Market Forces

“Risky Business” stands out in growing sea of climate reports

By Jonathan Camuzeaux / Published: June 25, 2014

This blog post was co-authored by Gernot Wagner and first published on EDF Voices.

Put Republican Hank Paulson, Independent Mike Bloomberg, and Democrat Tom Steyer together, and out comes one of the more unusual – and unusually impactful – climate reports.

This year alone has seen a couple of IPCC tomes, an entry by the American Association for the Advancement of Science and the most recent U.S. National Climate Assessment.

The latest, Risky Business, stands apart for a number of reasons, and it’s timely with the nation debating proposed, first-ever limits on greenhouse gas emissions from nearly 500 power plants.

Tri-partisan coalition tackles climate change

The report is significant, first, because we have a tri-partisan group spanning George W. Bush’s treasury secretary Paulson, former mayor of New York Bloomberg, and environmentalist investor Steyer – all joining forces to get a message through.

That list of names alone should make one sit up and listen.

Last time a similar coalition came together was in the dog days of 2009, when Senators Lindsay Graham, Joe Lieberman, and John Kerry were drafting the to-date last viable (and ultimately unsuccessful) Senate climate bill.

Global warming is hitting home

Next, Risky Business is important because it shows how climate change is hitting home. No real surprise there for anyone paying attention to globally rising temperatures, but the full report goes into much more granular details than most, focusing on impacts at county, state and regional levels.

Risky Business employs the latest econometric techniques to come up with numbers that should surprise even the most hardened climate hawks and wake up those still untouched by reality. Crop yield losses, for example, could go as high as 50 to 70 percent (!) in some Midwestern and Southern states, absent agricultural adaptation.

The report is also replete with references to heat strokes, sky-rocketing electricity demand for air conditioning, and major losses from damages to properties up and down our ever-receding coast lines.

Not precisely uplifting material, yet this report does a better job than most in laying it all out.

Financial markets can teach us a climate lesson

Finally, and perhaps most significantly, Risky Business gets the framing exactly right: Climate change is replete with deep-seated risks and uncertainties.

In spite of all that we know about the science, there’s lots more that we don’t. And none of that means that climate change isn’t bad. As the report makes clear, what we don’t know could potentially be much worse.

Climate change, in the end, is all about risk management.

Few are better equipped to face up to that reality than the trio spearheading the effort; Paulson, Bloomberg and Steyer have made their careers (and fortunes) in the financial sector. In fact, as United States Treasury secretary between 2006 and 2009, Paulson was perhaps closest of anyone to the latest, global example of what happens when risks get ignored.

We cannot – must not – ignore risk when it comes to something as global as global warming. After all, for climate, much like for financial markets, it’s not over ‘til the fat tail zings.

Also posted in Climate science / Leave a comment

Reality check: Society pays for carbon pollution and that’s no benefit

By Jeremy Proville / Bio / Published: February 4, 2014

This open letter, co-authored by Gernot Wagner and first published on EDF Voices, was written in response to a New York Times article citing Dr. Roger Bezdek’s report on “The Social Costs of Carbon? No, The Social Benefits of Carbon.”

Dear Dr. Bezdek,

After seeing so many peer-reviewed studies documenting the costs of carbon pollution, it’s refreshing to encounter some out-of-the-box thinking to the contrary. You had us with your assertion that: “Even the most conservative estimates peg the social benefit of carbon-based fuels as 50 times greater than its supposed social cost.” We almost quit our jobs and joined the coal lobby. Who wouldn’t want to work so selflessly for the greater good?

Then we looked at the rest of your report. Your central argument seems to be: Cheap fuels emit carbon; cheap fuels are good; so, by the transitive property of Huh?!, carbon is good. Pithy arguments are fine, but circular ones aren’t.

First off, cheap fuels are good. Or more precisely, cheap and efficient energy services are good. (Energy efficiency, of course, is good, too. Inefficiency clearly isn’t.) Cheap energy services have done wonders for the United States and the world, and they are still doing so. No one here is anti-energy; we are against ruining our planet while we are at it.

The high cost of cheap energy

Yes, the sadly still dominant fuels—by far not all—emit carbon pollution. Coal emits the most. Which is why the cost to society is so staggering. Forget carbon for a moment. Mercury poisoning from U.S. power plants alone causes everything from heart attacks to asthma to inhibiting cognitive development in children. The latter alone is responsible forestimated costs of $1.3 billion per year by knocking off IQ points in kids. All told, coal costs America $330 to 500 billion per year.

