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Both Are Necessary, But Neither is Sufficient: Carbon-Pricing and Technology R&D Initiatives in a Meaningful National Climate Policy

For many years, there has been a great deal of discussion about carbon-pricing – whether carbon taxes or cap-and-trade – as an essential part of a meaningful national climate policy. It has long been recognized that although carbon-pricing will be necessary, it will not be sufficient. Economists and other policy analysts have noted that policies intended to foster climate-friendly technology research and development (R&D) will also be necessary, but likewise will not be sufficient on their own.

Some recent studies and press accounts, which I reference below, have identified these two approaches to addressing CO₂ emissions as substitutes, rather than complements. That is fundamentally inconsistent with decades of research, and so my purpose in this essay is to set the record straight.

Carbon Pricing: Necessary But Not Sufficient

First of all, why is there so much talk among policy analysts and policy makers – not simply among academics – about carbon‑pricing as the core of a meaningful strategy to reduce CO₂ emissions? Why, in fact, is this approach so overwhelmingly favored by the analytical community? The answer is simple and surprisingly pragmatic.

First, there is no other feasible approach that can provide meaningful emissions reductions, such as the 80 percent reduction in national CO₂ emissions by 2050 that was part of the legislation passed by the U.S. House of Representatives and proposed in the Senate and part of the Obama administration’s conditional pledge under the Copenhagen Accord. Because of the ubiquity and diversity of energy use in a modern economy, conventional regulatory approaches –standards of various kinds – simply cannot do the job. Only carbon pricing – either in the form of carbon taxes or cap-and-trade – can significantly tilt in a climate-friendly direction the millions of decentralized decisions that are made in our economy every day.

Second, carbon-pricing is the least costly approach in the short term, because abatement costs are exceptionally heterogeneous across sources. Only carbon-pricing provides strong incentives that push all sources to control at the same marginal abatement cost, thereby achieving a given aggregate target at the lowest possible cost.

Third, it is the least costly approach in the long term, because it provides incentives for carbon-friendly technological change, which brings down costs over time.

For these reasons, carbon-pricing is a necessary component of a truly meaningful national climate policy. [I’ve written about this in many previous blog posts, including on June 23, 2010, “The Real Options for U.S. Climate Policy.”] However, although it is a necessary policy component, carbon-pricing is not sufficient on its own. This is because there are other market failures that dilute the impacts of price signals on decision makers.

Technology R&D Policies: Also Necessary, Also Not Sufficient

The most important of these “other market failures” is the public good nature of information. Companies carrying out research and development (R&D) incur the full costs of their efforts, but they do not capture the full benefits. This is because even with a perfectly-enforced system of intellectual property rights (such as patents), there are tremendous spillover benefits to other firms. Decades of economic research – much of it by my former colleague and co-author, Professor Adam Jaffe, now Dean of Arts and Sciences at Brandeis University – has analyzed with empirical (econometric) analysis the remarkable degree to which inventions and innovations by one firm provide valuable information that leads to new inventions and innovations by other firms.

So, firms pay the costs of their R&D, but do not reap all the benefits. The existence of this positive externality of firms’ R&D – or put differently, the public-good nature of the information generated by R&D – means that the private sector will carry out less than the “efficient” amount of R&D of new climate-friendly technologies in response to given carbon prices. Hence, other public policies are needed to address this “R&D market failure.”

New path-breaking technologies will be needed to address climate change, and public support for private-sector or public-sector R&D will be crucial to meet this need. But, at the same time, to address the climate-change market failure itself (that is, the externality associated with greenhouse gas emissions), carbon pricing will be necessary, for all of the reasons I gave above. This is an application of an important and fundamental principle in economics: two market failures require the use of two policy instruments.

Empirical analyses have repeatedly verified this crucial point – that combining carbon-pricing with R&D support is more cost-effective than adopting either approach alone. Included in this set of studies are the following: Carolyn Fischer (Resources for the Future) and Richard Newell (U.S. Energy Information Administration, on leave from Duke University), “Environmental and Technology Policies for Climate Mitigation”; Stephen Schneider (late of Stanford University) and Lawrence Goulder (Stanford University), “Achieving Low-Cost Emissions Targets”; and Daren Acemoglu (MIT), Philippe Aghion, Leonardo Bursztyn, and David Hemous (Harvard University), “The Environment and Directed Technical Change.”

