Cap-and-Trade, Carbon Taxes, and My Neighbor’s Lovely Lawn

The recent demise of serious political consideration of an economy-wide U.S. CO2 cap-and-trade system and the even more recent resurgence in interest among policy wonks in a U.S. carbon tax should prompt reflection on where we’ve been, where we are, and where we may be going.

Lessons

Almost fifteen years ago, in an article that appeared in 1998 in the Journal of Economic Perspectives, “What Can We Learn from the Grand Policy Experiment?  Lessons from SO2 Allowance Trading,” I examined the implications of what was then the very new emissions trading program set up by the Clean Air Act Amendments of 1990 to cut acid rain by half over the succeeding decade.  In that article, I attempted to offer some guidance regarding the conditions under which cap-and-trade (then known as “tradable permits”) was likely to work well, or not so well.  Here’s a brief summary of what I wrote at the time:

(1)  SO2 trading was a case where the cost of abating pollution differed widely among sources, and where a market-based system was therefore likely to have greater gains, relative to conventional, command-and-control regulations (Newell and Stavins 2003). It was clear early on that SO2 abatement cost heterogeneity was great, because of differences in ages of plants and their proximity to sources of low-sulfur coal. But where abatement costs are more uniform across sources, the political costs of enacting an allowance trading approach are less likely to be justifiable.

(2)  The greater the degree to which pollutants mix in the receiving airshed or watershed, the more attractive a cap-and-trade (or emission tax) system will be, relative to a conventional uniform standard. This is because taxes or cap-and-trade can – in principle – lead to localized “hot spots” with relatively high levels of ambient pollution. Some states (in particular, New York) tried unsuccessfully to erect barriers to trades they thought might increase deposition within their borders.  This is a significant distributional issue.  It can also be an efficiency issue if damages are nonlinearly related to pollutant concentrations.

(3)  The efficiency of a cap-and-trade system will depend on the pattern of costs and benefits. If uncertainty about marginal abatement costs is significant, and if marginal abatement costs are quite flat and marginal benefits of abatement fall relatively quickly, then a quantity instrument, such as cap-and-trade, will be more efficient than a price instrument, such as an emission tax (Weitzman 1974).  With a stock pollutant (such as CO2), this argument favors a price instrument (Newell and Pizer 2003).  However, when there is also uncertainty about marginal benefits, and marginal benefits are positively correlated with marginal costs (which, it turns out, is a relatively common occurrence for a variety of pollution problems), then there is an additional argument in favor of the relative efficiency of quantity instruments (Stavins 1996).

(4)  Cap-and-trade will work best when transaction costs are low (Stavins 1995), and the S02 experiment showed that if properly designed, private markets will tend to render transaction costs minimal.

5)  Considerations of political feasibility point to the wisdom of proposing trading instruments when they can be used to facilitate emissions reductions, as was done with SO2 allowances and lead rights trading, less so for the purpose of reallocating existing emissions abatement responsibility (Revesz and Stavins 2007).

(6)  National policy instruments that appear impeccable from the vantage point of Cambridge, Massachusetts, Berkeley, California, or Madison, Wisconsin, but consistently prove infeasible in Washington, D.C., can hardly be considered “optimal.”

Implications for CO2 Policy

In the same article, I noted that many of these issues could be illuminated by considering a concrete example:  the “current interest” in applying cap-and-trade to the task of cutting CO2 emissions to reduce the risk of global climate change.  Some of the points I made in this regard in my 1998 article were:

(a)  The number of sources of CO2 emissions are vastly greater than in the case of SO2 emissions as a precursor of acid rain, where the focus could be placed on a few hundred electric utility plants.  Feasibility considerations alone argue for market-based instruments (cap-and-trade or taxes) to achieve meaningful reductions of CO2 emissions.

(b)  The diversity of sources of CO2 in a modern economy and the consequent heterogeneity of emission reduction costs bolster the case for using cost-effective market-based instruments.

(c)  As the ultimate global-commons problem, CO2 is a truly uniformly-mixed pollutant.  With no concern for hot spots, market-based instruments present none of the problems that can arise in the case of localized environmental threats.

