This document summarizes a working paper that constructs a two-country trade model to examine the effects of environmental regulation on emission leakage. The model includes three goods - two tradable goods and a non-tradable good - with emissions used as an input in production, generating cross-border pollution. The paper finds that tighter regulation in one country can mitigate emission leakage and improve its terms of trade if the non-tradable good is more pollution-intensive than the importable good, and the two goods are complements. A similar result occurs if the importable good is more pollution-intensive and the two goods are substitutes. The paper contributes new insights on how the relative emission intensities of sectors and their
The Impacts of EnvironmentalRegulations on Competitiveness.docxarnoldmeredith47041
The Impacts of Environmental
Regulations on Competitiveness
Antoine Dechezleprêtre* and Misato Sato
†
Introduction
Ever since the first major environmental regulations were enacted in the 1970s, there has been
much debate about their potential impacts on the competitiveness of affected firms. Businesses
and policy makers fear that in a world that is increasingly characterized by the integration of trade
and capital flows, large asymmetries in the stringency of environmental policies could shift
pollution-intensive production capacity toward countries or regions with less stringent regula-
tion, altering the spatial distribution of industrial production and the subsequent international
trade flows. This has caused concern, particularly among countries that are leading the action
against climate change, because their efforts to achieve deep emission reductions could put their
own pollution-intensive producers at a competitive disadvantage in the global economy.
There are two different views in the environmental economics literature on the effects of
asymmetric policies on the performance of companies competing in the same market: the
pollution haven hypothesis and the Porter hypothesis. The pollution haven hypothesis, which
is based on trade theory, predicts that more stringent environmental policies will increase
compliance costs and, over time, shift pollution-intensive production toward low abatement
cost regions, creating pollution havens and causing policy-induced pollution leakage
(e.g., Levinson and Taylor, 2008). This is a particularly troubling problem for global pollutants
such as carbon dioxide, because it means that on top of the economic impacts on domestic
firms, abatement efforts will be offset to some extent by increasing emissions in other regions.
*Grantham Research Institute on Climate Change and the Environment, London School of Economics,
Houghton Street, London WC2A 2AE, United Kingdom. Tel:þ44 (0)207 852 3626; e-mail: [email protected]
lse.ac.uk.
†
Grantham Research Institute on Climate Change and the Environment, London School of Economics,
Houghton Street, London WC2A 2AE, United Kingdom. Tel: þ44 (0)207 107 5412; e-mail: [email protected]
lse.ac.uk.
We would like to thank Milan Brahmbhatt, Raphael Calel, Baran Doda, Damien Dussaux, Carolyn Fischer,
Matthieu Glachant, Colin McCormick, and Dimitri Zenghelis for helpful comments on an earlier version of
this article. We are grateful to three anonymous referees for very constructive comments and suggestions.
Financial support has come from the Global Green Growth Institute, the Grantham Foundation for the
Protection of the Environment, the European Union Seventh Framework Programme (FP7/2007-2013)
under grant agreement no. 308481 (ENTRACTE), and the UK Economic and Social Research Council
through the Centre for Climate Change Economics and Policy.
Review of Environmental Economics and Policy, volume 11, issue 2, Summer 2017, pp. 183–206
doi: 10.109.
The Impacts of EnvironmentalRegulations on Competitiveness.docxrtodd33
The Impacts of Environmental
Regulations on Competitiveness
Antoine Dechezleprêtre* and Misato Sato
†
Introduction
Ever since the first major environmental regulations were enacted in the 1970s, there has been
much debate about their potential impacts on the competitiveness of affected firms. Businesses
and policy makers fear that in a world that is increasingly characterized by the integration of trade
and capital flows, large asymmetries in the stringency of environmental policies could shift
pollution-intensive production capacity toward countries or regions with less stringent regula-
tion, altering the spatial distribution of industrial production and the subsequent international
trade flows. This has caused concern, particularly among countries that are leading the action
against climate change, because their efforts to achieve deep emission reductions could put their
own pollution-intensive producers at a competitive disadvantage in the global economy.
There are two different views in the environmental economics literature on the effects of
asymmetric policies on the performance of companies competing in the same market: the
pollution haven hypothesis and the Porter hypothesis. The pollution haven hypothesis, which
is based on trade theory, predicts that more stringent environmental policies will increase
compliance costs and, over time, shift pollution-intensive production toward low abatement
cost regions, creating pollution havens and causing policy-induced pollution leakage
(e.g., Levinson and Taylor, 2008). This is a particularly troubling problem for global pollutants
such as carbon dioxide, because it means that on top of the economic impacts on domestic
firms, abatement efforts will be offset to some extent by increasing emissions in other regions.
*Grantham Research Institute on Climate Change and the Environment, London School of Economics,
Houghton Street, London WC2A 2AE, United Kingdom. Tel:þ44 (0)207 852 3626; e-mail: [email protected]
lse.ac.uk.
†
Grantham Research Institute on Climate Change and the Environment, London School of Economics,
Houghton Street, London WC2A 2AE, United Kingdom. Tel: þ44 (0)207 107 5412; e-mail: [email protected]
lse.ac.uk.
We would like to thank Milan Brahmbhatt, Raphael Calel, Baran Doda, Damien Dussaux, Carolyn Fischer,
Matthieu Glachant, Colin McCormick, and Dimitri Zenghelis for helpful comments on an earlier version of
this article. We are grateful to three anonymous referees for very constructive comments and suggestions.
Financial support has come from the Global Green Growth Institute, the Grantham Foundation for the
Protection of the Environment, the European Union Seventh Framework Programme (FP7/2007-2013)
under grant agreement no. 308481 (ENTRACTE), and the UK Economic and Social Research Council
through the Centre for Climate Change Economics and Policy.
Review of Environmental Economics and Policy, volume 11, issue 2, Summer 2017, pp. 183–206
doi: 10.109.
The effect of adverse climate change is of major concern worldwide and several approaches are being developed to mitigate against anticipated economic and social disaster. Carbon emissions has been identified as a major contributor to the adverse climate change and following the Kyoto protocol , European countries have , through a caucus, effected a market to reward or fine members depending on their compliance position. The commodity for the market is the carbon emission credits. Stochastic models for pricing of options on these credits are considered in this paper. In particular, we determine the price basing on the Normal Inverse Gaussian and the Brownian Motion models. Maximum Likelihood Estimation is applied to determine model parameter estimates in each case. It is shown that the Normal Inverse Gaussian model has a better fit to the data but gives higher prices for a given strike price , compared to the Brownian Motion model.
IPCC, role of IPCC, IPCC AR5, key messages. approach in climate change mitigation, trends of green house gases, mitigation pathways and measures, mitigation policies and institutions,
The Impacts of EnvironmentalRegulations on Competitiveness.docxarnoldmeredith47041
The Impacts of Environmental
Regulations on Competitiveness
Antoine Dechezleprêtre* and Misato Sato
†
Introduction
Ever since the first major environmental regulations were enacted in the 1970s, there has been
much debate about their potential impacts on the competitiveness of affected firms. Businesses
and policy makers fear that in a world that is increasingly characterized by the integration of trade
and capital flows, large asymmetries in the stringency of environmental policies could shift
pollution-intensive production capacity toward countries or regions with less stringent regula-
tion, altering the spatial distribution of industrial production and the subsequent international
trade flows. This has caused concern, particularly among countries that are leading the action
against climate change, because their efforts to achieve deep emission reductions could put their
own pollution-intensive producers at a competitive disadvantage in the global economy.
There are two different views in the environmental economics literature on the effects of
asymmetric policies on the performance of companies competing in the same market: the
pollution haven hypothesis and the Porter hypothesis. The pollution haven hypothesis, which
is based on trade theory, predicts that more stringent environmental policies will increase
compliance costs and, over time, shift pollution-intensive production toward low abatement
cost regions, creating pollution havens and causing policy-induced pollution leakage
(e.g., Levinson and Taylor, 2008). This is a particularly troubling problem for global pollutants
such as carbon dioxide, because it means that on top of the economic impacts on domestic
firms, abatement efforts will be offset to some extent by increasing emissions in other regions.
*Grantham Research Institute on Climate Change and the Environment, London School of Economics,
Houghton Street, London WC2A 2AE, United Kingdom. Tel:þ44 (0)207 852 3626; e-mail: [email protected]
lse.ac.uk.
†
Grantham Research Institute on Climate Change and the Environment, London School of Economics,
Houghton Street, London WC2A 2AE, United Kingdom. Tel: þ44 (0)207 107 5412; e-mail: [email protected]
lse.ac.uk.
We would like to thank Milan Brahmbhatt, Raphael Calel, Baran Doda, Damien Dussaux, Carolyn Fischer,
Matthieu Glachant, Colin McCormick, and Dimitri Zenghelis for helpful comments on an earlier version of
this article. We are grateful to three anonymous referees for very constructive comments and suggestions.
Financial support has come from the Global Green Growth Institute, the Grantham Foundation for the
Protection of the Environment, the European Union Seventh Framework Programme (FP7/2007-2013)
under grant agreement no. 308481 (ENTRACTE), and the UK Economic and Social Research Council
through the Centre for Climate Change Economics and Policy.
Review of Environmental Economics and Policy, volume 11, issue 2, Summer 2017, pp. 183–206
doi: 10.109.
