A Key Moment is Coming for the IPCC’s Future

About six month ago, I posted an essay at this blog (The IPCC at a Crossroads, February 26, 2015) highlighting some of the challenges faced by the Intergovernmental Panel on Climate Change (IPCC), which plays an important role in global climate change policy around the world. [In previous essays at this blog, I wrote about problems with the IPCC process (Is the IPCC Government Approval Process Broken?, April 25, 2014) and about its significant merits (Understanding the IPCC: An Important Follow-Up, May 3, 2014; The Final Stage of IPCC AR5 – Last Week’s Outcome in Copenhagen, November 4, 2014)].

A Key Moment to Think About the Future of the IPCC

Now is an important moment to think carefully about the path ahead for this much-maligned and much-celebrated organization, because in early October of this year, the 195 member countries of the IPCC (who together constitute this “intergovernmental panel”) will meet in plenary in Dubrovnik, Croatia, to elect a new Chair, who will lead the IPCC’s Sixth Assessment Report (AR6). There are some excellent candidates for the chairmanship. I hope they see (and read) today’s essay.

As I’ve said before, the IPCC is at a crossroads. Despite its many accomplishments, this institution, like many large institutions, has experienced severe growing pains. Its size has increased to the point that it has become cumbersome, it sometimes fails to address the most important issues, and – most striking of all – it is now at risk of losing the participation of the world’s best scientists, due to the massive burdens that participation entails.

In February of this year, we (Harvard) co-sponsored a three-day workshop on the future of international climate-assessment processes in Berlin, Germany, to take stock and reflect on lessons learned in past assessments – including those of the IPCC – as a means to identify options for improving future assessments. The workshop (titled “Assessment and Communication of the Social Science of Climate Change: Bridging Research and Policy”) was co-organized by: Fondazione Eni Enrico Mattei (FEEM, Italy), the Harvard Project on Climate Agreements (USA), the Mercator Research Institute on Global Commons and Climate Change (MCC, Germany), and the Stanford Environmental and Energy Policy Analysis Center (USA).  The workshop was funded, in part, by the Alfred P. Sloan Foundation.

How Can the IPCC and its Procedures be Improved?

In an essay published in the Review of Environment, Energy and Economics (“Assessment and Communication of the Social Science of Climate Change: Bridging Research and Policy.”), Carlo Carraro (FEEM), Charles Kolstad (Stanford), and I offered our thoughts on the path ahead, drawing on our reflections on the Berlin workshop. We described a set of challenges and opportunities facing the IPCC, and provided options for future improvements. Here are some excerpts in five key areas.

1.  The IPCC could better integrate and coordinate across IPCC Working Groups, as well as enhance interaction between scientists and governments.

The scoping process could include more interaction between governments and scientists, driven by policy questions governments want answered and issues scientists feel need addressing. More experts could be involved in the process leading up to scoping meetings so that draft outlines going into scoping meetings might better reflect broad scientific consensus.

Feedback among policymakers, scientists, and other stakeholders during the assessment process could be improved. A lack of coordination and discussion between policymakers and scientists during the scoping and writing process has sometimes led to controversies and misunderstanding at the Summary for Policymakers (SPM) government approval sessions, which might have been avoided through earlier consultation

The Chair of the IPCC could enhance coordination among Working Groups. The Chair could improve coordination between Working Groups at multiple stages of the assessment process, including in the preparation of the Synthesis Report (SYR).

Special Reports could be developed to more flexibly target emerging issues, develop closer interactions between Working Groups, and inform future Assessment Reports. Shorter reports would be easier to produce and involve shorter turnaround times.

2.  The IPCC could enhance its interface with social scientific disciplines and communities.

Involving experts from a more diverse set of social-scientific communities in the scoping process, prior to scoping meetings, could enhance the quality of the Working-Group outlines and reports. Scholars from a wider range of fields might contribute to the scoping process by suggesting policy-relevant questions and by indicating which questions from policymakers are most amenable to response.