(d)  Any pollution-control program must face the possibility of emissions leakage from regulated to unregulated sources. This would be a severe problem for an international CO2 program, where emissions would tend to increase in nonparticipant countries. Furthermore, it raises concerns for the emission-reduction-credit (not cap-and-trade) system in the Kyoto Protocol known as the Clean Development Mechanism (CDM).  Such an offset system can lower aggregate costs by substituting low-cost for high-cost control, but may also have the unintended effect of increasing aggregate emissions beyond what they would otherwise have been, because there is an incentive for adverse selection: sources in developing countries that would reduce their emissions, opt in, and receive credit for actions they would have taken anyway.

(e)  Although any trading program could potentially serve as a model for the case of global climate change, I argued that the trading system that accomplished the U.S. phaseout of leaded gasoline in the 1980s merited particular attention. The currency of that system was not lead oxide emissions from motor vehicles, but the lead content of gasoline. So too, in the case of global climate, great savings in monitoring and enforcement costs could be had by adopting input trading linked with the carbon content of fossil fuels. This is reasonable in the climate case, since – unlike in the SO2 case – CO2 emissions are roughly proportional to the carbon content of fossil fuels and scrubbing alternatives are largely unavailable, at least at present.

(f)   Natural sequestration of CO2 from the atmosphere by expanding forested areas is available (even in the United States) at reasonable cost (Stavins 1999).  Hence, it could be valuable to combine any carbon trading (or carbon tax) program with a carbon sequestration program, although this will raise significant challenges in regard to monitoring and enforcement.

(g)  In regard to carbon permit allocation mechanisms, auctions would have the advantage that revenues could be used to finance reductions in distortionary taxes.  Free allocation could increase regulatory costs enough that the sign of the efficiency impact could conceivably be reversed from positive to negative net benefits (Parry, Williams, and Goulder 1999).  On the other hand, free allocation of carbon permits would meet with much less political resistance.

The Necessity of Market-Based Instruments:  Cap-and-Trade or Carbon Taxes

I concluded that developing a cap-and-trade system for climate change would bring forth an entirely new set of economic, political, and institutional challenges.  At the same time, I recognized that the diversity of sources of CO2 emissions and the magnitude of likely abatement costs made it equally clear that only a market-based instrument – some form of carbon rights trading or (probably revenue-neutral) carbon taxes – would be capable of achieving the domestic targets that might eventually be forthcoming.

In other words, my conclusion in 1998 strongly favored a market-based carbon policy, but was somewhat neutral between carbon taxes and cap-and-trade.  Indeed, at that time and for the subsequent eight years or so, I remained agnostic regarding what I viewed as the trade-offs between cap-and-trade and carbon taxes.  What happened to change that?  Three words:  The Hamilton Project.

The Making of an Advocate

For those of you who don’t know, the Hamilton Project is an initiative based at the Brookings Institution that – according to its web site – “offers a strategic vision and produces innovative policy proposals on how to create a growing economy that benefits more Americans.”

In 2007, the Project’s leadership asked me to write a paper proposing a U.S. CO2 cap-and-trade system.  I responded that I would prefer to write a paper proposing the use of a market-based CO2 policy, describing the two alternatives of cap-and-trade and carbon taxes.  I explained that I was by no means opposed to the notion of a carbon tax, having written about such approaches for more than twenty years.  Indeed, I noted, both cap-and-trade and carbon taxes would be good approaches to the problem; they have many similarities, some tradeoffs, and a few key differences.

The Hamilton Project leaders said no, they wanted me to make the best case I could for cap-and-trade, not a balanced investigation of the two policy instruments.  Someone else would be commissioned to write a proposal for a carbon tax.  (That turned out to be Professor Gilbert Metcalf of Tufts University – now on leave at the U.S. Department of the Treasury – who did a splendid job!)  Thus, I was made into an advocate for cap-and-trade.  It’s as simple as that.

Giving It My Best Shot

I argued in my Hamilton Project paper (which you can read here) that despite the tradeoffs between the two principal market-based instruments that could target CO2 emissions, the best (and most likely) approach for the short to medium term in the United States was a cap-and-trade system, based on three criteria:  environmental effectiveness, cost effectiveness, and distributional equity.  Although my position was not simple capitulation to politics, I argued that sound assessments of environmental effectiveness, cost effectiveness, and distributional equity should be made in a real-world political context.

I said that the key merits of the cap-and-trade approach were, first, the program could provide cost-effectiveness, while achieving meaningful reductions in greenhouse gas emissions levels.  Second, it offered an easy means of compensating for the inevitably unequal burdens imposed by a climate policy.  Third, it provided a straightforward means to link with other countries’ climate policies.  Fourth, it avoided the political aversion in the United States to taxes.  Fifth, it was unlikely to be degraded – in terms of its environmental performance and cost effectiveness – by political forces. And sixth, this approach had a history of successful adoption and implementation in this country over the past two decades.