The Impacts of EnvironmentalRegulations on Competitiveness.docxrtodd33
The Impacts of Environmental
Regulations on Competitiveness
Antoine Dechezleprêtre* and Misato Sato
†
Introduction
Ever since the first major environmental regulations were enacted in the 1970s, there has been
much debate about their potential impacts on the competitiveness of affected firms. Businesses
and policy makers fear that in a world that is increasingly characterized by the integration of trade
and capital flows, large asymmetries in the stringency of environmental policies could shift
pollution-intensive production capacity toward countries or regions with less stringent regula-
tion, altering the spatial distribution of industrial production and the subsequent international
trade flows. This has caused concern, particularly among countries that are leading the action
against climate change, because their efforts to achieve deep emission reductions could put their
own pollution-intensive producers at a competitive disadvantage in the global economy.
There are two different views in the environmental economics literature on the effects of
asymmetric policies on the performance of companies competing in the same market: the
pollution haven hypothesis and the Porter hypothesis. The pollution haven hypothesis, which
is based on trade theory, predicts that more stringent environmental policies will increase
compliance costs and, over time, shift pollution-intensive production toward low abatement
cost regions, creating pollution havens and causing policy-induced pollution leakage
(e.g., Levinson and Taylor, 2008). This is a particularly troubling problem for global pollutants
such as carbon dioxide, because it means that on top of the economic impacts on domestic
firms, abatement efforts will be offset to some extent by increasing emissions in other regions.
*Grantham Research Institute on Climate Change and the Environment, London School of Economics,
Houghton Street, London WC2A 2AE, United Kingdom. Tel:þ44 (0)207 852 3626; e-mail: [email protected]
lse.ac.uk.
†
Grantham Research Institute on Climate Change and the Environment, London School of Economics,
Houghton Street, London WC2A 2AE, United Kingdom. Tel: þ44 (0)207 107 5412; e-mail: [email protected]
lse.ac.uk.
We would like to thank Milan Brahmbhatt, Raphael Calel, Baran Doda, Damien Dussaux, Carolyn Fischer,
Matthieu Glachant, Colin McCormick, and Dimitri Zenghelis for helpful comments on an earlier version of
this article. We are grateful to three anonymous referees for very constructive comments and suggestions.
Financial support has come from the Global Green Growth Institute, the Grantham Foundation for the
Protection of the Environment, the European Union Seventh Framework Programme (FP7/2007-2013)
under grant agreement no. 308481 (ENTRACTE), and the UK Economic and Social Research Council
through the Centre for Climate Change Economics and Policy.
Review of Environmental Economics and Policy, volume 11, issue 2, Summer 2017, pp. 183–206
doi: 10.109.
The effect of adverse climate change is of major concern worldwide and several approaches are being developed to mitigate against anticipated economic and social disaster. Carbon emissions has been identified as a major contributor to the adverse climate change and following the Kyoto protocol , European countries have , through a caucus, effected a market to reward or fine members depending on their compliance position. The commodity for the market is the carbon emission credits. Stochastic models for pricing of options on these credits are considered in this paper. In particular, we determine the price basing on the Normal Inverse Gaussian and the Brownian Motion models. Maximum Likelihood Estimation is applied to determine model parameter estimates in each case. It is shown that the Normal Inverse Gaussian model has a better fit to the data but gives higher prices for a given strike price , compared to the Brownian Motion model.
IPCC, role of IPCC, IPCC AR5, key messages. approach in climate change mitigation, trends of green house gases, mitigation pathways and measures, mitigation policies and institutions,
FOOD SUPPLY CHAIN DECARBONISATION: TOWARDS A ZERO EMISSION IN BEVERAGES VALUE...indexPub
The rise in carbon dioxide and greenhouse gas (GHG) emissions in general were ushered in by industrial revolution due to industrial and human activities leading to global warming which accelerated climate change and more extreme weather occurrences in recent decades (IPCC, 2021). Consequently, the UN advocated for decarbonisation to achieve carbon neutrality by 2050 (Guterres, 2020). The prime objective of this paper was to assess various measures that beverage supply chain members can utilize to achieve decarbonisation of their value chain and offer specific suggestions to the stakeholders of beverage supply chain to address carbon the emission. In the quest to attain this objective, a "Preferred Reporting Items for Systematic Review and Meta-Analysis" (PRISM) method was used. A search was done in the Scopus, ProQuest, and Google Scholar databases using keywords that had been verified by specialists as part of the study. On these subjects, publications from the top journals were chosen. 150 articles were found by the bibliographical search, which was followed by several layers of filtering. In the end, 25 publications were reviewed and analysed, with the most pertinent articles being chosen for examination. The major findings of the research were that the quantity of carbon released doubled since 2001 owing to destruction of forests, the existing global pledges are insufficient, the world has already fallen short of the 2015 climate goals, and lack of adoption of essential technology tools to reduce carbon emission. Consequently, the study recommends the adoption of industry 4.0 technology tools like Virtual reality (VR), reduction of packaging material by the beverage industry, usage of smart electric energy from renewable sources and the implementation of reverse logistics to enhance carbon neutral by 2050.
77a Corresponding author. Statistics Norway, Research Depa.docxblondellchancy
77
a Corresponding author. Statistics Norway, Research Department. E-mail: [email protected], Tel: ( + 47)95867999.
b Statistics Norway, Research Department. E-mail: [email protected]
c Statistics Norway, Research Department. E-mail: [email protected]
d Statistics Norway, Research Department. E-mail: [email protected]
e Norwegian University of Life Sciences, School of Economics and Business. E-mail: [email protected]
The Energy Journal, Vol. 38, No. 1. Copyright � 2017 by the IAEE. All rights reserved.
Climate Policies in a Fossil Fuel Producing Country: Demand
versus Supply Side Policies
Taran Fæhn,a Cathrine Hagem,b Lars Lindholt,c Ståle Mæland,d and Knut Einar Rosendahle
ABSTRACT
In absence of joint global climate action, several jurisdictions unilaterally restrict
their domestic demand for fossil fuels. Another policy option for fossil fuel pro-
ducing countries, not much analysed, is to reduce own supply of fossil fuels. We
explore analytically and numerically how domestic demand and supply side pol-
icies affect global emissions, contingent on market behaviour. Next, in the case
of Norway, we find the cost-effective combination of the two types of policies.
Our numerical results indicate that given a care for global emissions, and a desire
for domestic action, about 2/3 of the emission reductions should come through
supply side measures.
Keywords: Climate policies, Carbon leakages, Oil extraction, Supply side
climate policies, Demand side climate policies
https://doi.org/10.5547/01956574.38.1.tfae
1. INTRODUCTION
In the context of a global climate agreement, a cap on fossil fuel consumption would have
the same effects on global emissions as a cap on fossil fuel extraction, as consumption must equal
extraction at the global level. If fossil fuel markets were efficient, the global costs of reducing
emissions would also be the same. In this first-best situation, demand and supply side policies
coincide with respect to efficiency. However, with limited participation in a climate agreement, or
with unilateral action by a single country or coalition of countries, demand side versus supply side
policies matters. Many jurisdictions show willingness to reduce CO2-emissions by restricting do-
mestic demand for fossil fuels. Domestic supply side policies are less frequently discussed, let alone
pursued.
The purpose of this paper is to deduce the cost-effective combination of the two types of
policies, given a target for a country’s (or coalition’s) contribution to global CO2 abatement. The
result hinges critically on how domestic demand side and supply side policies affect global emis-
sions through international markets. We explore analytically and numerically how the optimal
domestic climate policies depend on market behaviour in the fossil fuel markets, the emissions
from extraction, and the costs of downscaling domestic fossil fuel demand and supply.
Domestic policy measures that reduce fossil fuel demand lead to lower internationa ...
Green Talks LIVE | Assessing the Economic Impacts of Environmental PoliciesOECD Environment
On 17 May 2021, OECD Chief Economist Laurence Boone launched a publication presenting evidence from a decade of OECD research and analysis, which looks at the relationship between environmental policies and economic outcomes such as employment, investment, trade and productivity. Over the years, governments have gradually adopted more rigorous environmental policies to tackle challenges associated with pressing environmental issues, such as climate change, air pollution, waste management or biodiversity loss. The ambition of these policies is, however, often tempered by their perceived negative effects on the economy.
In a world characterised by the rise in global value chains and capital flows, do differences in the stringency of environmental policies across countries alter firms’ competitiveness and cost jobs? Does taking the lead trigger a first-mover advantage? What are the differentiated impacts across firms, industries and regions? And are these policies effective in reducing emissions from industry?
We explored these questions in the context of the Covid-19 crisis and green recovery during a Green Talks LIVE webinar with insights on designing environmental policies to ensure the largest benefits and compensate workers and industries that may lose out. The presentation was followed by a panel discussion with guest speakers.