Put differently, every ton of coal—like every barrel of oil—causes more in external damagesthan it adds value to GDP. The costs faced by those deciding how much fossil fuel to burn are much lower than the costs faced by society.

None of that means we shouldn’t burn any coal or oil. It simply means those who profit from producing these fuels shouldn’t get a free ride on the taxpayer. Conservative estimates indicate that carbon pollution costs society about $40 per ton. And yes, that’s a cost.

Socializing the costs is not an option

As someone with a Ph.D. in economics, Dr. Bezdek, you surely understand the difference between private benefits and social costs. No one would be burning any coal if there weren’t benefits to doing so. However, the “social benefits” you ascribe to coal are anything but; in reality they are private, in the best sense of the word.

If you are the one burning coal, you benefit. If you are the one using electricity produced by burning coal, you benefit, too. To be clear, these are benefits. No one disputes that. It’s how markets work.

But markets also fail in a very important way. The bystanders who are breathing the polluted air are paying dearly. The costs, if you will, are socialized. Society—all of us—pays for them. That includes those who seemingly benefit from burning coal in the first place.

Your claim that what you call “social benefits” of coal dwarf the costs is wrong in theory and practice. In theory, because they are private benefits. As a matter of practice because these (private) benefits are very much included in the calculations that give us the social costs of coal. What you call out as the social benefits of coal use are already captured by these calculations. They are part of economic output.

Our indicators for GDP do a pretty good job capturing all these private benefits of economic activity. Where they fail is with the social costs. Hence the need to calculate the social cost of carbon pollution in the first place.

So far so bad. Then there’s this:

Plants need carbon dioxide to grow, just not too much of it

In your report, you also discuss what you call the benefits of increases in agricultural yields from the well-known carbon dioxide fertilization effect. It may surprise you to hear that the models used to calculate the cost of carbon include that effect. It turns out, they, too, in part base it on outdated science that ought to be updated.

But their science still isn’t as old as yours. For some reason, you only chose to include papers on the fertilization effect published between 1902 and 1997 (save one that is tangentially related).

For an updated perspective, try one of the most comprehensive economic analysis to date, pointing to large aggregate losses. Or try this Science article, casting serious doubt on any claims that carbon dioxide fertilization could offset the impacts on agricultural yields from climate change.

Farmers and ranchers already have a lot to endure from the effects of climate change. There’s no need to make it worse with false, outdated promises.

Coal lobby speaks, industry no longer listens

It’s for all these reasons that, to borrow the apt title to the otherwise excellent New York Times story that ran your quote: “Industry Awakens to Threat of Climate Change”. And it’s precisely why the U.S. government calculates the social cost of carbon pollution. Yes, sadly, it’s a cost, not a benefit.

To our readers: Want to get involved? The White House has issued a formal call for public comments on the way the cost of carbon figure is calculated, open throughFebruary 26. You can help by reminding our leaders in Washington that we need strong, science-based climate policies.

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The Silver Bullet Of Climate Change Policy

By Gernot Wagner / Bio / Published: January 24, 2014

From Forbes.com:

By Bob Litterman and Gernot Wagner

Whenever the conversation turns to climate change, someone is sure to opine that there’s no silver bullet. The issue is simply too complex to have one solution. When you focus on all the changes that need to occur to reduce greenhouse gas emissions globally it seems like a multifaceted approach is the only way forward.

Most of the world’s vexing problems share that feature. Mideast peace, nuclear non-proliferation, Eurozone stability, and plenty of other national security problems have no single right plan of attack. Some past plans might have brought us tantalizingly close to a seeming solution, but then reality started interfering once again, reconfirming the complexity of it all.

Climate change must surely be in that category. No single country, no single technology, no single approach can seemingly solve this one for us once and for all. Picking a single technology will almost inevitably end in some form of disappointment. Bureaucrats, the saying goes, ought not to try to pick winners. Leave that to venture capitalists for whom failure is a way of life. For every Apple and Facebook, there are dozens who never make it out of the garage. And clean technology doesn’t yet even have a single Apple and Facebook as the standout approach revolutionizing the field.

It turns out, though, that how you frame the issue is crucial. If you think like an engineer there are dozens of challenges. If you think like an economist, there is one. It’s guiding the ‘invisible hand’. How can you create the appropriate incentive to decrease the pollution that’s causing climate change? For that, the government need not be in the business of picking winners at all. What it should—and can—do is identify the loser that’s been clear for decades: greenhouse gas pollution. And the solution is equally clear: create incentives to reduce emissions by pricing it. If we make this one change, most other actions that are needed will follow.

