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A decomposition and decoupling analysis for carbon dioxide emissions: evidence from OECD countries
Cosimo Magazzino 
,
Parisa Pakrooh,
Mohammad Abedin
,
Parisa Pakrooh,
Mohammad Abedin
Environment, Development and Sustainability, Volume: 26, Pages: 28539 - 28566
Swansea University Author:
Mohammad Abedin
-
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DOI (Published version): 10.1007/s10668-023-03824-7
Abstract
Despite the huge difference in their climatic regimes, the OECD countries are among the world’s largest energy consumers and emitters of greenhouse gases, particularly carbon dioxide. Nonetheless, no studies have been conducted to decompose and decouple the long-term influential primary factors of c...
| Published in: | Environment, Development and Sustainability |
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| ISSN: | 1573-2975 |
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Springer Nature
2024
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| URI: | https://cronfa.swan.ac.uk/Record/cronfa68140 |
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v2 68140 2024-11-01 A decomposition and decoupling analysis for carbon dioxide emissions: evidence from OECD countries 4ed8c020eae0c9bec4f5d9495d86d415 0000-0002-4688-0619 Mohammad Abedin Mohammad Abedin true false 2024-11-01 CBAE Despite the huge difference in their climatic regimes, the OECD countries are among the world’s largest energy consumers and emitters of greenhouse gases, particularly carbon dioxide. Nonetheless, no studies have been conducted to decompose and decouple the long-term influential primary factors of carbon emissions for these countries. In this research, the Log Mean Divisia Method I is used to inspect the contribution of several influencing factors to fill this knowledge gap. Moreover, Tapio (Transp Policy 12(2):137–151, 2005) decomposition analysis (DA) is performed to investigate the driving forces of CO2 emissions over the 1990–2019 years. The study provides an in-depth analysis of how to reduce CO2 emissions and the factors that contribute to their variation, which is crucial for both global and regional climate change policies. DA shows that, up to 2004, the activity effect and the population effect drove the emissions to increase; while, in more recent years, the activity effect was able to curb the emissions. Decoupling analysis show the prevalence of the expansive negative decoupling regime for the 1990–2004 and 2015–2019 periods, while several countries were in the strong decoupling phase over the central period (2005–2009). According to the results, further efforts to increase energy efficiency, political support for digitalization and decentralized energy systems, and setting up a unique emission trading system are recommended for air pollution reduction. Journal Article Environment, Development and Sustainability 26 28539 28566 Springer Nature 1573-2975 CO2 emissions, decomposition analysis, decoupling analysis, LMDI, OECD 1 11 2024 2024-11-01 10.1007/s10668-023-03824-7 COLLEGE NANME Management School COLLEGE CODE CBAE Swansea University Another institution paid the OA fee Open access funding provided by Università degli Studi Roma Tre within the CRUI-CARE Agreement. The authors declare that they did not receive any funds for this publication. 2024-11-01T12:29:51.8245617 2024-11-01T12:16:09.5333317 Faculty of Humanities and Social Sciences School of Management - Accounting and Finance Cosimo Magazzino 0000-0002-3176-9838 1 Parisa Pakrooh 2 Mohammad Abedin 0000-0002-4688-0619 3 68140__32816__4316764b7278446dbcfd5b63b96e412b.pdf 10668_2023_Article_3824.pdf 2024-11-01T12:16:09.5323227 Output 1362401 application/pdf Version of Record true © The Author(s) 2023. This article is licensed under a Creative Commons Attribution 4.0 International License (CC BY 4.0). true eng http://creativecommons.org/licenses/by/4.0/ |
| title |
A decomposition and decoupling analysis for carbon dioxide emissions: evidence from OECD countries |
| spellingShingle |
A decomposition and decoupling analysis for carbon dioxide emissions: evidence from OECD countries Mohammad Abedin |
| title_short |
A decomposition and decoupling analysis for carbon dioxide emissions: evidence from OECD countries |
| title_full |
A decomposition and decoupling analysis for carbon dioxide emissions: evidence from OECD countries |
| title_fullStr |
A decomposition and decoupling analysis for carbon dioxide emissions: evidence from OECD countries |
| title_full_unstemmed |
A decomposition and decoupling analysis for carbon dioxide emissions: evidence from OECD countries |
| title_sort |
A decomposition and decoupling analysis for carbon dioxide emissions: evidence from OECD countries |
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4ed8c020eae0c9bec4f5d9495d86d415 |
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4ed8c020eae0c9bec4f5d9495d86d415_***_Mohammad Abedin |
| author |
Mohammad Abedin |
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Cosimo Magazzino Parisa Pakrooh Mohammad Abedin |
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Journal article |
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Environment, Development and Sustainability |
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26 |
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28539 |
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2024 |
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Swansea University |
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1573-2975 |
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10.1007/s10668-023-03824-7 |
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Springer Nature |
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Faculty of Humanities and Social Sciences |
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Despite the huge difference in their climatic regimes, the OECD countries are among the world’s largest energy consumers and emitters of greenhouse gases, particularly carbon dioxide. Nonetheless, no studies have been conducted to decompose and decouple the long-term influential primary factors of carbon emissions for these countries. In this research, the Log Mean Divisia Method I is used to inspect the contribution of several influencing factors to fill this knowledge gap. Moreover, Tapio (Transp Policy 12(2):137–151, 2005) decomposition analysis (DA) is performed to investigate the driving forces of CO2 emissions over the 1990–2019 years. The study provides an in-depth analysis of how to reduce CO2 emissions and the factors that contribute to their variation, which is crucial for both global and regional climate change policies. DA shows that, up to 2004, the activity effect and the population effect drove the emissions to increase; while, in more recent years, the activity effect was able to curb the emissions. Decoupling analysis show the prevalence of the expansive negative decoupling regime for the 1990–2004 and 2015–2019 periods, while several countries were in the strong decoupling phase over the central period (2005–2009). According to the results, further efforts to increase energy efficiency, political support for digitalization and decentralized energy systems, and setting up a unique emission trading system are recommended for air pollution reduction. |
| published_date |
2024-11-01T12:29:50Z |
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1814523218766069760 |
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11.035634 |