The IPCC leadership could strengthen engagement with relevant research communities that may initiate research projects and consortia to address gaps of knowledge identified in the IPCC scoping or assessment processes. Such recommended research might then be evaluated and incorporated as appropriate into Assessment Reports.

Consider establishing more formal interfaces with professional societies and national academies of sciences to facilitate identification of authors from various scientific disciplines, including social sciences, during the author selection process. This could facilitate the task of the Bureau, Coordinating Lead Authors (CLAs), Technical Support Units (TSUs), and governments in identifying and recruiting the most appropriate disciplinary mix of scientists for the IPCC.

3.  The IPCC could increase its efforts to facilitate the contributions of expertise from developing countries.

Selecting CLAs and LAs on the basis of scientific skills, capability, and reputation is paramount, but it is also important to reflect the perspectives of both developed and developing countries. Today, excellent scholars are available from all regions of the world.

The IPCC could invite authors from developing countries with less regard to where they are currently based. There are a significant number of scholars of international repute from the developing world living and working outside their countries of origin. These scholars could contribute significantly to IPCC reports

New partnerships, including with national, regional, and international academies of sciences, could support the author-nomination process. The academies might support CLAs, TSUs, and national focal points in identifying excellent researchers from a diverse set of geographic regions.

The IPCC could facilitate efforts of other organizations to build scientific expertise in developing countries. While the IPCC does not have the mandate to finance or execute such capacity-building efforts, the IPCC could recognize and support other international organizations that help develop stronger developing-country scientific expertise.

4.  The IPCC could increase the efficiency of its operations and ensure scientific integrity through organizational improvements.

 Preparing IPCC Reports is a complex management operation. Operational aspects of the Assessment-Report process could be improved significantly in a number of ways:

The IPCC should ensure that Chair and Co-Chairs of the Working Groups are selected early in the assessment cycle, and particularly before the scoping meetings, in order to enable careful preparation of the overall assessment process. Having the Chair and Co-Chairs engaged in the process from the beginning would also help foster a more deeply-shared vision between IPCC leadership and governments of the ultimate assessment products.

The IPCC could improve the efficiency of TSUs, which is essential for effectively managing the Assessment-Report process. The functioning of the TSUs requires frequent and intense face-to-face collaboration among staff and with the Co-Chairs. This requires maintaining a single TSU for each Working Group, physically located in a single geographic location under the authority of the Working Group Co-Chairs, with clearly assigned responsibilities. Geographic balance can be increased via global searches for qualified professionals, including from developing countries, to serve on the TSU staff.

Work organization, in particular of Lead Author (LA) meetings, could be greatly improved. Inefficient organization and high workload significantly reduce the incentives for researchers to contribute to the IPCC process. Frequent LA meetings are putting a high travel burden on authors, and the IPCC could reduce the number and length of LA Meetings (LAMs) and use means of remote collaboration, communication, and organization. Chapter Science Assistants (CSAs) provide critical support for chapter teams, facilitating the functioning and organization of work between and during LAMs. The IPCC could allow them to participate in all meetings and provide dedicated funding streams for CSAs for all chapters. The money saved by holding fewer and briefer LAMs could partly be dedicated to this purpose.

Consider expanding the definition of conflict of interest to include not only economic conflicts, but also conflicts due to institutional affiliation. For example, authors, Bureau members, Working Group leadership, and other IPCC personnel with dual roles as national negotiators could be identified as having a potential conflict of interest. Also, authors who work for an organization that aims to influence climate policy might be defined as having a potential conflict of interest. While this expanded definition need not preclude these individuals from working with the IPCC, public disclosure of the potential conflict of interest should help assure the integrity of the IPCC process. It could be valuable to have such an expanded definition in effect early in the AR6 process.

5.  Outreach and communications could be strengthened.

The SPMs, as well as the Technical Summaries (TS), are widely considered by non-experts to be difficult to access and understand. It would be difficult to change the SPM process, given its negotiated character. However, the IPCC could consider engaging expert science communicators to help produce more concise TSs, making them more accessible to policymakers and the general public. In addition, re-naming the TS as “Executive Summary” could more accurately characterize this component of the Assessment Reports and draw the interest of a broader readership.