That’s what the European Union has done by capping carbon emissions from its energy sector, including large industrials, covering almost half of total carbon emissions. That’s what California is doing with over 80 percent of its total global warming emissions. It’s what China is experimenting with in seven city and regional trials, including in Beijing and Shanghai. All these systems put a price on greenhouse gas pollution.

On the other side of the ledger, there are still much larger incentives to consume fossil fuels in many other countries. The International Energy Agency estimates that global subsidies are well over $500 billion. These subsidies, which incentivize emissions, sadly dwarf the paltry incentives to reduce them. Free marketeers, small government advocates, and others who dislike distorting government subsidies should be appalled at the tax money poured into fossil fuels.

There’s one simple principle that’s been around in economics for so long that no economist worth his or her degree would question the conclusion: increase the price, watch the quantity demanded go down. It’s such a universal truism that economists call it the “Law of Demand.” Generations of graduate students have estimated the effects of price on demand for anything from the generic widget to demand for car miles driven. People may be irrational at times, but one thing that we know for sure is that they respond to incentives.

Everything we know from decades of the study of human behavior would lead us to believe that carbon pollution will go down as the price on emissions increases. The only interesting question is by how much.

The prescription then for anyone seriously concerned about climate change is simple: price carbon to the point where its now unpriced damages are incorporated into the price, and get out of the way. It’s simple. It works. It’s conservative to the core.

It’s also a silver bullet solution if there ever was one.

Bob Litterman is a Partner at Kepos Capital, LP. Gernot Wagner is a senior economist at the Environmental Defense Fund.

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Correcting the maths of the “50 to 1 Project”

By Gernot Wagner / Bio / Published: November 1, 2013

(This post first appeared on Climate 411.)

A nine-minute video, released earlier this fall, argues that climate mitigation is 50 times more expensive than adaptation. The claims are based on calculations done by Christopher Monckton. We analyzed the accompanying “sources and maths” document. In short, the author shows a disconcerting lack of understanding of climate science and economics:

Fundamental misunderstanding of basic climate science: Pre-industrial levels of carbon dioxide (CO₂) were at around 280 parts per million (ppm).[i] One of the most commonly stated climate policy goals is to keep concentrations below 450 ppm CO₂. Monckton, oddly, adds 280 and 450 to get to 730 ppm as the goal of global stabilization efforts, making all the rest of his calculations wildly inaccurate.
Prematurely cutting off analysis after ten years: Monckton calculates the benefits of the carbon tax over a ten-year time horizon. That is much too short to see the full effects of global warming or of the policy itself. Elevated carbon levels persist for hundreds to thousands of years.[ii]
Erroneously applying Australian “cost-effectiveness” calculation to the world: This may be the most troubling aspect from an economist’s point of view. Monckton first calculates the effect of the Australia-only tax on global temperatures, which is unsurprisingly low, as Australia accounts for only 1.2% of world emissions. Next, he calculates the tax’s resulting “cost-effectiveness” — defined as the Australian tax influencing global temperatures. No surprise once again, that influence is there, but Australia alone can’t solve global warming for the rest of us. Then, Monckton takes the Australia-only number and scales it to mitigate 1ºC globally, resulting in a purported cost of “$3.2 quadrillion,” which he claims is the overall global “mitigation cost-effectiveness.” But this number simply represents the cost of avoiding 1ºC of warming by acting in Australia alone. Monckton has re-discovered the fact that global warming is a global problem! The correct calculation for a globally applied tax would be to calculate cost-effectiveness on a global level first. If Australia’s carbon price were to be applied globally, it would cut much more pollution at a much lower cost. And that, of course, is very much the hope. Australia, California, and the European Union are called “climate leaders” for a reason. Others must follow.

What’s the real cost of cutting carbon? The U.S. government’s estimate of the cost of one ton of CO₂ pollution released today is about $40.[iii] That’s also the optimal price to make sure that each of us is paying for our own climate damages. Any policy with a lower (implied) carbon price—including the Australian tax—easily passes a benefit-cost test.

With all due respect Lord Monckton, 3rd Viscount of Brenchley, your maths are way off.

[i] “Summary for Policymakers,” IPCC Fifth Assessment Report, Working Group I (2013).