Complements, Not Substitutes

An interesting, recent column, “Next Step on Policy for Climate,” by David Leonhardt in the New York Times (October 13, 2010, p. B1) might give some people the mistaken impression that technology policies are an adequate, even sensible substitute for carbon-pricing. That was not the intended message of the column. In fact, Leonhardt – perhaps the leading economic journalist writing today in the United States – indicates clearly in his column that he is skeptical of the notion of thinking of technology subsidies as an adequate substitute for carbon-pricing (in particular, cap-and-trade). And in a follow-up post at the New York Times’ Economix, he makes clear that “these two policies are not mutually exclusive.”

Nevertheless, Leonhardt’s original column (which included a very nice profile of my colleague, Professor Michael Greenstone of MIT) focused attention on a recent report – a report that could give the false impression that technology policies would be a sensible substitute for serious carbon-pricing. The report in question – “Post-Partisan Power” – received significant coverage, primarily because of its sponsorship: a combination of a prominent Republican-oriented Washington think tank, the American Enterprise Institute (AEI), and an equally prominent Democratic-oriented Washington think tank, the Brooking Institution (and a third partner, the Breakthrough Institute, a California-based environmental think tank).

The report may well garner some bi-partisan political support, because it promises a free lunch of painless, win-win solutions, a promise that will resonate with many elected officials. Indeed, the report’s sub-title is “how a limited and direct approach to energy innovation can deliver clean, cheap energy, economic productivity, and national prosperity.” What’s not to like? And the authors are presumably smart and politically shrewd. I know that’s the case with the AEI author, Steven Hayward, who I debated last year in the pages of the Wall Street Journal.

To its credit, the report lays out a menu of policies intended to stimulate carbon-friendly technological change, ranging from $500 million of Federal government funding of K-12 curriculum development and teacher training to $25 billion annually of direct Federal funding of energy innovation.

For the reasons I explained above (the “R&D market failure” and the “carbon emissions externality”), both direct technology R&D policies and serious carbon-pricing are necessary, but neither is sufficient on its own. Unfortunately, this new report – and some of the press coverage surrounding it – makes the claim that such direct government funding of technology innovation is a sufficient and sensible substitute for meaningful carbon-pricing. That claim is both unfortunate and wrong, as it is supported neither by sound reasoning nor empirical research, as I have described above.

Again, many of the individual technology policy recommendations offered by the AEI-Brookings-BI report are worthy of serious consideration (as a complement, not a substitute for an economy-wide carbon-pricing policy). But the specifics – indeed, much of the meat – are missing. “Reform the nation’s morass of energy subsidies” – yes, but exactly which subsidies (all of which have important political constituencies behind them) will be eliminated? “Recognize the potential for nuclear power” – yes, and both the House and Senate carbon-pricing schemes would have provided tremendous incentives for nuclear power investment.

Overall, there should be concern about how all of this will be funded. Where will the $25 billion per year come from? The report appropriately states that this should not come from general revenues, and thus add to the Federal debt. “Phasing out current subsidies for wind, solar, ethanol, and fossil fuels” could be meritorious on its own, but how much does this generate, and does it even pass a political laugh-test? Interestingly, beyond this, despite considerable rhetoric about moving beyond debates about carbon-pricing, the report recommends that in order to avoid adding to the Federal debt, it would be necessary to impose new taxes, including increased royalties for oil and gas extraction, a tax on imported oil, a tax on electricity sales, and a “very small carbon price” (presumably from a modest carbon tax or unambitious cap-and-trade system).

The actual numbers would be helpful, and the political feasibility remains a serious question. The political challenges that emerged in the effort to pass cap-and-trade climate legislation will not magically disappear if there’s an attempt to induce Congress to approve $25 billion in funding. As Tom Friedman noted on October 12^th in the New York Times, Congress has not come close to fully funding the outstanding requests for about $4 billion for ARPA-E (energy) research.