The impact of IPCC publications on the UNFCCC process may have suffered from not being more closely aligned in terms of timing. The IPCC could consider synchronizing the IPCC Assessment cycle with the UNFCCC negotiation schedule.

Next Steps

My co-authors and I are continuing to develop our thinking on these and other issues associated with the functioning of the IPCC. Whereas some commentators have argued that the IPCC has outlived its usefulness (or is irreparably broken), I prefer to resist the temptation to “throw out the baby with the bathwater.” Instead, I welcome your thoughts on how the IPCC and its procedures can be improved.

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Crude Oil Prices, Climate Change, and Global Welfare

A few weeks ago, I participated in a panel session titled, “The Remarkable Transformation of the Energy Sector: Does it Also Transform Our World.” The motivating question was: “Is the dramatic decline in oil prices a complete gift to the West because of the enormous funds being saved, or is it an unintended Trojan horse because development of renewable energy as well as new fossil-fuel sources will decline in the West, posing longer new challenges?”

The other members of the panel – from private industry – had vastly more expertise (and relevant insights) on fossil-fuel markets, but here’s what I had to say. This is hardly at the sweet spot of my professional competence, so I welcome your comments and corrections! In general, how would you answer that question?

Causes

I start (and started) from the premise that the dramatic decline in crude oil prices that took place from August, 2014 ($96/barrel), to March, 2015 ($44/barrel), was due – on the one hand – to decreased demand, a function of slow economic growth in Asia, Europe, and elsewhere, endogenous, price-driven technological change leading to greater fuel efficiency, and policy-driven technological change that also has been leading to greater fuel efficiency, such as more stringent Corporate Average Fuel Economy (CAFE) standards in the United States; and – on the other hand – was due to increased supply, partly a function of the growth of unconventional (tight) U.S. oil production (a product of the combination of two technologies – horizontal drilling and hydraulic fracturing).  And, in the presence of all of this, Saudi Arabia decided not to restrict its output to prop up prices.

[Before proceeding, I should note that since May of this year, crude oil prices have increased by about 30% from their March low, but as of May ($60/barrel) are still far below their August 2014 level.]

Consequences

When one examines virtually any significant price change from an economic perspective, there inevitably seems to be both good news and bad news. So with the fall in crude oil prices.

The Bad News

First of all, I assume that low crude oil prices are problematic for the economic and political stability of some of the oil-producing/exporting countries, including Saudi Arabia, Russia, Venezuela, and Nigeria.  (For details, see Bordoff and Losz 2015, below.)

Second, it’s frequently been asserted that low oil prices are bad news for the development of alternative forms of energy, including renewable sources. Of course, in the United States, there isn’t much effect on electricity generation from renewable (wind and solar), because in the U.S. electricity sector, renewable supplies compete with coal and natural gas, not with fuel oil (but in other countries, which use more fuel oil for electricity generation than we do, there can be a disincentive for renewable dispatch – and hence development).

Third, there can be – indeed, has been – a major impact in the U.S. motor fuels sector, where the market for biofuels (mainly ethanol) is negatively affected by low conventional gasoline prices. However, these impacts must be somewhat muted by public policies, which directly or indirectly subsidize (or, in fact, require) the use of biofuels.

Fourth, low gasoline prices have resulted in decreased demand by consumers for motor vehicles with high fuel efficiency, and SUV and pickup truck sales have rebounded from previous lows. But these effects are also muted, to some degree, by public policies, including U.S. CAFE standards.   Finally, low gasoline prices also have short-term effects in the form of more driving and fuel use by the existing fleet of motor vehicles, which is bad news in terms of emissions (and congestion).

Differences across Sectors

Before turning to the “good news” about low crude oil prices (and there surely is good news), it’s worthwhile noting that whether individual businesses find these low prices to be good or bad depends largely upon the economic sector in which they operate. For example, whereas commercial airlines are finally making profits, due to the low price of jet fuel (their most important variable operating cost), manufacturers of commercial aircraft will see lower demand for new planes if low jet fuel prices become the long-term norm. The primary factor driving the larger airlines to replace aircraft in their fleets is the lower operating costs due to the much greater fuel efficiency of new models.