I recognized that there were some real differences between taxes and cap-and-trade that needed to be recognized.  First, environmental effectiveness:  a tax does not guarantee achievement of an emissions target, but it does provide greater certainty regarding costs.  This is a fundamental tradeoff.  Taxes provide automatic temporal flexibility, which needs to be built into a cap-and-trade system through provision for banking, borrowing, and possibly cost-containment mechanisms.  On the other hand, political economy forces strongly point to less severe targets if carbon taxes are used, rather than cap-and-trade – this is not a tradeoff, and is why virtually no environmental NGOs have favored the carbon-tax approach.

In principle, both carbon taxes and cap-and-trade can achieve cost-effective reductions, and – depending upon design — the distributional consequences of the two approaches can be the same.  But the key difference is that political pressures on a carbon tax system will most likely lead to exemptions of sectors and firms, which reduces environmental effectiveness and drives up costs, as some low-cost emission reduction opportunities are left off the table.  But political pressures on a cap-and-trade system lead to different allocations of the free allowances, which affect distribution, but not environmental effectiveness, and not cost-effectiveness.

I concluded that proponents of carbon taxes worried about the propensity of political processes under a cap-and-trade system to compensate sectors through free allowance allocations, but a carbon tax would be sensitive to the same political pressures, and should be expected to succumb in ways that are ultimately more harmful:  reducing environmental achievement and driving up costs.

Of course, such positive political economy arguments look much less compelling in the wake of the defeat of cap-and-trade legislation in the U.S. Congress and its successful demonization by conservatives as “cap-and-tax.”

A Political Opening for Carbon Taxes?

Does the defeat of cap-and-trade in the U.S. Congress, the obvious unwillingness of the Obama White House to utter the phrase in public, and the outspoken opposition to cap-and-trade by Republican Presidential candidate Mitt Romney indicate that there is a new opening for serious consideration of a carbon-tax approach to meaningful CO2 emissions reductions?

First of all, there surely is such an opening in the policy wonk world.  Economists and others in academia, including important Republican economists such as Harvard’s Greg Mankiw and Columbia’s Glenn Hubbard, remain enthusiastic supporters of a national carbon tax.  And a much-publicized meeting in July at the American Enterprise Institute in Washington, D.C. brought together a broad spectrum of Washington groups – ranging from Public Citizen to the R Street Institute – to talk about alternative paths forward for national climate policy.  Reportedly, much of the discussion focused on carbon taxes.

Clearly, this “opening” is being embraced with enthusiasm in the policy wonk world.  But what about in the real political world?  The good news is that a carbon tax is not “cap-and-trade.”  That presumably helps with the political messaging!  But if conservatives were able to tarnish cap-and-trade as “cap-and-tax,” it surely will be considerably easier to label a tax – as a tax!   Also, note that Romney’s stated opposition and Obama’s silence extend beyond disdain for cap-and-trade per se.  Rather, they cover all carbon-pricing regimes.

So as a possible new front in the climate policy wars, I remain very skeptical that an explicit carbon tax proposal will gain favor in Washington, no matter what the outcome of the election.  Note that the only election outcome that could lead to an aggressive and successful move to a meaningful nationwide carbon pricing regime would be:  the Democrats take back control of the House of Representatives, and the Democrats achieve a 60+ vote margin in the Senate, and the President is reelected.  A quick check at Five Thirty Eight (Nate Silver’s superb election forecast website at the New York Times) and other polling web sites makes it abundantly clear that the probability of such Democratic control of the White House and Congress is so small that it’s hardly worth discussing.

What About Fiscal Policy Reform?

A more promising possibility – though still unlikely – is that if Republicans and Democrats join to cooperate with either a Romney or Obama White House to work together constructively to address not only the short-term fiscal cliff at the end of this calendar year, but also the longer-term budgetary deficits the U.S. government faces, and if as part of this they decide to include not only cuts in government expenditures, but also some significant “revenue enhancements” (the t-word is not allowed), and if (I know, this is getting to be a lot of “if’s”) it turns out to be easier politically to eschew increases in taxes on labor and investment and therefore turn to taxes on consumption, then there could be a political opening for new energy taxes, in particular, (drum roll ….) a carbon tax.

