Abstract

Understanding the spatial heterogeneity and driving force identification of energy-related CO2 emissions (ECEs) can help build consensus for mitigating CO2 emissions and designing appropriate policies. However, previous studies on ECEs that focus on both the global-regional scale and the interaction of factors have been seldom conducted. In this paper, ECE data from 143 countries from 1990 to 2014 were selected to analyze regional differences in ECE growth rates by using the coefficient of variation. Then a geographical detector was used to analyze the key determinant factors on ECE growth rates around the world and in eight types of regions. The results show that: (1) the ECE growth rate in the Organization for Economic Cooperation and Development (OECD) region is low and tended to decrease, while in the non-OECD region it is high and tended to increase; (2) the coefficient of variation and detection factor of ECE growth rates at a regional scale are higher than those at a global scale; (3) in terms of the key determinant factors, population growth rate, growth rate of per capita GDP, and energy intensity growth rate are the three key determinant factors of ECE growth rates in the OECD region and most of the non-OECD regions such as non-OECD European and Eurasian (NO-EE), Asia (NO-AS), non-OECD Americas (NO-AM). The key determinant factors in the African (NO-AF) region are population growth rates and natural gas carbon intensity growth rates. The key determinant factors of the Middle East (NO-ME) are population growth rate, coal carbon intensity growth rate and per capita GDP growth rate; (4) the determinant power of the detection factor, the population growth rate at the global scale and regional scale is the strongest, showing a significant spatial consistency. The determinant power of per capita GDP growth rate and energy intensity growth rate in the OECD region, respectively, rank second and third, also showing a spatial consistency. However, the carbon intensity growth rates of the three fossil fuels contribute little to the growth rate of ECEs, and their spatial coherence is weak; (5) from the perspective of the interaction of detection factors, six detection factors showed bilinear or non-linear enhancement at a global and a regional scale, and the determinant power of the interaction of factors was significantly enhanced; and (6) from the perspective of ecological detection, the growth rate of carbon intensity and the growth rate of natural gas carbon intensity at the global scale and NO-ME region are significantly stronger than other factors, with a significant difference in the spatial distribution of its incidence. Therefore, the OECD region should continue to reduce the growth of energy intensity, and develop alternative energy resources in the future, while those that are plagued by carbon emissions in non-OECD regions should pay more attention to the positive influence of lower population growth rates on reducing the growth rate of energy-related CO2 emissions. Reducing energy intensity growth rates and reducing, fossil energy consumption carbon intensity.

Highlights

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  • This paper examines the changes of the global energy-related CO2 emission growth rates during

  • We analyze the regional differences in the growth rate of global energy-related CO2 emissions by the coefficient of variation, and explain the determinant factors of energy-related CO2 emission growth rates by means of geographical detector methods, and provide a new perspective and methods for relevant carbon dioxide emission research

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Summary

Introduction

In 2014, fossil energy accounted for 82% of the global energy use as the main contributor to global energy consumption [1]. According to the International Energy Agency (IEA), the global annual average growth rate of energy-related CO2 emissions fell from 1.96% in 1990–2010 to 1.60% in 2010–2014, but continued to grow at an average annual rate of 1.9% during the 1990–2014 period [1]. There is a significant difference in the average annual growth rate of energy-related CO2 emissions in each region, such as Asia (NO-AS) (5.83%) with the highest average annual growth rate from 1990 to 2014, while the lowest is non-OECD European and Eurasian (NO-EE) (−1.97%). Economic development is considered to be one of the key determinant factors affecting carbon emissions, but decoupling studies show that their relationship needs to consider them in different regions and different stages of development [4]

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