Different economic sectors interact with each other and contribute in increasing CO2 emissions in different ways and with different intensities. A modeling framework describing CO2 cross-sectoral dependencies could be fruitful to authorities providing guidance to policies on emissions regulations and environment preservation. After surveying the existing literature that investigates on the relationship between urbanization and CO2 emissions, we focus on the role of quantile regression in environmental modeling to provide a more complete view of the the nexus between socio-demographic factors and CO2 emissions coming from different sources of economic activities, that can be missed by other regression methods. In particular, using a new joint quantile regression approach, in this paper we consider a sectoral disaggregation of total CO2 emissions of 154 world countries and hypothesize a heterogeneous effect of population, urbanization, industrialization and economic growth in different sectors and at different quantile levels of the multivariate CO2 distribution.

Sectoral Decomposition of CO2WorldEmissions: A Joint QuantileRegression Approach / Raponi, Valentina; Petrella, Lea; Merlo, Luca. - In: INTERNATIONAL REVIEW OF ENVIRONMENTAL AND RESOURCE ECONOMICS. - ISSN 1932-1465. - 14:2-3(2020), pp. 197-239. [10.1561/101.00000116]

Sectoral Decomposition of CO2WorldEmissions: A Joint QuantileRegression Approach

Petrella, Lea;Merlo, Luca
2020

Abstract

Different economic sectors interact with each other and contribute in increasing CO2 emissions in different ways and with different intensities. A modeling framework describing CO2 cross-sectoral dependencies could be fruitful to authorities providing guidance to policies on emissions regulations and environment preservation. After surveying the existing literature that investigates on the relationship between urbanization and CO2 emissions, we focus on the role of quantile regression in environmental modeling to provide a more complete view of the the nexus between socio-demographic factors and CO2 emissions coming from different sources of economic activities, that can be missed by other regression methods. In particular, using a new joint quantile regression approach, in this paper we consider a sectoral disaggregation of total CO2 emissions of 154 world countries and hypothesize a heterogeneous effect of population, urbanization, industrialization and economic growth in different sectors and at different quantile levels of the multivariate CO2 distribution.
2020
emissions; joint quantile regression; sectoral disaggregation; multivariate CO2 distribution; multivariate STIRPAT model
01 Pubblicazione su rivista::01a Articolo in rivista
Sectoral Decomposition of CO2WorldEmissions: A Joint QuantileRegression Approach / Raponi, Valentina; Petrella, Lea; Merlo, Luca. - In: INTERNATIONAL REVIEW OF ENVIRONMENTAL AND RESOURCE ECONOMICS. - ISSN 1932-1465. - 14:2-3(2020), pp. 197-239. [10.1561/101.00000116]
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11573/1446747
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