Introduction: Rodolfo Lacy, OECD Environment Director
Presentation of key findings: Laurence Boone, OECD Chief Economist
Panel discussion with:
• Al McGartland, Director, National Center for Environmental Economics, United States Environmental Protection Agency
• Clare Lombardelli, Chief Economic Adviser, HM Treasury, United Kingdom
• Riccardo Barbieri, Chief Economist, Italian Treasury
Moderated by: Shardul Agrawala, Head of the OECD Environment and Economy Integration Division
Find the report here: https://www.oecd.org/environment/assessing-the-economic-impacts-of-environmental-policies-bf2fb156-en.htm
International Journal of Humanities and Social Science Invention (IJHSSI)inventionjournals
International Journal of Humanities and Social Science Invention (IJHSSI) is an international journal intended for professionals and researchers in all fields of Humanities and Social Science. IJHSSI publishes research articles and reviews within the whole field Humanities and Social Science, new teaching methods, assessment, validation and the impact of new technologies and it will continue to provide information on the latest trends and developments in this ever-expanding subject. The publications of papers are selected through double peer reviewed to ensure originality, relevance, and readability. The articles published in our journal can be accessed online
Global climate change threatens to disrupt the well-being of society, undermine economic development and alter the natural environment, making it an urgent policy priority for the 21st century. Governments around the world have reached consensus on the need to achieve large cuts in greenhouse gas (GHG) emissions over the coming decades, to adapt to the impacts of climate change, and to ensure the necessary financial and technical support for developing countries to take action.
how to sell pi coins effectively (from 50 - 100k pi)DOT TECH
Anywhere in the world, including Africa, America, and Europe, you can sell Pi Network Coins online and receive cash through online payment options.
Pi has not yet been launched on any exchange because we are currently using the confined Mainnet. The planned launch date for Pi is June 28, 2026.
Reselling to investors who want to hold until the mainnet launch in 2026 is currently the sole way to sell.
Consequently, right now. All you need to do is select the right pi network provider.
Who is a pi merchant?
An individual who buys coins from miners on the pi network and resells them to investors hoping to hang onto them until the mainnet is launched is known as a pi merchant.
debuts.
I'll provide you the Telegram username
@Pi_vendor_247
The European Unemployment Puzzle: implications from population agingGRAPE
We study the link between the evolving age structure of the working population and unemployment. We build a large new Keynesian OLG model with a realistic age structure, labor market frictions, sticky prices, and aggregate shocks. Once calibrated to the European economy, we quantify the extent to which demographic changes over the last three decades have contributed to the decline of the unemployment rate. Our findings yield important implications for the future evolution of unemployment given the anticipated further aging of the working population in Europe. We also quantify the implications for optimal monetary policy: lowering inflation volatility becomes less costly in terms of GDP and unemployment volatility, which hints that optimal monetary policy may be more hawkish in an aging society. Finally, our results also propose a partial reversal of the European-US unemployment puzzle due to the fact that the share of young workers is expected to remain robust in the US.
FOOD SUPPLY CHAIN DECARBONISATION: TOWARDS A ZERO EMISSION IN BEVERAGES VALUE...indexPub
The rise in carbon dioxide and greenhouse gas (GHG) emissions in general were ushered in by industrial revolution due to industrial and human activities leading to global warming which accelerated climate change and more extreme weather occurrences in recent decades (IPCC, 2021). Consequently, the UN advocated for decarbonisation to achieve carbon neutrality by 2050 (Guterres, 2020). The prime objective of this paper was to assess various measures that beverage supply chain members can utilize to achieve decarbonisation of their value chain and offer specific suggestions to the stakeholders of beverage supply chain to address carbon the emission. In the quest to attain this objective, a "Preferred Reporting Items for Systematic Review and Meta-Analysis" (PRISM) method was used. A search was done in the Scopus, ProQuest, and Google Scholar databases using keywords that had been verified by specialists as part of the study. On these subjects, publications from the top journals were chosen. 150 articles were found by the bibliographical search, which was followed by several layers of filtering. In the end, 25 publications were reviewed and analysed, with the most pertinent articles being chosen for examination. The major findings of the research were that the quantity of carbon released doubled since 2001 owing to destruction of forests, the existing global pledges are insufficient, the world has already fallen short of the 2015 climate goals, and lack of adoption of essential technology tools to reduce carbon emission. Consequently, the study recommends the adoption of industry 4.0 technology tools like Virtual reality (VR), reduction of packaging material by the beverage industry, usage of smart electric energy from renewable sources and the implementation of reverse logistics to enhance carbon neutral by 2050.
77a Corresponding author. Statistics Norway, Research Depa.docxblondellchancy
77
a Corresponding author. Statistics Norway, Research Department. E-mail: [email protected], Tel: ( + 47)95867999.
b Statistics Norway, Research Department. E-mail: [email protected]
c Statistics Norway, Research Department. E-mail: [email protected]
d Statistics Norway, Research Department. E-mail: [email protected]
e Norwegian University of Life Sciences, School of Economics and Business. E-mail: [email protected]
The Energy Journal, Vol. 38, No. 1. Copyright � 2017 by the IAEE. All rights reserved.
Climate Policies in a Fossil Fuel Producing Country: Demand
versus Supply Side Policies
Taran Fæhn,a Cathrine Hagem,b Lars Lindholt,c Ståle Mæland,d and Knut Einar Rosendahle
ABSTRACT
In absence of joint global climate action, several jurisdictions unilaterally restrict
their domestic demand for fossil fuels. Another policy option for fossil fuel pro-
ducing countries, not much analysed, is to reduce own supply of fossil fuels. We
explore analytically and numerically how domestic demand and supply side pol-
icies affect global emissions, contingent on market behaviour. Next, in the case
of Norway, we find the cost-effective combination of the two types of policies.
Our numerical results indicate that given a care for global emissions, and a desire
for domestic action, about 2/3 of the emission reductions should come through
supply side measures.
Keywords: Climate policies, Carbon leakages, Oil extraction, Supply side
climate policies, Demand side climate policies
https://doi.org/10.5547/01956574.38.1.tfae
1. INTRODUCTION
In the context of a global climate agreement, a cap on fossil fuel consumption would have
the same effects on global emissions as a cap on fossil fuel extraction, as consumption must equal
extraction at the global level. If fossil fuel markets were efficient, the global costs of reducing
emissions would also be the same. In this first-best situation, demand and supply side policies
coincide with respect to efficiency. However, with limited participation in a climate agreement, or
with unilateral action by a single country or coalition of countries, demand side versus supply side
policies matters. Many jurisdictions show willingness to reduce CO2-emissions by restricting do-
mestic demand for fossil fuels. Domestic supply side policies are less frequently discussed, let alone
pursued.
The purpose of this paper is to deduce the cost-effective combination of the two types of
policies, given a target for a country’s (or coalition’s) contribution to global CO2 abatement. The
result hinges critically on how domestic demand side and supply side policies affect global emis-
sions through international markets. We explore analytically and numerically how the optimal
domestic climate policies depend on market behaviour in the fossil fuel markets, the emissions
from extraction, and the costs of downscaling domestic fossil fuel demand and supply.
Domestic policy measures that reduce fossil fuel demand lead to lower internationa ...
Green Talks LIVE | Assessing the Economic Impacts of Environmental PoliciesOECD Environment
On 17 May 2021, OECD Chief Economist Laurence Boone launched a publication presenting evidence from a decade of OECD research and analysis, which looks at the relationship between environmental policies and economic outcomes such as employment, investment, trade and productivity. Over the years, governments have gradually adopted more rigorous environmental policies to tackle challenges associated with pressing environmental issues, such as climate change, air pollution, waste management or biodiversity loss. The ambition of these policies is, however, often tempered by their perceived negative effects on the economy.
In a world characterised by the rise in global value chains and capital flows, do differences in the stringency of environmental policies across countries alter firms’ competitiveness and cost jobs? Does taking the lead trigger a first-mover advantage? What are the differentiated impacts across firms, industries and regions? And are these policies effective in reducing emissions from industry?
We explored these questions in the context of the Covid-19 crisis and green recovery during a Green Talks LIVE webinar with insights on designing environmental policies to ensure the largest benefits and compensate workers and industries that may lose out. The presentation was followed by a panel discussion with guest speakers.
Introduction: Rodolfo Lacy, OECD Environment Director
Presentation of key findings: Laurence Boone, OECD Chief Economist
Panel discussion with:
• Al McGartland, Director, National Center for Environmental Economics, United States Environmental Protection Agency
• Clare Lombardelli, Chief Economic Adviser, HM Treasury, United Kingdom
• Riccardo Barbieri, Chief Economist, Italian Treasury
Moderated by: Shardul Agrawala, Head of the OECD Environment and Economy Integration Division
Find the report here: https://www.oecd.org/environment/assessing-the-economic-impacts-of-environmental-policies-bf2fb156-en.htm
International Journal of Humanities and Social Science Invention (IJHSSI)inventionjournals
International Journal of Humanities and Social Science Invention (IJHSSI) is an international journal intended for professionals and researchers in all fields of Humanities and Social Science. IJHSSI publishes research articles and reviews within the whole field Humanities and Social Science, new teaching methods, assessment, validation and the impact of new technologies and it will continue to provide information on the latest trends and developments in this ever-expanding subject. The publications of papers are selected through double peer reviewed to ensure originality, relevance, and readability. The articles published in our journal can be accessed online
Global climate change threatens to disrupt the well-being of society, undermine economic development and alter the natural environment, making it an urgent policy priority for the 21st century. Governments around the world have reached consensus on the need to achieve large cuts in greenhouse gas (GHG) emissions over the coming decades, to adapt to the impacts of climate change, and to ensure the necessary financial and technical support for developing countries to take action.
how to sell pi coins effectively (from 50 - 100k pi)DOT TECH
Anywhere in the world, including Africa, America, and Europe, you can sell Pi Network Coins online and receive cash through online payment options.