Such a carbon tax – if intended to help alleviate budget deficits – could not be the economist’s favorite, a revenue-neutral tax swap of cutting distortionary taxes in exchange for implementing a carbon tax.  Rather, as a revenue-raising mechanism – like the Obama administration’s February 2009 budget for a 100%-auction of allowances in a cap-and-trade scheme – it would be a new tax, pure and simple.  Those who recall the 1993 failure of the Clinton administration’s BTU-tax proposal – with a less polarized and more cooperative Congress than today’s – are not optimistic.

Nor is it clear that a carbon tax would enjoy more support in budget talks than a value added tax (VAT) or a Federal sales tax.  The key question is whether the phrases “climate policy” or “carbon tax” are likely to expand or narrow the coalition of support for an already tough budgetary reconciliation measure.  The key group to bring on board will presumably be conservative Tea Party Republicans, and it is difficult to picture them being more willing to break their Grover Norquist pledges because it’s for a carbon tax.

Research

Even if the much-ballyhooed political opening for carbon taxes is largely illusory, the opening for policy wonks is real.  And here is where action is happening, and should continue to happen.  At some point the politics will change, and it’s important to be ready.  This is why economic research on carbon taxes is very much needed, particularly in the context of broader fiscal challenges, and it is why I’m pleased to see it happening at Resources for the Future, Harvard University, and elsewhere.

Bottom Line

I would personally be delighted if a carbon tax were politically feasible in the United States, or were to become politically feasible in the future.  But I’m forced to conclude that much of the current enthusiasm about carbon taxes in the academic and broader policy-wonk community in the wake of the defeat of cap-and-trade is – for the time being, at least – largely a manifestation of the grass looking greener across the street.

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Reflections on Twenty Years of Policy Innovation

In 2009, the U.S. Congress considered but ultimately failed to enact legislation aimed at limiting U.S. greenhouse-gas (GHG) emissions.  The bill under consideration at that time, the American Clean Energy and Security Act of 2009, was the last in a series considered over several years.  Sponsored by Representatives Henry Waxman (D-California) and Edward Markey (D-Massachusetts), the bill passed the U.S. House of Representatives but failed to win sufficient support in the Senate.  No legislation was enacted, and by 2010, both Congress and the White House had abandoned efforts to pass federal climate legislation.

Over months of contentious debate, while the Waxman-Markey bill and subsequent Senate action were being considered, millions of Americans were introduced for the first time to the phrase “cap and trade,” a regulatory approach that first came to prominence in the 1990s as the centerpiece of a national program to address the threat of acid rain by limiting emissions of sulfur dioxide (SO2), primarily from electric power plants.

The 1990 SO2 cap-and-trade program was conceived by the administration of President George H. W. Bush and was widely viewed as a success.  Yet cap and trade became a lightning rod for congressional opposition to climate legislation from 2009 through 2010.

Some of that hostility reflected skepticism about whether climate change was real and, if it was, whether humans played a key role in causing it. A larger group of opponents in Congress worried about the proper role of government and the costs of combating climate change, particularly given the lack of commitments for action by the large emerging economies of China, India, Brazil, Korea, South Africa, and Mexico.  The congressional debate touched only lightly on the relative merits of various policy options to reduce greenhouse-gas emissions. Thus, cap and trade may not have been defeated on its merits (or demerits), but rather as collateral damage in the larger climate policy wars.

Congress (to the extent it did assess policy alternatives to cap and trade), as well as the broader community of analysts and observers in the late 2000s, raised a number of substantive questions about the merits of this policy instrument as a means for responding to a major environmental policy challenge of the sort posed by climate change:

  • How do the costs of a market-based approach, such as cap-and-trade, compare with traditional regulatory policies to reduce pollution?
  • Can market-based policies—and the markets they create—be trusted to reduce emissions? That is, are they environmentally effective?
  • What are the distributional impacts of market-based environmental policies; who are the winners and losers?
  • How well does a cap-and-trade system stimulate technological innovation, as compared with an environmental policy that sets performance standards, specifies technologies for reducing pollution, or both?