More broadly, despite the attraction of the AEI-Brookings-BI proposal as a potential complement to carbon-pricing (and I am serious that the proposal is of value in that context), one has to be very careful about comparing proposed new policies in idealized form (for example, precisely the right subsidies eliminated and precisely the right new subsidies introduced) with real policies with all their warts (for example, the cap-and-trade bill that was passed by the House last year). Making such comparisons can lead to flawed analysis and misleading results.

This is not a new issue. Robert Hahn and I wrote about this generic problem nearly 20 years ago in an article (“Economic Incentives for Environmental Protection: Integrating Theory and Practice”) which appeared the American Economic Review Papers and Proceedings (May 1992). At the time, our concern was that this mistake was being made not by the opponents but by the supporters of cap-and-trade and other (then essentially untested) market-based instruments. We worried that “many analysts use highly stylized benchmarks for comparison that ignore likely political realities,” and suggested that an appropriate “comparison would be between actual command-and-control policies and either actual trading [cap-and-trade] programs … or a reasonably constrained theoretical … program.”

Likewise today, when carrying out comparisons of policy alternatives, it is fine to compare two theoretical, idealized alternatives, or to compare two real-world policies, but it is problematic and usually misleading to compare a theoretical, idealized policy of one type with a real-world example of another type of policy.

The Bottom Line

Carbon-pricing – whether carbon taxes or cap-and-trade – will be an essential part of any truly meaningful national climate policy. Likewise, to address the “R&D market failure,” direct technology innovation policies will also be required. Both are necessary. Neither is sufficient. These are complements, not substitutes.

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Postscript: Four years ago, the U.S. Congressional Budget Office (CBO) — widely recognized for its non-partisan, first-rate research — produced a study on the same topic as the AEI-Brookings-BI report, but did so with rigor and without ideology. The CBO report — Evaluating the Role of Prices and R&D in Reducing Carbon Dioxide Emissions (September 2006) — was prepared by Dr. Terry Dinan, a long-time, respected CBO economist, and was peer reviewed by an impressive set of academic and other experts. Sadly, the CBO paper received little press coverage, despite its high quality and its relevance. For anyone interested in the topic of this post, particularly those who disagree with my theme, I hope you will read the CBO report.

Also, a reader of this blog post sent me a paper by David Hart and Kadri Kallas (from MIT’s Energy Innovation working paper series) that examines “Alignment and Misalignment of Technology Push and Regulatory Pull.” It’s worth reading in the context of combining carbon pricing and technology R&D policies.

Policies Can Work in Strange Ways

Whether the policy domain is global climate change or local hazardous waste, it’s exceptionally important to understand the interaction between public policies and technological change in order to assess the effects of laws and regulations on environmental performance. Several years ago, my colleagues - Professor Lori Bennear of Duke University and Professor Nolan Miller of the University of Illinois – examined with me the effects of regulation on technological change in chlorine manufacturing by focusing on the diffusion of membrane-cell technology, widely viewed as environmentally superior to both mercury-cell and diaphragm-cell technologies. Our results were both interesting and surprising, and merit thinking about in the context of current policy discussions and debates in Washington.

The chlorine manufacturing industry had experienced a substantial shift over time toward the membrane technology. Two different processes drove this shift: adoption of cleaner technologies at existing plants (that is, adoption), and the closing of facilities using diaphragm and mercury cells (in other words, exit). In our study, we considered the effects of both direct regulation of chlorine manufacturing and regulation of downstream uses of chlorine. (By the way, you can read a more detailed version of this story in our article in the American Economic Review Papers and Proceedings, volume 93, 2003, pp. 431-435.)

In 1972, a widely publicized incident of mercury poisoning in Minamata Bay, Japan, led the Japanese government to prohibit the use of mercury cells for chlorine production. The United States did not follow suit, but it did impose more stringent constraints on mercury-cell units during the early 1970’s. Subsequently, chlorine manufacturing became subject to increased regulation under the Clean Air Act, the Clean Water Act, the Resource Conservation and Recovery Act, and the Comprehensive Environmental Response, Compensation, and Liability Act. In addition, chlorine manufacturing became subject to public-disclosure requirements under the Toxics Release Inventory.