Pi has not yet been launched on any exchange because we are currently using the confined Mainnet. The planned launch date for Pi is June 28, 2026.
Reselling to investors who want to hold until the mainnet launch in 2026 is currently the sole way to sell.
Consequently, right now. All you need to do is select the right pi network provider.
Who is a pi merchant?
An individual who buys coins from miners on the pi network and resells them to investors hoping to hang onto them until the mainnet is launched is known as a pi merchant.
debuts.
I'll provide you the Telegram username
@Pi_vendor_247
The European Unemployment Puzzle: implications from population agingGRAPE
We study the link between the evolving age structure of the working population and unemployment. We build a large new Keynesian OLG model with a realistic age structure, labor market frictions, sticky prices, and aggregate shocks. Once calibrated to the European economy, we quantify the extent to which demographic changes over the last three decades have contributed to the decline of the unemployment rate. Our findings yield important implications for the future evolution of unemployment given the anticipated further aging of the working population in Europe. We also quantify the implications for optimal monetary policy: lowering inflation volatility becomes less costly in terms of GDP and unemployment volatility, which hints that optimal monetary policy may be more hawkish in an aging society. Finally, our results also propose a partial reversal of the European-US unemployment puzzle due to the fact that the share of young workers is expected to remain robust in the US.
The secret way to sell pi coins effortlessly.DOT TECH
Well as we all know pi isn't launched yet. But you can still sell your pi coins effortlessly because some whales in China are interested in holding massive pi coins. And they are willing to pay good money for it. If you are interested in selling I will leave a contact for you. Just telegram this number below. I sold about 3000 pi coins to him and he paid me immediately.
Telegram: @Pi_vendor_247
when will pi network coin be available on crypto exchange.DOT TECH
There is no set date for when Pi coins will enter the market.
However, the developers are working hard to get them released as soon as possible.
Once they are available, users will be able to exchange other cryptocurrencies for Pi coins on designated exchanges.
But for now the only way to sell your pi coins is through verified pi vendor.
Here is the telegram contact of my personal pi vendor
@Pi_vendor_247
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how can I sell pi coins after successfully completing KYCDOT TECH
Pi coins is not launched yet in any exchange 💱 this means it's not swappable, the current pi displaying on coin market cap is the iou version of pi. And you can learn all about that on my previous post.
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Message: @Pi_vendor_247 on telegram.
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#kyc #mainnet #picoins #pi #sellpi #piwallet
#pinetwork
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@Pi_vendor_247
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Yes. You can sell your pi network coins in South Korea or any other country, by finding a verified pi merchant
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Since pi network is not launched yet on any exchange, the only way you can sell pi coins is by selling to a verified pi merchant, and this is because pi network is not launched yet on any exchange and no pre-sale or ico offerings Is done on pi.
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Well for those who haven't traded with a pi merchant or who don't already have one. I will leave the telegram id of my personal pi merchant who i trade pi with.
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Where can I sell my pi coins at a high rate.
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A vendor is someone who buys from a miner and resell it to a holder or crypto whale.
Here is the telegram contact of my vendor:
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Turin Startup Ecosystem 2024 - Ricerca sulle Startup e il Sistema dell'Innov...Quotidiano Piemontese
Turin Startup Ecosystem 2024
Una ricerca de il Club degli Investitori, in collaborazione con ToTeM Torino Tech Map e con il supporto della ESCP Business School e di Growth Capital
1. Regulatory Stringency and
Emission Leakage Mitigation
Fabio Antoniou
Panos Hatzipanayotou
Nikos Tsakiris
Working Paper Series
23-02
January 2023
DEPARTMENT OF INTERNATIONAL AND
EUROPEAN ECONOMIC STUDIES
ATHENS UNIVERSITY OF ECONOMICS AND BUSINESS
2. Regulatory Stringency and Emission Leakage Mitigation
Fabio Antoniou, Panos Hatzipanayotouy
and Nikos Tsakirisz
January 13, 2023
Abstract
We construct a two-country trade model where emissions are an input in production and
generate cross-border pollution. We examine the strategic incentives of an active regulator that
sets a binding level of emissions in production. We show that, in the presence of terms of trade
and emission leakage strategic motives, tighter regulation can mitigate emission leakage, reduce
global pollution, and improve a country’
s welfare. This result and the corresponding policy
implications depend on the relative magnitude of emissions intensities of goods between sectors
and on their relationship in production and consumption.
Keywords: Environmental Regulation, International Trade, Emission Leakage, Cross-
border Pollution.
JEL classi…cation: F18; H23; Q54.
Department of Economics, Athens University of Economics and Business; 76, Patission str., Athens 104 34,
Greece. Email: fantoniou@aueb.gr
y
Corresponding Author: Department of International and European Economic Studies, Athens University of
Economics and Business; 76, Patission str., Athens 104 34, Greece, and CESifo (Center for Economic Studies and
the Ifo Institute of Economic Research). E-mail: hatzip@aueb.gr
z
Department of Economics, University of Ioannina, P.O. Box 1186, 45110 Ioannina, Greece. E-mail: ntsak@uoi.gr
3. 1 Introduction
Carbon leakage is a phenomenon in which reduction of emissions in one country or region leads to
an increase in emissions elsewhere. It is a controversial issue, as it can undermine the e¤ectiveness of
unilateral environmental policies in reducing emissions. Tighter environmental policies in developed
countries have a leakage rate of 15%-25%. This implies that a reduction of 100 tons of carbon
emissions domestically would be accompanied by an increase of 15-25 tons abroad (Misch and
Wingender, 2021). The Organisation for Economic Co-operation and Development (OECD) has
conducted research on the issue of carbon leakage regarding the production of agricultural products.
Their study found that if European Union countries were to implement a carbon tax of 100 dollars
per ton of carbon emissions by 2050, approximately half of their emission reductions would be o¤set
by carbon leakage. Furthermore, if the number of countries applying the tax were to be expanded
to include all OECD countries, plus Brazil, China and other non-OECD countries from East Asia,
the leakage rate would decrease to 21%, resulting in a total global reduction of carbon emissions
by 9.6% compared to baseline emissions (Henderson and Verma, 2021).
By and large, unilateral attempts by countries to address environmental degradation may fail
to achieve lower levels of emissions due to the leakage e¤ects. These concerns are ampli…ed when
terms of trade or rent shifting motives are present.1 As a way to overcome these adversities, a
number of studies proposes the use of trade measures, e.g., Border Carbon Adjustments (BCAs),
alongside with environmental policies, in order to impede higher carbon emissions from abroad, e.g.,
Elliott et al. (2010), Fischer and Fox (2012), Jakob et al. (2013), Keen and Kotsogiannis (2014),
Böhringer et al. (2014), Böhringer et al. (2017), Balistreri et al. (2019), Al Khourdajie and Finus
(2020), and Kaushal and Rosendahl (2020).2 Recently, the European Commission introduced the
proposal of a Carbon Border Adjustment Mechanism as part of the European Green Deal (COM
2021).
The overall evidence on the impacts of tighter environmental policies on carbon leakage remains
controversial. While some studies suggest that there is a signi…cant level of carbon leakage occur-
1
The literature on strategic environmental policy, e.g., Barrett (1994), Rauscher (1994), Neary (2006), Antoniou
et al. (2014) show that governments have strong incentives to use environmental policies strategically to capture
the terms of trade or rent shifting motives. Thus, non-cooperative policymaking can lead governments to ecological
dumping.
2
Karakosta (2018) using a vertically di¤erentiated duopoly framework with environmentally aware consumers,
examines, among others, the e¤ectiveness of border carbon adjustments when pollution is local.
1
4. ring due to these policies, other studies suggest that the impacts are relatively minor. Aichele and
Felbermayr (2012, 2015) …nd strong evidence for emission leakage. Speci…cally, they show that
binding commitments under the Kyoto Protocol have increased ratifying countries’embodied car-
bon imports from non-Kyoto countries by about 8% and the emission intensity of their imports by
about 3%. Larch and Wanner (2017) use a multi-sector, multi-factor structural gravity model and
show that, under the Copenhagen Accord, combining national emission targets with carbon tari¤s
reduce carbon leakage rate from 13.4% to 4.1%. Other studies conclude that the empirical evidence
does not support the presence of carbon leakage. For example, Dechezleprêtre et al. (2022) for the
period 2007–
2014 …nd little or no evidence that European Union Emissions Trading System (EU
ETS) has led to a shift of carbon emissions from Europe toward the rest of the world. Branger and
Quirion (2014) show that carbon leakage depends strongly upon sectoral carbon costs and trade
intensity. Branger et al. (2017) …nd no evidence of carbon leakage in cement and steel industries
under the EU Emissions Trading Scheme.
Contribution of the paper: These controversial …ndings mandate the need for further research
and improved understanding of the structure and relative emission intensities between the di¤erent
sectors of the economy, those that are exposed versus those that are not exposed to trade. The
present paper aims to complement these studies and bring into light new insights that contribute
further on this debate. Speci…cally, by accounting for both tradable and non-tradable goods (or
equivalently sectors), and for the use of emissions as an input in production, it is shown that
the relative emissions intensities of tradable and non-tradable goods, and their relationship in
production and consumption are crucial in determining the direction of emissions leakage and of
terms of trade e¤ects.
