situación de salud con el modelo de determinantes sociales de salud (ASIS) 2022, distrito de Cartagena de Indias. Departamento Administrativo de Salud. https://www.minsalud.gov.co/sites/rid/Lists/BibliotecaDigital/RIDE/VS/ED/PSP/asis-distrital-cartagena-2022.pdf.Search in Google Scholar

10DANE. 2022a. Censo Nacional de Población y Vivienda, 2018 Colombia. Departamento Administrativo Nacional de estadística. https://www.dane.gov.co/index.php/estadisticas-portema/demografia-y-poblacion/censo-nacional-depoblacion-y-vivenda-2018.Search in Google Scholar

11DANE. 2022b. Cartagena en cifras: Pobreza y mercado laboral. Departamento Nacional de Estadística de Colombia (DANE). https://www.dane.gov.co/files/investigaciones/planes-departamentos-ciudades/030222-Pobreza-y-MLaboral-Cartagena.pdf.Search in Google Scholar

12de Aguiar T.R., Fearfull A., Fons M.V.S. 2016. June. Calculating the carbon footprint: Implications for governing emissions and gender relations. In Accounting Forum, 40, 2: 63−77. No longer published by Elsevier.Search in Google Scholar

13de Arce R., Mahía R. 2023. Unbiasing the estimate of the role of income in carbon footprint of households: Analysis of the Spanish case as a pilot study. Heliyon, 9(6).Search in Google Scholar

14Echevarria M., Viloria O. 2017. Estimación de las emisiones atmosféricas provenientes de las motocicletas en Cartagena de Indias. Facultad de Ingeniería, Universidad Tecnológica de Bolívar. https://biblioteca.utb.edu.co/notas/tesis/0073505.pdfSearch in Google Scholar

15FAO. 2003. Bosques, el ciclo mundial del carbono y el cambio climático. http://www.fao.org/3/xii/ms14-s.htm.Search in Google Scholar

16Genta C., Sanyé-Mengual E., Sala S., Lombardi P. 2022. The Consumption Footprint as possible indicator for environmental impact evaluation at city level. The case study of Turin (Italy). Sustainable Cities and Society, 79, 103679.Search in Google Scholar

17Gilles E., Ortiz M., Cadarso M.Á., Monsalve F., Jiang X. 2021. Opportunities for city carbon footprint reductions through imports source shifting: The case of Bogota. Resources, Conservation and Recycling, 172, 105684.Search in Google Scholar

18Han Y., Duan H., Du X., Jiang L. 2021. Chinese household environmental footprint and its response to environmental awareness. Science of the Total Environment, 782, 146725.Search in Google Scholar

19Hoffmann S., Lasarov W., Reimers H. 2022. Carbon footprint tracking apps. What drives consumers' adoption intention? Technology in Society, 69, 101956.Search in Google Scholar

20Huang L., Long Y., Chen J., Yoshida Y. 2023. Sustainable lifestyle: Urban household carbon footprint accounting and policy implications for lifestyle-based decarbonization. Energy Policy, 181, 113696.Search in Google Scholar

21IPCC. 2019. Pörtner H.O., Roberts D.C., Masson-Delmotte V., Zhai P., Tignor M., Poloczanska E., Weyer N. 2019. The ocean and cryosphere in a changing climate. IPCC special report on the ocean and cryosphere in a changing climate, 1155.Search in Google Scholar

22Lee J., Taherzadeh O., Kanemoto K. 2021. The scale and drivers of carbon footprints in households, cities and regions across India. Global Environmental Change, 66, 102205.Search in Google Scholar

23Li X., Zhang R., Chen J., Jiang Y., Zhang Q., Long Y. 2021. Urban-scale carbon footprint evaluation based on citizen travel demand in Japan. Applied Energy, 286, 116462.Search in Google Scholar

24Long Y., Chen G., Wang Y. 2023. Carbon footprint of residents' online consumption in China. Environmental Impact Assessment Review, 103, 107228.Search in Google Scholar

25Mahapatra S.K., Schoenherr T., Jayaram J. 2021. An assessment of factors contributing to firms’ carbon footprint reduction efforts. International Journal of Production Economics, 235, 108073.Search in Google Scholar

26Manitz J., Mark, G., Kauermann H., Kuechenhoff H., Shao SA., Oberhauser C., Westerheide N., Wiesenfarth M. 2020. Samplingbook: Survey Sampling Procedures. R package version 1.2.4. https://CRAN.R-project.org/package=samplingbookSearch in Google Scholar

27MINAMBIENTE. 2021. Huella de Carbono. (Ministerio de Ambiente y desarrollo sostenible). https://www.minambiente.gov.co/index.php/mitigaci/huella-de-carbono.Search in Google Scholar

28Mulrow J., Machaj K., Deanes J., Derrible S. 2019. The state of carbon footprint calculators: An evaluation of calculator design and user interaction features. Sustainable Production and Consumption, 18, 33−40.Search in Google Scholar

29Valderrama J. 2018. Huella del carbono cambio climático, gestión sustentable y eficiencia energética. Información tecnológica, 29(4), 1. https://scielo.conicyt.cl/pdf/infotec/v29n4/0718-0764-infotec-29-04-00001.pdf.Search in Google Scholar

30Zen I.S., Al-Amin A.Q,. Alam M.M., Doberstein B. 2021. Magnitudes of households’ carbon footprint in Iskandar Malaysia: Policy implications for sustainable development. Journal of Cleaner Production, 315, 128042.Search in Google Scholar