And, of course, low oil prices are systematically bad news for oil producers, including the major U.S. companies.

The Good News

Finally, here is the upside of these significant changes in crude oil markets.

Low oil prices are unambiguously good for aggregate global welfare. This includes consumers in the United States, Europe, Japan, and South Korea. And, at least temporarily, OPEC seems to have lost its ability to set a price floor.

Low oil prices mean an increase in consumers’ disposable income, amounting to nearly $2,500 per U.S. household annually, according to Stephen Brown (see below).  If we subtract the income losses to U.S. oil producers, the net gain per U.S. household amounts to a bit more than $800 per year, with gains accruing disproportionately to low-income households.

Turning to the environmental realm, there is also good news, or at least the possibility of good news. An opportunity for new, sensible energy and climate change policies has emerged with these low oil prices.

First, now is the time to reduce – or better yet, phase out – costly and inefficient fuel subsidies, which exist in many parts of the world, particularly in developing countries.

Second, with gasoline prices relatively low – and natural gas supplies holding down electricity prices, at least in the United States – there has never been a better time to introduce progressive climate policies in the form of carbon-pricing, whether via carbon taxes or through carbon cap-and-trade. Unfortunately, none of us should hold our breath waiting for that to happen.

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For further reading, I recommend:

Bordoff, Jason, and Akos Losz.  “Oil Shock: Decoding the Causes and Consequences of the 2014 Oil Price Drop.”  Horizons, Spring 2015, Issue No. 3, pp. 190-206.

Brown, Stephen P. A.  “Falling Oil Prices: Implications in the United States.” Resources, Number 189.  Washington:  Resources for the Future, 2015, pp. 40-44.

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Assessing the Energy-Efficiency Gap

Global energy consumption is on a path to grow 30-50 percent over the next 25 years, bringing with it, in many countries, increased local air pollution, greenhouse gas (GHG) emissions, and oil consumption, as well as higher energy prices.  Energy-efficient technologies offer considerable promise for reducing the costs and environmental damages associated with energy use, but these technologies appear not to be used by consumers and businesses to the degree that would apparently be justified, even on the basis of their own (private) financial net benefits.

For some thirty years, there have been discussions and debates about this phenomenon among researchers and others in academia, government, non-profits, and private industry, typically couched in terms of potential explanations of the so-called “energy efficiency gap” or “energy paradox.”

Thinking About the Energy-Efficiency Gap

I wrote about this some two years ago at this blog ().  I  noted then that Professor Richard Newell of Duke University and I had just launched an initiative – sponsored by the Alfred P. Sloan Foundation — to synthesize past work on potential explanations of the energy paradox and identify key gaps in knowledge. We subsequently conducted a comprehensive review and assessment of social-science research on the adoption of energy-efficient technologies.

We worked with leading social scientists — including scholars from economics, psychology, and other disciplines, at a workshop held at Harvard — to examine the various possible explanations of the energy paradox and thereby to help identify the frontiers of knowledge on the diffusion of energy-efficient technologies.  As materials became available, we posted them at the project’s Harvard website and the project’s Duke website.

Releasing a New Monograph

I’m pleased to inform readers of this blog that we have now released a major monograph, Assessing the Energy Efficiency Gap, co-authored with Todd Gerarden, a Harvard Ph.D. student in Public Policy and a Pre-Doctoral Fellow of the Harvard Environmental Economics Program (HEEP).  The monograph draws in part from the research workshop held at Harvard (in October 2013), in which most of the U.S.-based scholars (primarily, but not exclusively, economists) then conducting research on the energy-efficiency gap participated. HEEP co-sponsored a second such research workshop with the Centre for European Economic Research (ZEW) in Mannheim, Germany in March 2014, where European economists explored the same topic. Closely-related research was presented by panelists at the annual conference of the Allied Social Science Association in January 2015.