We construct a two-country model, with three-goods (sectors), two tradables and a non-tradable,
where emissions can be an input in the production of these goods. Due to the use of emissions
in production, cross-border pollution is generated and it adversely a¤ects consumers’ utility in
the two countries. To regulate this transboundary environmental externality, governments set a
binding level of allowable emissions — a cap — in production. We set conditions under which a
unilateral stricter environmental policy by a country mitigates the emission leakage and improve
its terms of trade. Speci…cally, within the context of our model, a lower emissions cap achieves
these two strategic motives, depending on the emissions intensities of the importable and the non-
2
5. tradable goods and on, what we call„their general equilibirum relationship, i.e., the relationship
between these goods in production and consumption. When the non-tradable good is relatively
more pollution-intensive compared to the importable, and the two goods are general equilibrium
complements, then, a stricter environmental policy reduces the world price of the importable good.
The reduction in the world price of a country’
s importable, constitutes an improvement in its
terms of trade and reduces production and its associated pollution generated abroad. A similar
result emerges when the importable good is pollution-intensive while the non-tradable good is
non-pollution-intensive and the two goods are general equilibrium substitutes.
Thus, in our framework a unilateral environmental policy by a country may be e¤ective in
reducing pollution, and at the same time temper down environmental damages in the presence of
terms of trade and emission leakage motives. Interestingly enough, this result can be of relevance
from a policy perspective. The reason is that it does not necessitate the use of additional policy
instruments, such as BCAs or the implementation of transfers within regions as suggested by Pe-
trakis and Xepapadeas (1996) in order to control for emissions leakage. In times where sustainable
global environmental agreements are di¢ cult to reach, such features may improve the design of pol-
lution mitigating and welfare improving environmental policies by taking into account the relative
intensities of emissions in di¤erent sectors, as well as the speci…c relations of the di¤erent goods in
production and consumption. Our …ndings suggest that a double dividend following tighter regu-
lation, i.e., improving terms of trade and reducing emissions, can be present which is reminiscent
of the Porter hypothesis (e.g., Xepapadeas and de Zeeuw, 1999), though the transmission channel
is quite di¤erent.
Related Literature: In the absence of non-tradable goods, Rauscher (1997) show that free trade
can exacerbate carbon leakage e¤ects and lead to a race to the bottom in emission tax rates and
further environmental degradation. Petrakis and Xepapadeas (2003) …ndings imply that carbon
leakage occurs more frequently when the regulator is unable to commit on a speci…c level of tax on
emissions. Copeland and Taylor (2005) examine whether unilateral emision reduction in one group
of countries will lead to emission increases to the rest of the world. They show that in an open
trading world unilateral emission reductions by one group of countries can create endogenous and
self-interested emissions reductions in unconstrained countries. Böhringer et al. (2014) construct
a two country perfectly competitive model, where energy is produced locally in each country and
3
6. it is used as an input in the production of tradable goods. They show that uniform emissions
taxation across all sectors is preferable to di¤erentiated taxation of emissions, and it is a practical
guideline for unilateral climate policy design even in the presence of terms of trade and carbon
leakage motives.
In the presence of non-tradable goods, Böhringer et al. (2017) show that, in order to reduce
global pollution, setting the emission tax at the Pigouvian level should be combined with output-
based rebating carbon tax payments and a consumption tax for emission-intensive and tradable
goods. Holladay et al. (2018) shows that emission leakage occurs when free trade is allowed to
services, the clean sector. However, no leakage occurs when the service sector is non-tradable.
The above studies either with or without non-tradables goods conclude that a stricter unilateral
environmental policy by a country results to a positive leakage e¤ect, i.e., higher carbon emissions in
the rest of the world as a result of such a policy. Another strand of the literature, however, without
non-tradable goods, attests a negative leakage e¤ect, i.e., lower carbon emissions in the rest of the
world as a result of such a policy. Baylis et al. (2013, 2014) in a two-country, two-good, two-factor
context. They show that due to the substitutability of factors of production, a higher carbon tax in
one of the two sectors will increase private sector’
s pollution abatement. This "abatement resource
e¤ect" results in negative e¤ect on leakage. The carbon tax increase also results into a positive
e¤ect on leakage, in line with the standard literature. The overall leakage e¤ect is determined by the
magnitude of the two opposing e¤ects. Egger et al. (2021), in a model of international trade with
heterogeneous …rms, show that a higher emission tax will lead to a reduction in Foreign emissions.
In their model the negative leakage occurs due to a reallocation of labor towards abatement in
the foreign country. Pantelaiou et al. (2020) argue that tighter environmental policy can result in
export promotion and thus a¤ect accordingly the terms of trade and the emissions from abroad,
but their …ndings depend on the mode of regulation as well as the usage of revenues from taxation.
2 The Model
We consider a two-country world, Home and Foreign. Foreign’
s variables are denoted by an aster-
isk. Home produces three commodities, an exportable non-polluting good 1, considered to be the
numeraire commodity, an importable good 2, and a non-tradable good 3, e.g., transport, electricity
4
7. production. Home produces all three goods, while Foreign produces only the tradable goods 1 and
2.3 Many primary factors (m); assumed to be fully employed and in …xed endowments, are used as
inputs in production in the two countries. In addition, pollution is an input in the production of
good 2, and in the production of good 3 in Home.4 The use of emissions as an input in production
generates cross-border (transboundary) pollution which impacts negatively the welfare of residents
in Home and Foreign. Home’
s government is active in regulating this environmental damage by
setting a binding level of allowable emissions, z, while, Foreign, is assumed to be inactive (passive)
in controlling the generated environmental damage.
Home’
s production functions for the three goods are denoted as x1(m1), y2(m2; z2), h3(m3; z3),
where mj, j = 1; 2; 3 is the vector of primary factors used in the production of the jth good, and
P3
j=1 mj = m. zj, j 6= 1, is the level (quantity) of emissions used as input in the production of
goods 2 and 3. Similarly, for Foreign x1(m1) and y2(m2; z ), respectively, denote the production
functions of goods 1 and 2 in the country, where mj , j = 1; 2 is the vector of primary factors used
in the production of goods 1 and 2, respectively, and
P2
j=1 mj = m . z is the level of pollution
emissions inputted as factor in Foreign’
s production of good 2. For the purposes of our analysis,
good 1 is Home’
s (Foreign’
s) exportable (importable good), and the polluting good 2 is Foreign’
s
(Home’
s) exportable (importable) good. All goods and factor markets are perfectly competitive.
Pollution is cross-border, i.e., transboundary, a¤ecting negatively households’utility in the two
countries. The overall level of pollution in Home (r), and in Foreign (r ) are respectively de…ned
as follows:
r = z + z (p) and r = z (p) + z, (1)
where z(= z2 + z3) 6 z , and p, to be determined later on, is the world relative price of good
2, Home’
s (Foreign’
s) importable (exportable) commodity. As such, 1
p and p respectively denote
Home and Foreign’
s terms of trade. Reasonably, we assume that since Foreign is inactive in its
environmental regulation, the level of pollution generated from the local production of the tradable
3
For analytical tractability our model considers the presence of non-tradable goods only in one country. The
present model can be extended to include non-tradable goods in both countries at the cost of additional analytical
complexity.
4
This assumption follows standard practice in the relevant literature, e.g., Oates and Schwab (1998), Ulph (1997),
Copeland and Taylor (2004), Ishikawa and Kiyono (2006), Golosov et al. (2014). Although we treat pollution an
input in the production process, the model can be easily modi…ed to consider pollution as a by product of production,
e.g., see Xepapadeas (1997).
5
8. good 2, i.e., z , is positively related to the changes in, p, which then determine the level of local
production of good 2 and the level of emissions required as input in its production. Thus, z = z (p),
and @z
@p = zp > 0. The two parameters and 2 (0; 1] denote the rate of cross-border pollution
between the two countries. The limit case where = = 0 captures the case of local pollution.
Global perfect cross-border pollution is de…ned as r = r where = = 1.5
Next, we present the production and demand conditions in the two countries. To this end,
and for analytical convenience and simplicity, the theoretical formulation of the model is based on
duality theory, e.g., Copeland (1994, 2011).6
2.1 Production and demand
The production side of each economy is characterized by the Gross Domestic Product (GDP)
function. Home’
s government sets an upper limit on allowable emissions z. Its GDP is de…ned by
the restricted revenue function:7
R(p; q; z) = max fx1 + py2 + qh3 : (x1; y2; h3) 2 (m; z); z 6 zg :
It captures the maximum value of production at producer prices p and q; given (m; z), the
country’
s set of production possibilities, de…ned over m and z, i.e., the country’
s endowment of
primary factors and the government’
s set level of allowable pollution emissions. q is the relative price
for the non-tradable good. By the Envelope Theorem, the partial derivatives of the GDP function
with respect of p, i.e., @R
@p = Rp(p; q; z) = Rp, is the supply function of good 2; and with respect to q,
5
In the relevant literature, there are various ways of modeling cross-border, thus, global pollution. For exam-
ple, Conconi (2003) de…nes a country’
s, e.g., Home, total level of pollution (environmental damage) as Z (p; p ) =
N
P
i=1
[(1 i) Ei (pi) + iEi (pi )] ;where p (p ) are vectors of producer prices, Ei and Ei are the levels of emissions
generated by sector (i) in the two countries, (1 i) and i are the relative weights associated with domestic and
foreign emissions in sector i. Equivalently Z (p; p ) de…nes total level of pollution in another country, e.g., Foreign.
i = i = 0 represents the case of local pollution, and i = i = 1=2 captures the case of global pollution where both
(all) countries are equally a¤ected buy a unit of pollution, irrespectively of where it is generated.