In addition to regulation of the chlorine manufacturing process, there was also increased environmental pressure on industries that used chlorine as an input. This indirect regulation was potentially important for choices of chlorine manufacturing technology because a large share of chlorine was and is manufactured for onsite use in the production of other products. Changes in regulations in downstream industries can have substantial impacts on the demand for chlorine and thereby affect the rate of entry and exit of chlorine production plants.

Two major indirect regulations altered the demand for chlorine. One was the Montreal Protocol, which regulated the production of ozone-depleting chemicals, such as chlorofluorocarbons (CFCs), for which chlorine is a key ingredient. The other important indirect regulation was the “Cluster Rule,” which tightened restrictions on the release of chlorinated compounds from pulp and paper mills to both water and air. This led to increased interest by the industry in non-chlorine bleaching agents, which in turn affected the economic viability of some chlorine plants.

In our econometric (statistical) analysis, we analyzed the effects of economic and regulatory factors on adoption and exit decisions by chlorine manufacturing plants from 1976 to 2001. For our analysis of adoption, we employed data on 51 facilities, eight of which had adopted the membrane technology during the period we investigated.

We found that the effects of the regulations on the likelihood of adopting membrane technology were not statistically significant. Mercury plants, which were subject to stringent regulation for water, air, and hazardous-waste removal, were no more likely to switch to the membrane technology than diaphragm plants. Similarly, TRI reporting appeared to have had no significant effect on adoption decisions.

We also examined what caused plants to exit the industry, with data on 55 facilities, 21 of which ceased operations between 1976 and 2001. Some interesting and quite striking patterns emerged. Regulations clearly explained some of the exit behavior. In particular, indirect regulations of the end-uses of chlorine accelerated shutdowns in some industries. Facilities affected by the pulp and paper cluster rule and the Montreal Protocol were substantially more likely to shut down than were other facilities.

It is good to remember that the diffusion of new technology is the result of a combination of adoption at existing facilities and entry and exit of facilities with various technologies in place. In the case of chlorine manufacturing, our results indicated that regulatory factors did not have a significant effect on the decision to adopt the greener technology at existing plants. On the other hand, indirect regulation of the end-uses of chlorine accelerated facility closures significantly, and thereby increased the share of plants using the cleaner, membrane technology for chlorine production.

Environmental regulation did affect technological change, but not in the way many people assume it does. It did so not by encouraging the adoption of some technology by existing facilities, but by reducing the demand for a product and hence encouraging the shutdown of facilities using environmentally inferior options. This is a legitimate way for policies to operate, although it’s one most politicians would probably prefer not to recognize.

The New Auto Fuel-Efficiency Standards — Going Beyond the Headlines

On My 19^th, 2009, President Obama announced new Federal fuel-efficiency standards for motor-vehicles that would make the current standards — known as Corporate Average Fuel Economy — or CAFE — standards significantly more stringent. These CAFE standards measure compliance as the average of a company’s entire fleet of cars, and so are more flexible and less costly than model-by-model standards, better matching consumer preferences and lowering production costs.

Other good news is that the administration’s proposal will yield a single standard nationwide, rather than two fuel efficiency standards, one for California and the 13 other states that chose to follow its more stringent Pavley standards, and another standard for the rest of the country under the existing CAFE program. The result would have been that the states adopting the more stringent California standard would have brought about little incremental benefit for the environment beyond the national CAFE program, because auto manufacturers and importers would have largely undone the effects of the more stringent state-level fuel-efficiency requirements by selling more of the less fuel-efficient models in their fleets in the non-Pavley states. This has been validated in an interesting research paper by Lawrence Goulder (Stanford University), Mark Jacobsen (University of California, San Diego), and Arthur van Benthem (Stanford University). Thus, dual standards would have increased costs, but with little or no additional benefit to the environment.

These new Federal standards proposed by the Obama administration can therefore be one small step along the path to meaningful reductions in greenhouse gas emissions that cause climate change. That’s the good news. But it’s also true that the new standards are inferior to other possible approaches.

First of all, CAFE affects only the cars we buy, not how much we drive them, and so CAFE standards are less cost-effective than gasoline prices at reducing gasoline consumption, because gas prices (whether reflecting market conditions or government taxes) affect both which cars we buy and our choices about driving.

