Abstract
The urban transport sector has become one of the major contributors to global CO2 emissions. This paper investigates the driving forces of changes in CO2 emissions from the passenger transport sectors in different cities, which is helpful for formulating effective carbon-reduction policies and strategies. The logarithmic mean Divisia index (LMDI) method is used to decompose the CO2 emissions changes into five driving determinants: Urbanization level, motorization level, mode structure, energy intensity, and energy mix. First, the urban transport CO2 emissions between 1960 and 2001 from 46 global cities are calculated. Then, the multiplicative decomposition results for megacities (London, New York, Paris, and Tokyo) are compared with those of other cities. Moreover, additive decomposition analyses of the 4 megacities are conducted to explore the driving forces of changes in CO2 emissions from the passenger transport sectors in these megacities between 1960 and 2001. Based on the decomposition results, some effective carbon-reduction strategies can be formulated for developing cities experiencing rapid urbanization and motorization. The main suggestions are as follows: (i) Rational land use, such as transit-oriented development, is a feasible way to control the trip distance per capita; (ii) fuel economy policies and standards formulated when there are oil crisis are effective ways to suppress the increase of CO2 emissions, and these changes should not be abandoned when oil prices fall; and (iii) cities with high population densities should focus on the development of public and non-motorized transport.
Highlights
Climate change and CO2 emissions mitigation have drawn extensive attention worldwide in recent years
1960–2001 was a key period during which the world urbanization level rose from 33% to 45% and global CO2 emissions increased from approximately 190 billion tons to approximately 370 billion tons [5]
From 1960 to 1980, motorization effect (∆Cl) and mode structure effect (∆Cm) were the main contributors to the CO2 emissions increase from the passenger transport sector in London
Summary
Climate change and CO2 emissions mitigation have drawn extensive attention worldwide in recent years. Because of its continuously growing share in overall energy consumption, the transport sector has been acknowledged as one of the most important contributors to global emissions [1]. 7.38 million tons of CO2 was generated due to oil consumption in the global transport sector in 2013, accounting for 23% of the total fossil fuel-related CO2 emissions [3]. With the continuous development of the urban economy and acceleration of the motorization process, cities account for 75% of global energy consumption and 80% of greenhouse gas emissions [4]. 1960–2001 was a key period during which the world urbanization level rose from 33% to 45% and global CO2 emissions increased from approximately 190 billion tons to approximately 370 billion tons [5]. This study can provide practical guidance to low-carbon urban planning in developing countries
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