6
Although the primary approach, i.e., direct utility and production functions can be applied equally well, the
analytics of duality are much clearer.
7
Within our context, the “restricted” GDP function corresponds to the value of production in the presence of
the imposed restriction of the environmental standard. In the context of trade models, the seminal contribution to
the construction and properties of the restricted GDP function due to, e.g., unemployment or international capital
mobility, is attributed to Neary (1985). He proves that the restricted GDP function retains the properties of the
“un-restricted” revenue function, provided that the levels of employment of the restricted factors are interpreted as
negative outputs sold at …xed prices. For a recent implementation, but in a di¤erent context, of the restricted GDP
function, see Antoniou et al. (2019).
6
9. i.e., @R
@q = Rq, is the supply function of the non-tradable commodity 3. The partial derivative with
respect to z, i.e., @R=@z = Rz (:) = Rz > 0, can be interpreted in either of the following ways. First,
as the shadow price of emissions, or the general equilibrium marginal abatement cost. That is, the
loss in GDP, i.e., the loss in real income by @R=@z = Rz, due to lower level of overall production,
when the government lowers by one unit the level of allowable emissions. Alternatively, Rz can
be interpreted as the marginal gain in GDP, when the government relaxes the level of allowable
emissions by one unit, thus, the level of revenue from production increases by @R=@z = Rz, e.g.,
Ulph (1997), Copeland and Taylor (2004). The GDP function is strictly convex in prices, i.e.,
@Rp
@p = Rpp > 0 and
@Rq
@q = Rqq > 0, and strictly concave in z, i.e., @Rz=@z = Rzz < 0. Moreover,
when the cross-price derivative Rpq is negative, i.e., Rpq (= Rqp) =
@Rp
@q < 0; the importable and
the non-tradable goods are substitutes in production, else, when Rpq > 0, then, the two goods are
complements. The terms Rpz =
@Rp
@z and Rqz =
@Rq
@z , respectively, can be interpreted as a measure
of pollution intensity in the production of good j = 2; 3, e.g., Copeland 1994, Kreickemeier 2005,
and Neary 2006. It is worth making two points in regards to the signs of Rpz and Rqz. First, if
Rjz > 0, j = 2; 3 we de…ne the jth good as pollution-intensive. That is, an increase (decrease) in
the allowable level of emissions, ceteris paribus, increases (decreases) the output of the jth good.
Otherwise, i.e., if Rjz < 0, then, we de…ne the jth good as non-pollution-intensive. Second, in the
present context with many factors of production, it is conceivable to have Rpz > 0 and Rqz > 0
at the same time, i.e., both goods 2 and 3 to be pollution-intensive. Such would be the case, if,
e.g., all primary factors (m) are sector speci…c, and z is a general factor inputted in the production
of both goods 2 and 3.8 Foreign’
s GDP function, characterized by similar properties, is given
by R (p; z (p)) = max fx1 + py2 : (x1; y2) 2 (m ; z )g, where, y2(m ; z ) = @R
@p = Rp(:) is the
country’
s supply of good 2.
A representative household resides in each country and its preferences are described by the
8
Kreickemeier (2005) applies a similar methodology but in a quite di¤erent context of a small open economy with
many goods and factors, and involuntary unemployment. In analogy to our pollution-intensity of a sector, he de…nes
a general equilibrium measure of labor-intensity of a sector, if, and only if, an increase (decrease) in the price of the
jth
commodity raises (reduces) the economy-wide employment. Furthermore, in his framework, it is possible for all
goods to be labor intensive at the same time, e.g., when all the fully employed factors are sector speci…c, and labor,
in analogy to pollution emissions in our case, is a general (intersectorally used) factor.
7
10. minimum expenditure function. Home’
s minimum expenditure function is given by:
E (p; q; r; u) = min fc1 + pc2 + qc3 : U(c1; c2; c3; r) > ug :
The E (:) function captures the minimum expenditure required to achieve a given utility level u,
at prices p and q and level of global pollution r. The household’
s marginal willingness to pay for
reduction in pollution or the marginal environmental damage is given by @E
@r = Er and is positive
since pollution confers disutility, e.g., Copeland (1994), Ulph (1997), Keen and Kotsogiannis (2014).
By Shepard’
s Lemma, the partial derivative of the minimum expenditure function with respect to
p, i.e., @E
@p = Ep (= c2), gives the compensated demand for the tradable good 2, and @E
@q = Eq (= c3)
gives the compensated demand for the non-tradable good 3. The minimum expenditure function
is strictly concave in commodity prices, i.e., Epp < 0 and Eqq < 0, and is strictly convex in r,
i.e., Err > 0. Epq = Eqp > 0 (< 0) indicates that the importable and the non-tradable goods
are substitutes (complements) in consumption. We assume that all income e¤ects fall on the
numeraire commodity 1, i.e., Epu = Equ = 0, and that commodity demands are independent of
pollution, i.e., Epr = Eqr = 0. A utility function compatible with this speci…cation of the minimum
expenditure function is an additive and separable, in pollution, function, e.g., U (c1; c2; c3; r) =
F (c1; c2; c3) v(r). We assume that the sub-utility F (c1; c2; c3) = f(c2; c3) + c1 is quasi-linear
and increasing in consumptions, with income e¤ects falling on the numeraire commodity 1, and
v(r) is increasing and convex in r, e.g., Bandyopadhyay et al. (2013), Vlassis (2013), Tsakiris et
al. (2014). Foreign’
s minimum expenditure function for its representative household is given by
E (p; r; u ) = min fc1 + pc2 : U (c1; c2; r) > u g, with similar properties applying.
The two-country world economy is characterized by equations (1) and the following equilibrium
conditions:
Ep (:) Rp (:) + Ep (:) Rp (:) = 0; (2)
Eq (:) = Rq (:) ; (3)
E (p; q; r; u) R(p; q; z); (4)
E (p; r; u ) R (p; z (p)): (5)
8
11. Equilibrium condition (2), is the world market clearing condition by which the world demand for
the polluting tradable good 2, Ep +Ep, must equal its world supply Rp +Rp. Equilibrium condition
(3) captures the equilibrium in Home’
s non-tradable good market, requiring that domestic demand
Eq for the non-tradable good 3 must be equal to its domestic supply Rq. Conditions (4) and
(5), respectively, give the income-expenditure identity, i.e., the budget constraint, for Home and
Foreign’
s representative household. The representative households’budget constraints require that
consumption expenditure equals income from the production of the goods produced in the country.
The model comprises a six-equilibrium conditions system containing the unknowns (u; u ; r; r ; p; q)
and the policy parameter z, i.e., Home’
s upper limit of allowable pollution emissions. In the analy-
sis to follow, we examine the e¤ects of changes, e.g., a reduction, in the allowable level of pollution
emissions by Home, i.e., dz < 0, denoting a stricter environmental policy, on prices of goods 2
and 3, and we derive the country’
s optimal unilateral environmental policy level. Furthermore, the
discussion to follow assumes that Home uses the environmental policy strategically in the sense of
improving its terms of trade, i.e., targeting the reduction in the world price of its importable good
2 via the stricter environmental policy, i.e., dp
dz > 0.
3 The Price E¤ects of Environmental Policy
In this section we examine how changes in the level of allowable emissions a¤ects Home’
s terms of
trade, i.e., the world price of the Home’
s exportable good, i.e., the numeraire good 1, divided by
the world price of its importable, i.e., the polluting good 2. Home’
s terms of trade are improved
when the world relative price of the importable good (1=p) falls, and deteriorate when the world
relative price of the importable good rises.
The changes in Home’
s terms of trade and price of the non-tradable good due to changes in the
level of allowable emissions are given, using equation (A.1) in the Appendix, as follows:
dp
dz
= Rpz pqRqz
1
qq qq
1
; and (6)
dq
dz
= Rqz qpRpzH 1
H 1
. (7)
> 0 is the determinant of the left-hand side coe¢ cient of the system (A.1) in the Appendix.
9
12. H = pp + pp, pp = Epp Rpp and pp = Epp Rpp. pp and pp, respectively, denote
the e¤ect of changes in p on the compensated excess demand for good 2 in the two countries.
qq = Eqq Rqq captures the e¤ect of changes in q on Home’
s compensated excess demand for the
non-tradable commodity 3. By the properties of the GDP and minimum expenditure functions,
pp < 0, pp < 0, qq < 0, thus, H < 0. pq = (Epq Rpq) is the e¤ect of changes in q on Home’
s
compensated excess demand for the importable commodity 2. By our assumptions, if Home’
s
importable good 2 and the non-tradable good 3 are substitutes in consumption, i.e., Epq > 0, and
production, i.e., Rpq < 0 then, pq > 0. Hereon, when pq > 0 we de…ne goods 2 and 3 as general
equilibrium substitutes, else when pq < 0 we de…ne the two commodities as general equilibrium
complements, i.e., complements in consumption and production.