In the new monograph, Gerarden, Newell, and I examine both the “energy paradox,” the apparent reality that some energy-efficiency technologies that would pay off for adopters are nevertheless not adopted, and the broader phenomenon we characterize as the “energy-efficiency gap,” the apparent reality that some energy-efficiency technologies that would be socially efficient are not adopted. The contrast is between private and social optimality, which ultimately has important implications for the role of various policies, as well as their expected net benefits.

Four Key Questions

We begin by decomposing cost-minimizing energy-efficiency decisions into their fundamental elements, which allows us to identify four major questions, the answers to which are germane to sorting out the causes (and reality or lack thereof) of the paradox and gap.

First, we ask whether the energy efficiency and associated pricing of products on the market are economically efficient. To answer this question, we examine the variety of energy-efficient products on the market, their energy-efficiency levels, and their pricing. Although the theory is clear, empirical evidence is—in general—quite limited. More data that could facilitate potential future empirical research are becoming available, although firm-level data are much less plentiful than data on consumers. We do not see this area as meriting high priority for future research, however, with the exception of research that evaluates the effectiveness and efficiency of existing energy-efficiency information policies and examines options for improving these policies.

Second, we ask whether energy operating costs are inefficiently priced and/or understood. Even if consumers make privately optimal decisions, energy-saving technology may diffuse more slowly than the socially optimal rate, because of negative externalities. So, even if the energy paradox is not present, the energy-efficiency gap may be. As in the first realm, the theoretical arguments are strong. Empirical evidence is considerable, and in many cases data are likely to be available for additional research. Existing policies appear not to be sufficient from an economic perspective, suggesting that further research is warranted. Indeed, we ascribe high priority to the pursuit of research in this realm.

Third, we ask whether product choices are cost-minimizing in present-value terms, or whether various market failures and/or behavioral phenomena inhibit such cost-minimization. We find that the empirical evidence ranges from strong (split incentives/agency issues and inattention/salience phenomena) to moderate (heuristic decision-making/bounded rationality, systematic risk, and option value) to weak (learning-by-using, loss aversion, myopia, and capital market failures). Importantly, here, as elsewhere in our review, the bulk of previous work has focused on the residential sector and much less attention has been given to the commercial and industrial sectors. Some areas merit priority for future research, such as empirical analysis of split incentives/agency issues in areas where efficiency standards are not present, and much more work can be done in the behavioral realm.

Fourth, we ask whether other unobserved costs may inhibit energy-efficient decisions. We find that the empirical evidence is generally sound, and that data needed for more research are available. We assign a relatively high priority to future research, particularly to aid understanding of consumer demand for product attributes that are correlated with energy efficiency, thereby informing policy and product development decisions.

Three Categories of Potential Explanations of the Gap

Finally, we ask what these findings have to say about the three categories of explanations (reviewed in detail in my 2013 essay at this blog) for the apparent underinvestment in energy-efficient technologies relative to the predictions of some engineering and economic models: (1) market failures, (2) behavioral effects, and (3) modeling flaws.  In brief, potential market-failure explanations include information problems, energy market failures, capital market failures, and innovation market failures. Potential behavioral explanations include inattentiveness and salience, myopia and short sightedness, bounded rationality and heuristic decision-making, prospect theory and reference-point phenomena, and systematically biased beliefs. Finally, potential modeling flaws include unobserved or understated costs of adoption; ignored product attributes; heterogeneity in benefits and costs of adoption across potential adopters; use of incorrect discount rates; and uncertainty, irreversibility, and option value.

It turns out that all three categories of explanations are theoretically sound and that limited empirical evidence exists for every category as well, although the empirical research is by no means consistently strong across all of the specific explanations.  The validity of each of these explanations—and the degree to which each contributes to the energy-efficiency gap—are relevant for crafting sensible policies, so Gerarden, Newell, and I hope that our new monograph can help inform both future research and policy.  Given the many energy-efficiency policies and programs that are already in place, high priority should be given to research that evaluates the effectiveness, cost-effectiveness, and overall economic efficiency of existing energy-efficiency policies, as well as options for their improvement.

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