Some people may think that CAFE standards — unlike gas taxes — are costless for consumers. But according to the administration, the increases in CAFE standards (including both scheduled increases already on the books and the new Obama proposal) will add — on average — $1,300 to the cost of producing a new car.

Because CAFE standards increase the price of new cars, the standards have the unintentional effect of keeping older — dirtier and less fuel-efficient — cars on the road longer. This counterproductive effect is typical of any vintage-differentiated-regulation, a topic which I have addressed in a previous post. There is abundant empirical research on this issue.

Also, by decreasing the cost per mile of driving, CAFE standards — like any energy-efficiency technology standard — exhibit a “rebound effect,” namely, people have an incentive to drive more, not less, thereby lessening the anticipated reduction in gasoline usage. This has also been documented empirically.

The bottom line is that gasoline prices are a much more effective – and more cost-effective – means of cutting gasoline demand, both in the short term and the long term. But if increasing gasoline prices through gas taxes is politically impossible – which certainly appears to be the case in the current political climate – why raise all of these objections? Am I allowing the (infeasible) perfect to be the enemy of the good? Not at all, as I will explain.

There is, in fact, another policy instrument available that has the same desirable impacts as gas taxes on gasoline prices (and, more importantly, on all other fossil fuel prices, as well), but inspires dramatically less political opposition. And this instrument is not only politically feasible, but is right now achieving remarkable, broad-based political support in Washington. I’m talking about the economy-wide CO₂ cap-and-trade system in Congressmen Waxman and Markey’s legislation in the House of Representatives. Their cap-and-trade system will serve to increase the price of gasoline, cut demand, and reduce emissions. But, in addition, its impacts will go far beyond automobiles and trucks, and beyond the transportation sector, as well.

To seriously and cost-effectively address climate change, it is essential to put in place a single carbon price that affects all fossil fuels and all uses throughout the economy — not only in the transportation sector, but also electric power, and the manufacturing, commercial, and residential sectors. This is precisely what cap-and-trade does. A meaningful, upstream, economy-wide cap-and-trade system will serve to increase the price of gasoline, as well as other fuels, electricity, and all goods and services in proportion to their carbon-intensity in production, and it does this (as would a carbon tax) in the right proportions for each fuel, energy source, and product, so that the overall cap is achieved at the least possible cost. The real bottom line is that cap-and-trade is the cheapest, best, and only politically feasible approach that can achieve the significant reductions in CO₂ emissions that will be necessary to meet President Obama’s ambitious climate goals.

Back to the Obama administration’s CAFE proposal, a separate and distinct question is what will the effects be on the U.S. automobile industry? Will this be “good for the auto industry,” as the White House press release claimed? Doesn’t the presence of so many leading auto executives on the podium with the President clearly indicate that this regulatory change is good for the U.S. auto industry?

First, it is surely the case that a single national standard is better for the auto industry – and society more broadly – than the dual system that would have been brought about by the 14 Pavley states going forward with more stringent standards. There’s nothing new about the U.S. auto industry wanting a single national standard. Indeed, for this reason, the industry supported the enactment of Federal clean air legislation in the 1970s. We all prefer bad news to worse news, but that does not mean we welcome the bad news or that’s it good for us.

It’s also true that the U.S. auto industry has vastly less political clout now than it has had in decades, plus a much smaller share of the U.S. automobile market. The industry is in severe economic decline, indeed on the verge of bankruptcy, and it is depending now on massive government handouts. In this climate, it is hardly surprising that the U.S. auto industry is being exceptionally cooperative with the Federal government.

But is this policy in the long-term interest of the U.S. auto industry; is this “good for the U.S. auto industry?” The answer to that question is unknown. Keep in mind that for decades the U.S. auto manufacturers have just barely complied with CAFE standards each year, while Japanese manufacturers and importers have exceeded the standards. So, at first blush, it would appear that it may be easier — less costly — for Japanese companies than U.S. companies to meet the heightened fuel-efficiency standards. I’m not saying that the new standards will put the U.S. companies out of business, but simply that we don’t know at this point what the long-term impacts will be. In my view, one should be skeptical about claims to the contrary. As I’ve suggested in previous posts, the best reason to carry out environmental policies is that they are expected to be good for the environment.