Equations (6) and (7) indicate that the e¤ect of a change in the level of z on Home’
s terms of
trade and price of the non-tradable good, depends on (i) the pollution intensity of the importable
and non-tradable goods, i.e., Rpz and Rqz, and (ii) on whether the two goods are general equilibrium
complements or substitutes, i.e., depending on whether pq ? 0.
Given these speci…cations, we examine su¢ cient, albeit not necessary conditions, under which
a tighter environmental regulation dz < 0, improves Home’
s terms of trade, i.e., dp
dz > 0. We state
and discuss these conditions in Lemma 1.
Lemma 1 A stricter environmental policy in the form of a lower level of z, reduces the world
price of the tradable good 2, i.e., dp
dz > 0, leading to an improvement in Home’
s terms of trade,
in the following cases: (I) the tradable good 2 is non-pollution-intensive, the non-tradable good 3 is
pollution-intensive, and the two goods are general equilibrium complements, or (II) goods 2 and 3
are pollution-intensive, general equilibrium complements, and the more pollution the non-tradable
good is relative to the importable, or (III) the tradable good 2 is pollution-intensive, the non-tradable
good 3 is non-pollution-intensive, the two goods are general equilibrium substitutes, and the larger
is the increase in the output of good 3 relative to the reduction of good 2 with the reduction in
allowable emissions.
Discussion: Case (I): equation (6) indicates that the tighter level of allowable emissions entails
a direct negative e¤ect on the world price of the tradable, non-pollution intensive, good 2, i.e.,
Rpz qq
1 > 0. Further to it, the lower level z entails an indirect e¤ect on p, via (i) its impact
10
13. on the demand for and supply of the non-tradable, pollution-intensive, good 3, and (ii) the general
equilibrium relationship of goods 2 and 3. Speci…cally, the lower level z reduces the production of
good 3, i.e., Rqz > 0, a¤ecting, ceteris paribus, positively its price. As a result, the compensated
excess demand for good 3 falls. Since goods 2 and 3 are assumed general equilibrium complements,
the compensated excess demand for good 2 also falls, entailing a further, to the direct, decrease in
the world price of good 2, i.e., pqRqz
1
qq qq
1 > 0. Overall, under the conditions of Case
(I), the lower z improves Home’
s terms of trade, i.e., dp
dz > 0.
A similar reasoning applies for the e¤ect of the lower z on q; the price of the non-tradable
pollution-intensive good 3, as depicted in equation (7). The lower level of z entails an increase in
q, i.e., RqzH 1 < 0, due to lower production of good 3. The indirect e¤ect of the lower z on q
emerges via (i) its impact on the demand for and supply of the tradable, non-pollution intensive
good 2, and (ii) the general equilibrium relationship of goods 2 and 3. The lower z increases the
production of the tradable good 2, i.e., Rpz < 0, a¤ecting, ceteris paribus, negatively its price. As
a result, the compensated excess demand for good 2 increases. Since the two goods are assumed
general equilibrium complements, the excess demand for good 3 also increases entailing a further
increase in the price of the non-tradable good 3, i.e., qpRpzH 1 H 1 < 0. Overall, under
the conditions of Case (I), lower z call for an increase in the price of the non-tradable, pollution-
intensive, good 3.
Case (II): By the conditions stated in Lemma 1 we have Rpz > 0, Rqz > 0 and pq < 0.
Now, the decrease in the allowable level of emissions reduces Home production of both polluting
goods 2 and 3: The lower level of z entails a positive impact on the world price of the tradable
good 2, i.e., Rpz qq
1, in equation (6), and, likewise, it entails a positive impact on the price of
the non-tradable good 3, i.e., RqzH 1 in equation (7). For both prices, however, the lower level
of z also entails a negative impact, rendering, an overall ambiguous price e¤ect. Speci…cally, as
far as this second e¤ect of the lower z on p is concerned, i.e., pq
1
qq Rqz qq
1, the lower z
leads to a reduction of the world price of the tradable good 2, following the reasoning of this e¤ect
presented in Case (I) above. If so, then, the more pollution intensive good 3 is relative to good 2,
i.e., Rqz Rpz, the more likely it is that, overall, the lower z reduces p, i.e., dp
dz > 0, signifying an
improvement in Home’
s terms of trade. Along the lines of the previous reasoning, and in accordance
with equation (7), on the one hand, the lower level of z, reduces the production of the non-tradable
11
14. good 3 and increases its price (q). On the other hand, however, the lower level of z by increasing the
price of good 2, reduces the compensated excess demand for good 2, thus also, the compensated
excess demand for good 3, since the goods are assumed general equilibrium complements. The
latter e¤ect entails a negative impact on the price q of the non-tradable good. Then, overall, the
lower level of z increases (decreases) the price of the pollution-intensive non-tradable good 3, the
more (less) pollution intensive this good is relative to good 2.
Case (III): By the conditions stated in Lemma 1 we have Rpz > 0, Rqz < 0, and pq > 0. A
stricter environmental policy, in the form of lower level of allowable emissions, by Home, lowers
the production of good 2 and increases the production of the non-tradable good 3. Following the
discussions of the previous two Cases, the lower z entails a positive impact on the world price of
the tradable good 2, i.e., Rpz qq
1, and a negative one, i.e., pqRqz
1. Overall, the lower z
improves Home’
s terms of trade, i.e., dp
dz > 0, assuming that goods 2 and 3 are general equilibrium
substitutes, i.e., pq > 0, and that the larger is the increase in the output of good 3 with the
reduction in allowable emissions, i.e., Rpz jRqzj.9
In the absence of non-tradable goods the standard result of the literature e.g., Copeland (2011),
Jakob et al. (2013), Keen and Kotsogiannis (2014), Böhringer et al. (2014), Balistreri et al. (2019),
Montagna et al. (2020), it is that a laxer environmental policy which improves a country’
s terms of
trade. Böhringer et al. (2017) in the presence of non-tradable goods show that when, a priori, the
emission tax is set at the Pigouvian level, then, other policy instruments such as a consumption tax
and an output-based rebating of emissions tax payments, are required to improve a country’
s terms
of trade. Contrary to this literature, we show that in the presence of non-tradable goods and the
use of allowable emissions only, it is a stricter rather than a laxer level of such allowable emissions
which can improve a country’
s terms of trade. This result depends on the emissions intensity of the
importable and the non-tradable goods and on, what we call, the general equilibrium relationship
between these goods.
Accordingly, a laxer environmental policy, captured by a higher level of allowable emissions,
i.e., dz > 0, improves Home’
s terms of trade in the following cases that are summarized in Lemma
2.
9
Although not discussed, for brevity, the e¤ect of changes in z on the price of the non-tradable good 3, in case
(III), the reasoning follows the one developed for case (I).
12
15. Lemma 2 A laxer environmental policy in the form of a higher level of z, improves Home’
s terms
of trade, i.e., dp
dz < 0, in the following cases: (I) the tradable good 2 is pollution-intensive, the non-
tradable good 3 is non-pollution-intensive, and the two goods are general equilibrium complements,
or (II) goods 2 and 3 are pollution-intensive and general equilibrium substitutes, or (III) good
2 is non-pollution-intensive, good 3 is pollution-intensive, the two goods are general equilibrium
substitutes, and the larger is the increase in the output of good 3 relative to the reduction of good 2
with the increase in allowable emissions, i.e., Rqz jRpzj.
The discussion of Lemma 2 can be built along the lines of that for Lemma 1.10
4 Environmental Policy, Aggregate Pollution, and Emission Leak-
age Mitigation
As a result of its environmental policy, Home realizes two e¤ects. The …rst e¤ect, described in
the previous section, is the terms of trade e¤ect, which entails changes in both countries’patterns
of production, thus, changes in the use of inputs, among which changes in the use of pollution
emissions. The second e¤ect, related to the induced terms of trade e¤ect, is the so-called emis-
sion leakage e¤ect, due to the assumed cross-border pollution between the two countries. For the
purposes of our analysis, we focus on the emission leakage e¤ect from Foreign to Home due to the
latter country’
s unilateral environmental policy. From a policy stand point, we argue that Home
can exploit the use of allowable emissions in production in order to maximize the country’
s welfare
via two strategic motives, (i) an improvement in the terms of trade, and (ii) the induced emission
leakage e¤ect. The analysis of this section nests the results of Lemmas 1 and 2 in Section 3,
regarding an improvement in Home’
s terms of trade due to a lower level of allowable pollution
emissions.
Using the results of the previous section, here, we discuss the impact of Home’
s stricter unilateral
environmental policy on aggregate pollution in the two countries, and we examine Home’
s optimal
level of z when pollution emissions are an input in the production of tradable and non-tradable
goods.
10
The analytical discussion of Lemma 2 is omitted since the stated results are in line with standard results of the
relevant literature, by which an improvement in a country’
s terms of trade emerges due to a laxer environmental
regulation, i.e., in our context, dz > 0 and dp
dz
< 0.
13
16. Regarding the impact of a lower level of z on overall pollution we note the following. Under
Lemma 1, pollution generated in Home, i.e., z, falls due to the country’
s stricter unilateral envi-
ronmental policy, and pollution generated in Foreign, i.e., z (p), also falls. The reason is that the
fall in p signi…es a worsening in Foreign’
s terms of trade, leading in a reduction in production of its
exportable good 2, hence, reduction in the use of emissions. Under Lemma 2, however, the impact
of a higher level of z on aggregate pollution is ambiguous. Speci…cally, pollution generated in Home
increases due to its laxer unilateral environmental policy, while in Foreign, pollution falls due to
the policy induced worsening in the country’
s terms of trade. We state the following Lemma.