In May 2011, the Harvard Environmental Economics Program hosted a two-day research workshop and policy roundtable in Cambridge, Massachusetts, to reflect on these and other questions in light of twenty years of experience implementing the SO2 cap-and-trade program, established under Title IV of the Clean Air Act Amendments (CAAA) of 1990. Also known as the Acid Rain Program and the SO2 allowance-trading system, Title IV represented the first large-scale application of cap and trade to control pollution—in the United States or any other country.  (Of course, the largest emissions trading program in the world is now the European Union Emissions Trading System (EU ETS), a greenhouse-gas, cap-and-trade system that was implemented in 2005 and whose design was influenced by the U.S. SO2 program.)

A “policy brief” synthesizing the main conclusions and insights that emerged from the May 2011 Harvard workshop and roundtable has just been released, The SO2 Allowance Trading System and the Clean Air Act Amendments of 1990:  Reflections on Twenty Years of Policy Innovation.  The workshop and roundtable – sponsored by the Alfred P. Sloan Foundation – featured a dream team of economists and legal experts who had conducted extensive research on the SO2 allowance-trading system, as well as leaders of non-governmental organizations and former government officials who had guided the formulation and passage of the CAAA.

The new policy brief examines the design, enactment, implementation, and performance of the SO2 allowance trading system, with an eye toward identifying lessons learned for future efforts to apply cap and trade to other environmental challenges, including global climate change.  The first section provides background on the acid rain program and summarizes data and analysis on its benefits. Subsequent sections examine key questions regarding cost, environmental effectiveness, market performance, distributional implications, and effects on technology innovation.  The report also examines the political context of the formulation, enactment, and implementation of the SO2 allowance-trading system.  Finally, the conclusions feature some reflection on implications for climate change policy.

The participants in the research workshop were:  Joseph Aldy, Assistant Professor of Public Policy, Harvard Kennedy School; Dallas Burtraw, Darius Gaskins Senior Fellow, Resources for the Future; Denny Ellerman, Part-time Professor, European University Institute, Robert Schuman Centre for Advanced Studies; Michael Greenstone, 3M Professor of Environmental Economics, Massachusetts Institute of Technology; Lawrence H. Goulder, Shuzo Nishihara Professor of Environmental and Resource Economics, Stanford University; Robert Hahn, Director of Economics, Smith School, University of Oxford; Paul L. Joskow, President, Alfred P. Sloan Foundation; Erin T. Mansur, Associate Professor of Economics, Dartmouth College; Albert McGartland, Director, National Center for Environmental Economics, U.S. Environmental Protection Agency; Brian J. McLean, Former Director, Office of Atmospheric Programs, U.S. Environmental Protection Agency; W. David Montgomery, Senior Vice President, NERA Economic Consulting; Erich J. Muehlegger, Associate Professor of Public Policy, Harvard Kennedy School; Karen L. Palmer, Senior Fellow, Resources for the Future; John Parsons, Executive Director, Center for Energy and Environmental Policy Research, MIT Sloan School of Management; Forest L. Reinhardt, John D. Black Professor of Business Administration, Harvard Business School; Richard L. Schmalensee, Howard W. Johnson Professor of Economics and Management, MIT Sloan School of Management; Daniel Schrag, Sturgis Hooper Professor of Geology, Harvard University; Robert N. Stavins, Albert Pratt Professor of Business and Government, Harvard Kennedy School; Thomas Tietenberg, Mitchell Family Professor of Economics, Emeritus, Colby College; and Jonathan B. Wiener, William R. and Thomas L. Perkins Professor of Law, Duke University Law School.

The participants in the policy and politics roundtable were:  Robert Grady, General Partner, Cheyenne Capital Fund (1989–1991: Associate Director, Office of Management and Budget for Natural Resources, Energy & Science; 1991–1993 Executive Associate Director, OMB, and Deputy Assistant to the President); C. Boyden Gray, Principal, Boyden Gray & Associates (1989–1993: White House Counsel); Fred Krupp, President (1984–present), Environmental Defense Fund; Mary D. Nichols, Chairman, California Air Resources Board (1993–1997: Assistant Administrator for Air and Radiation, U.S. Environmental Protection Agency); Roger Porter, IBM Professor of Business and Government, Harvard Kennedy School (1989–1993: Assistant to the President for Economic and Domestic Policy); Richard L. Schmalensee, Howard W. Johnson Professor of Economics and Management, MIT Sloan School of Management (1989–1991: Member, President’s Council of Economic Advisers); and Philip Sharp, President, Resources for the Future (1975–1995: Member, U.S. House of Representatives, Indiana, and Chairman, Energy and Power Subcommittee, House Committee on Natural Resources).

