Energy transition and CO2 emissions in Southern Europe: Italy and Spain (1861-2000)
Silvana Bartoletto and M.d.Mar Rubio
This article examines energy consumption, the transition from organic to fossil energy carriers, and the consequent emissions of CO2 over a period of almost 150 years (1861-2000) in Italy and Spain. The authors’ reconstruction and analysis of CO2 emissions are based on new series of energy consumption including both traditional and modern energy carriers. The article shows that traditional energy carriers should also be taken into account in long run series of pollution intensity of energy use, pollution intensity of the economy, decarbonisation, and other indicators in order to achieve a clearer interpretation of the processes involved. In this work the authors first present time series of primary energy consumption, final energy consumption, and energy intensities of Italy and Spain for the period 1861-2000. Then several CO2 indicators for both countries are introduced: total emissions, emissions per capita, pollution intensity of energy (decarbonisation), and pollution intensity. The aim is to investigate whether a decoupling of CO2 emissions, economic growth, and per capita energy consumption can be observed historically; if so, what the factors underlying this development are. Last but not least, these findings could be used to draw some conclusions on further potential development paths, and notably as to whether it is possible to consume more energy per capita and produce more output per capita at lower levels of emissions. Finally, the authors employ a Divisia index perfect decomposition analysis to scrutinize diff erences in total emissions between the two countries. Decomposition analysis, particularly Divisia index based decomposition, has found application in a wide array of fi elds: aggregate energy intensity for industry, national energy consumption, aggregate energy indexes, total energy-related carbon dioxide, carbon dioxide per unit of GDP. To reach an in/depth understanding of the forces underlying diff erent trends in CO2 emissions, however, decomposition analysis will have to be applied at the per capita level.