Lemma 3 Under the conditions of Lemma 1, aggregate pollution in the two countries unambigu-
ously falls with a unilateral stricter level of allowable emissions.
Next, we examine Home’
s optimal unilateral environmental policy when pollution emissions are
an input in production. Totally di¤erentiate equation (4), using equations (1)11 and (6) we obtain
the welfare e¤ects of a lower level of emissions (z) allowed, as follows:
Eu
du
dz
= (Er Rz)
| {z }
domestic environmental e¤ect
(Ep Rp)
dp
dz
| {z }
terms of trade e¤ect
Erzp
dp
dz
| {z }
emission leakage e¤ect
: (8)
Recall that by the structure of the model, zp > 0. Equation (8) indicates that a lower level of
allowable z impacts Home’
s welfare via three channels. First, it raises welfare if the marginal
environmental damage of domestically generated emissions is higher than its marginal abatement
cost, i.e., Er > Rz. We call this, the domestic environmental e¤ect, captured by the …rst right-
hand-side term of the equation. The second right-hand side term, is the terms of trade e¤ect, and
it captures the welfare impact of the lower level of allowable z via the induced changes in the
country’
s terms of trade. Provided that good 2 is Home’
s importable good, its compensated excess
demand is positive, i.e., Ep Rp > 0, and an improvement in the terms of trade is denoted by
a reduction of its world relative price, i.e., dp
dz > 0. Under the conditions set in Lemma 1, the
terms of trade e¤ect exerts a positive impact on Home’
s welfare, thus, attaining the …rst strategic
motive of Home’
s stricter environmental regulation. The third right-hand side term is the emission
leakage e¤ect of the lower level of allowable z on Home’
s welfare. Home’
s government, by lowering
11
Totally di¤erentiating equation (1) we obtain dr = dz + zp
dp
dz
.
14
17. z induces a decline in the the world relative price of good 2. This in turn, leads to a decline in its
production and the use of pollution as input in Foreign. In this way, via the lower level of z, Home
attains its second strategic motive, that is, the mitigation of cross-border pollution generated in
Foreign. Based on our model’
s speci…cation, when dz < 0 and dp
dz > 0, Home’
s welfare improvement
is larger the closer is cross-border pollution to being perfect, i.e., ' 1.
Home’
s welfare maximizing unilateral environmental policy is obtained by setting du
dz = 0 in
equation (8) to obtain:
Rz = Er + (Ep Rp)
dp
dz
| {z }
terms of trade e¤ect
+ Erzp
dp
dz
| {z }
emission leakage e¤ect
: (9)
To better understand the emerging result, we …rst consider the cases where Home is either a small
open economy or it is a closed economy, unable to a¤ect through its environmental policy the world
price of the tradable good 2, i.e., dp
dz = 0. In these cases, equation (9) reduces to the standard result
Rz = Er. That is, since the world relative price remains una¤ected, the country sets its welfare
maximizing level of z so that the marginal environmental damage of a unit of pollution is equal to
the marginal abatement cost.
Next, we allow for the case where Home is a large open economy, and world prices are a¤ected
by its environmental policy, i.e., dp
dz 6= 0. Then, the country can use strategically the environmental
policy in order to capture both the terms of trade and the emission leakage motives. Both these
e¤ects emerge via the policy induced changes in the world relative price of good 2. The sign of
these two strategic e¤ects determine whether, relative to the case where the terms of trade are …xed
i.e., dp
dz = 0, and Rz = Er, Home sets a laxer policy resulting in Rz < Er or it sets a stricter policy
which leads to Rz > Er.
Lemma 1 presents cases (I)-(III) under which when Home adopts a stricter level of allowable
emissions, i.e., dz < 0, the world relative price for the tradable good 2 falls, and the country’
s terms
of trade improve, i.e., dp
dz > 0. In these cases, Home, in order to capture the terms of trade and
emission leakage motives has a strategic incentive to allow for the use of a lower level of emissions
as an input in production, relative to the case where the world relative price of the tradable good
2 is …xed. Furthermore, Home’
s incentive is stronger, the closer pollution is to being perfectly
transboundary. Lemma 2 presents cases (I)-(III) under which when Home allows for the use of a
15
18. a laxer level of emissions in production, i.e., dz > 0. Then, the world relative price for the tradable
good 2 falls, and the country’
s terms of trade improve, i.e., dp
dz < 0. This, again, implies that Home
has an incentive to unilaterally set a laxer environmental policy strategically, to the case when
dp
dz = 0, so as to reduce the world price of its importable good, and capture the terms of trade and
emission leakage e¤ects. We state the following Proposition.
Proposition 1 It is the emissions intensities of tradable and non-tradable goods, and their rela-
tionship in production and consumption which, under the conditions of Lemma 1, call for a stricter
unilateral environmental policy to capture the terms of trade and emission leakage strategic motives.
The standard result in the relevant literature is that in the presence of endogenous terms of trade
and transboundary pollution, but in the absence of non-tradable goods, governments can attain
both the terms of trade and emission leakage motives via a laxer environmental policy. Through it,
governments provide an implicit subsidy to their import competing sector, thus, manipulating the
terms of trade to their advantage by reducing the world price of the importable good. The reduction
in the world price of a country’
s importable, reduces production and production-generated pollution
abroad, e.g., Copeland (2011), Jakob et al. (2013), Keen and Kotsogiannis (2014), Böhringer et al.
(2014), Balistreri et al. (2019), Montagna et al. (2020). This result attains the country’
s second
strategic objective, namely, the emission leakage mitigation.
In the presence of non-tradable goods, Böhringer et al. (2017), show that when, a priori, the
emission tax is set at the Pigouvian level, then, other policy instruments such as a consumption
tax and an output-based rebating of emissions tax payments, are required to maximize a country’
s
welfare by capturing the terms of trade and emission leakage motives. Within our context, it is the
emissions intensities of tradable and non-tradable goods and their general equilibrium relationship,
i.e., their relationship in production and consumption, which, under the conditions of Lemma
1, meet the strategic objectives with a stricter environmental policy, while, under the conditions
of Lemma 2, meet these strategic objectives with a laxer environmental policy. For analytical
tractability our model considered the presence of non-tradable goods only in one country. The
present model can be extended to include non-tradable goods in both countries, but at the expense
of considerable analytical complexities. We state the following Proposition.
Proposition 2 It is the emissions intensities of tradable and non-tradable goods, and their rela-
16
19. tionship in production and consumption which, under the conditions of Lemma 2, call for a laxer
unilateral environmental policy to capture the terms of trade and emission leakage strategic motives.
A notable policy implication of this result is the following. In our framework a unilateral
environmental policy by a country may be e¤ective in reducing pollution, without exacerbating
environmental damages in the presence of terms of trade and emission leakage motives. This
result, policy wise, does not necessitate the use of additional policy instruments, e.g., either BCAs
or rebates of emissions tax payments, in order to control for the emission leakage.
5 Concluding Remarks
An extensive theoretical and empirical literature advocates that in the presence of cross-border
pollution and endogenous terms of trade, when countries are restricted from the use of trade policy
instruments, then, unilateral tighter environmental measures may fail to reduce global pollution
levels. This is because the presence of strategic motives, such as terms of trade gains and emission
leakage mitigation, induce countries to weaken their environmental policies. In this paper we show
that, despite the presence of such strategic objectives, it is stricter rather than laxer unilateral
environmental policies which can lead to lower levels of emissions leakage. In the current context
accounting for both tradable and non-tradable goods, and for the use of emissions as an input
in production, it is the emissions intensities in production of tradable and non-tradable goods,
and their relationship in production and consumption which bring this result. In an era where
global environmental agreements are disputed, such features may attest to the design of pollution
mitigating and welfare improving unilateral environmental policies.
We view our …ndings as a …rst step where relative emission intensities are important in deter-
mining the magnitude and the direction of carbon leakage with an active policy maker. However,
a more detailed analysis where potential polluters decide about pollution by taking into account
the actions of others (e.g., Xepapadeas, 2022) among policy makers can bring into light additional
features. Feedback loops are particularly relevant to the issue of carbon leakage, as the relocation
of emissions-intensive activities to less regulated countries can lead to further emissions in those
countries, resulting in a further leakage of emissions. This has a knock-on e¤ect on the environ-
ment, as these emissions are often produced in countries with weaker environmental regulations,
17
20. resulting in an increase in global emissions and a decrease in the e¤ectiveness of environmental
policies. Therefore, the strategic response of these countries over time deserves also some attention
in future research endeavors.
Appendix
Totally di¤erentiating the equations (2) and (3), we obtain the following comparative statics results:
2
6
4
H pq
qp qq
3
7
5
2
6
4
dp
dq
3
7
5 =
2
6
4
Rpz
Rqz
3
7
5 dz; (A.1)
The determinant of the left-hand-side matrix is = H qq
2
pq > 0, where H = pp + pp < 0.
Since the expenditure functions are concave and the GDP functions are convex in prices, it follows
that pp qq
2
pq > 0, thus is positive.
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