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Structural Breaks in Carbon Emissions: A Machine Learning Analysis

To reach the global net-zero goal, the level of carbon emissions has to fall substantially at speed rarely seen in history, highlighting the need to identify structural breaks in carbon emission patterns and understand forces that could bring about such breaks. In this paper, we identify and analyze...

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Bibliographic Details
Main Author: Yao, Jiaxiong
Other Authors: Zhao, Yunhui
Format: eBook
Language:English
Published: Washington, D.C. International Monetary Fund 2022
Series:IMF Working Papers
Subjects:
Econometric Modeling: General
Environmental Conservation And Protection
Environmental Economics
Public Finance & Taxation
Taxes
Climate
Climate Change
Environmental Taxes And Subsidies
Carbon Tax
Climate Policy
Economics Of Specific Sectors
Environmental Economics: Government Policy
Greenhouse Gas Emissions
Currency Crises
Global Warming
Macroeconomics
Taxation And Subsidies: Externalities
Taxation
Greenhouse Gases
Climatic Changes
Environmental Policy
Environmental Economics: General
Economic & Financial Crises & Disasters
Machine Learning
Technological Change: Choices And Consequences
Environmental Policy & Protocols
Natural Disasters And Their Management
Technology
Environment
Environmental Impact Charges
Economics: General
Intelligence (ai) & Semantics
Diffusion Processes
Informal Sector; Economics
'panel Data Models
Redistributive Effects
Spatio-temporal Models'
United Kingdom
Online Access:
Collection: International Monetary Fund - Collection details see MPG.ReNa
Description
Summary:To reach the global net-zero goal, the level of carbon emissions has to fall substantially at speed rarely seen in history, highlighting the need to identify structural breaks in carbon emission patterns and understand forces that could bring about such breaks. In this paper, we identify and analyze structural breaks using machine learning methodologies. We find that downward trend shifts in carbon emissions since 1965 are rare, and most trend shifts are associated with non-climate structural factors (such as a change in the economic structure) rather than with climate policies. While we do not explicitly analyze the optimal mix between climate and non-climate policies, our findings highlight the importance of the nonclimate policies in reducing carbon emissions. On the methodology front, our paper contributes to the climate toolbox by identifying country-specific structural breaks in emissions for top 20 emitters based on a user-friendly machine-learning tool and interpreting the results using a decomposition of carbon emission ( Kaya Identity)
Physical Description:47 pages
ISBN:9798400200267

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