I want to acknowledge the contributions of all of these participants in the research workshop and policy roundtable, as well as the comments and edits some provided on earlier drafts of the policy brief.  Their expertise and experience made this project possible. And, of course, I’m very grateful to the Alfred P. Sloan Foundation for having provided generous support for the workshop and for the preparation of the study.  I hope you find it of interest and value.

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The Promise and Problems of Pricing Carbon

Friday, October 21st was a significant day for climate change policy worldwide and for the use of market-based approaches to environmental protection, but it went largely unnoticed across the country and around the world, outside, that is, of the State of California.  On that day, the California Air Resources Board voted unanimously to adopt formally the nation’s most comprehensive cap-and-trade system, intended to provide financial incentives to firms to reduce the state’s greenhouse gas (GHG) emissions, notably carbon dioxide (CO2) emissions, to their 1990 level by the year 2020, as part of the implementation of California’s Assembly Bill 32, the Global Warming Solutions Act of 2006.  Compliance will begin in 2013, eventually covering 85% of the state’s emissions.

This policy for the world’s eighth-largest economy is more ambitious than the much heralded (and much derided) Federal policy proposal – H.R. 2454, the Waxman-Markey bill – that was passed by the U.S. House of Representatives in June of 2009, and then died in the U.S. Senate the following year.  With a likely multi-year hiatus on significant climate policy action in Washington now in place, California’s system – which will probably link with similar cap-and-trade systems being developed in Ontario, Quebec, and possibly British Columbia – will itself become the focal point of what may evolve to be the “North American Climate Initiative.”

The Time is Ripe for Reflection

California’s formal adoption of its CO2 cap-and-trade system is an important milestone on the multinational path to carbon pricing policies, and signals that the time is ripe to reflect on the promise and problems of pricing carbon, which is the title of a new paper that Joe Aldy and I have written for a special issue of the Journal of Environment and Development edited by Thomas Sterner and Maria Damon on “Experience with Environmental Taxation” (“The Promise and Problems of Pricing Carbon:  Theory and Experience,” October 27, 2011).  [For anyone who is not familiar with my co-author, let me state for the record that Joseph Aldy is an Assistant Professor of Public Policy at the Harvard Kennedy School, having come to Cambridge, Massachusetts, from Washington, D.C., where he served, most recently, during 2009 and 2010, as Special Assistant to the President for Energy and Environment.  Before that, he was a Fellow at Resources for the Future, the Washington think tank.]

Why Price Carbon?

In a modern economy, nearly all aspects of economic activity affect greenhouse gas – in particular, CO2 – emissions.  Hence, for a climate change policy to be effective, it must affect decisions regarding these diverse activities.  This can be done in one of three ways:  mandating that businesses and individuals change their behavior; subsidizing businesses and individuals; or pricing the greenhouse gas externality.

As economists and virtually all other policy analysts now recognize, by internalizing the externalities associated with CO2 emissions, carbon pricing can promote cost-effective abatement, deliver powerful innovation incentives, and – for that matter – ameliorate rather than exacerbate government fiscal problems.  [See the concise and compelling argument made by Yale Professor William Nordhaus in his essay, “Energy:  Friend or Enemy?” in The New York Review of Books, October 27, 2011.]

By pricing CO2 emissions (or, more likely, by pricing the carbon content of the three fossil fuels – coal, petroleum, and natural gas), governments wisely defer to private firms and individuals to find and exploit the lowest cost ways to reduce emissions and invest in the development of new technologies, processes, and ideas that could further mitigate emissions.

Can Market-Based Instruments Really Work?

Market-based instruments have been used with considerable success in other environmental domains, as well as for pricing CO2 emissions.  The U.S. sulfur dioxide (SO2) cap-and-trade program cut U.S. power plant SO2 emissions more than 50 percent after 1990, and resulted in compliance costs one half of what they would have been under conventional regulatory mandates.

The success of the SO2 allowance trading program motivated the design and implementation of the European Union’s Emission Trading Scheme (EU ETS), the world’s largest cap-and-trade program, focused on cutting CO2 emissions from power plants and large manufacturing facilities throughout Europe.  The U.S. lead phase-down of gasoline in the 1980s, by reducing the lead content per gallon of fuel, served as an early, effective example of a tradable performance standard.  These and other positive experiences provide motivation for considering market-based instruments as potential approaches to mitigating GHG emissions.

What Policy Instruments Can be Used for Carbon Pricing?

In our paper, Joe Aldy and I critically examine the five generic policy instruments that could conceivably be employed by regional, national, or even sub-national governments for carbon pricing:  carbon taxes, cap-and-trade, emission reduction credits, clean energy standards, and fossil fuel subsidy reduction.  Having written about these approaches many times in previous essays at this blog, today I will simply direct the reader to those previous posts or, better yet, to the paper we’ve written for the Journal of Environment and Development.

Although it is natural to think and talk about carbon pricing using the future tense, a few carbon pricing regimes are already in place.

Regional, National, and Sub-National Experiences with Carbon Pricing

Explicit carbon pricing policy regimes currently in place include the European Union’s Emissions Trading Scheme (EU ETS); the Regional Greenhouse Gas Initiative in the northeast United States; New Zealand’s cap-and-trade system; the Kyoto Protocol’s Clean Development Mechanism; a number of northern European carbon tax policies; British Columbia’s carbon tax; and Alberta’s tradable carbon performance standard (similar to a clean energy standard).  We describe and assess all of these in our paper.

Also, the Japanese Voluntary Emissions Trading System has operated since 2006 (Japan is considering a compulsory emissions trading system), and Norway operated its own emissions trading system for several years before joining the EU ETS in 2008.  Legislation to establish cap-and-trade systems is under debate in Australia (combined with a carbon tax for an initial three-year period) and in the Canadian provinces of Ontario and Quebec.  And, of course, California is now committed to launching its own GHG cap-and-trade system.

International Coordination Will Be Needed

Of course, climate change is truly a global commons problem:  the location of greenhouse gas emissions has no effect on the global distribution of damages.  Hence, free-riding problems plague unilateral and multilateral approaches, because mitigation costs are likely to exceed direct benefits for virtually all countries.  Cost-effective international policies – insuring that countries get the most environmental benefit out of their mitigation investments – will help promote participation in an international climate policy regime.

In principle, internationally-employed market-based instruments can achieve overall cost effectiveness.  Three basic routes stand out.  First, countries could agree to apply the same tax on carbon (harmonized domestic taxes) or adopt a uniform international tax.  Second, the international policy community could establish a system of international tradable permits, – effectively a nation-state level cap-and-trade program.  In its simplest form, this represents the Kyoto Protocol’s Annex B emission targets and the Article 17 trading mechanism.  Third and most likely, a more decentralized system of internationally-linked domestic cap-and-trade programs could ensure internationally cost-effective emission mitigation.  We examine the merits and the problems associated with each of these means of international coordination in the paper.

What Lies in the Future?

In reality, political responses in most countries to proposals for market-based approaches to climate policy have been and will continue to be largely a function of issues and factors that transcend the scope of environmental and climate policy.  Because a truly meaningful climate policy – whether market-based or conventional in design – will have significant impacts on economic activity in a wide variety of sectors and in every region of a country, proposals for these policies inevitably bring forth significant opposition, particularly during difficult economic times.

In the United States, political polarization – which began some four decades ago, and accelerated during the economic downturn – has decimated what had long been the key political constituency in the Congress for environmental action, namely, the middle, including both moderate Republicans and moderate Democrats.  Whereas Congressional debates about environmental and energy policy had long featured regional politics, they are now fully and simply partisan.  In this political maelstrom, the failure of cap-and-trade climate policy in the U.S. Senate in 2010 was essentially collateral damage in a much larger political war.

It is possible that better economic times will reduce the pace – if not the direction – of political polarization.  It is also possible that the ongoing challenge of large budgetary deficits in many countries will increase the political feasibility of new sources of revenue.  When and if this happens, consumption taxes (as opposed to traditional taxes on income and investment) could receive heightened attention, and primary among these might be energy taxes, which can be significant climate policy instruments, depending upon their design.

That said, it is probably too soon to predict what the future will hold for the use of market-based policy instruments for climate change.  Perhaps the two decades we have experienced of relatively high receptivity in the United States, Europe, and other parts of the world to cap-and-trade and offset mechanisms will turn out to be no more than a relatively brief departure from a long-term trend of reliance on conventional means of regulation.  It is also possible, however, that the recent tarnishing of cap-and-trade in U.S. political dialogue will itself turn out to be a temporary departure from a long-term trend of increasing reliance on market-based environmental policy instruments.  It is much too soon to say.

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