[ii] Results differ across scenarios, but a rough rule of thumb suggests that approximately 70% of the ‘peak enhancement level’ over the preindustrial level of 280 ppm perseveres after 100 years of zero emissions, while approximately 40% of the ‘peak enhancement level’ over the preindustrial level of 280 ppm persevered after 1,000 years of zero emissions (Solomon, Susan, Gian-Kasper Plattner, Reto Knutti and Pierre Friedlingstein, “Irreversible climate change due to carbon dioxide emissions” Proceedings of the National Academy of Sciences 106, no. 6 (2009): 1704-1709). Note that this refers to the net increase in carbon dioxide in the atmosphere, not the exact molecule. Archer, David, Michael Eby, Victor Brovkin, Andy Ridgwell, Long Cao, Uwe Mikolajewicz, Ken Caldeira et al. “Atmospheric lifetime of fossil fuel carbon dioxide.” Annual Review of Earth and Planetary Sciences 37 (2009): 117-134 discusses these two often confused definitions for carbon’s ‘lifetime,’ and concludes that 20-40% of excess carbon levels remain hundreds to thousands of years (“2-20 centuries”) after it is emitted. Each carbon dioxide molecule has a lifetime of anywhere between 50 to 200 years, according to the U.S. Environmental Protection Agency’s “Overview of Greenhouse Gases: Carbon Dioxide Emissions.” The precise number is under considerable scientific dispute and surprisingly poorly understood. (Inman, Mason, “Carbon is forever,” Nature Reports Climate Change 20 November 2008)

[iii] The precise value presented in Table 1 of the Technical Update of the Social Cost of Carbon for Regulatory Impact Analysis Under Executive Order 12866 for a ton of carbon dioxide emitted in 2015, using a 3% social discount rate increased is $38. For 2020, the number is $43; for 2030, the number increases to $52. All values are in inflation-adjusted 2007 dollars. For a further exploration of this topic, see Nordhaus, William D. The Climate Casino: Risk, Uncertainty, and Economics for a Warming World. Yale University Press (2013) as only one of the latest examples summarizing this kind of analysis. Nordhaus concludes that the optimal policy, one that maximizes net benefits to the planet, would spend about 3% of global GDP.

Many thanks to Michelle Ho for excellent research assistance.

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Uncovering the Real Cost of Carbon

By Gernot Wagner / Bio / Published: June 3, 2013

(This post was co-authored by Thomas Sterner and appeared first on EDF Voices.)

Last week, the Obama administration released new energy efficiency standards for microwaves, along with an update to the government’s official Social Cost of Carbon (SCC) figure. What do those two things have to do with each other? Well, the efficiency standards will help the planet by cutting the energy needs of microwaves, which will in turn save consumers money. And the new SCC numbers show just how expensive our addiction to fossil fuels has become.

The SCC is used to estimate the damages from carbon emissions (and the benefits from reducing those emissions) for the purposes of regulatory benefit-cost analyses. The central estimate for the SCC is now around $35 per ton of carbon dioxide pollution emitted today.

That’s the administration’s estimate of the damage—to human health, ecosystems, and the economy—caused by every ton of carbon dioxide emitted into the atmosphere. The average American emits about 20 tons each year.

The new cost of carbon figure is a welcome step forward, reflecting the latest versions of the underlying models. The bad news is that the increased number also shows that our lack of a comprehensive climate policy is becoming ever more costly.

Moreover, this updated SCC number underestimates the true costs of carbon emissions. For example, the current SCC quickly rises to $55 per ton under a lower discount rate (that is, an estimate that doesn’t “discount” harms to the wealth and health of future generations by quite as much as the administration did in reaching its $35 per ton figure).

The value of one ton of carbon dioxide would rise higher still with a declining discount rate, something that, in line with the general consensus among economists, would more closely reflect the true costs of climate change. And none of that includes the cost of extreme climate events.

Basing Policy on Science

The good news: the administration’s latest numbers show exactly how policy analysis should be done—rigorously and consistent with the latest advances in science and economics. For example, instead of using older versions of three main SCC models to calculate its official number, the administration now uses the most recent peer-reviewed versions of each. That simple but important step helps to bring the new official SCC more in line with the latest academic literature.

In short, the administration’s economics are slowly and carefully catching up with what we all can see outside our windows. While atmospheric carbon dioxide levels have just passed the 400 parts per million threshold for the first time in over 3 million years, the real costs of climate change keep piling on.

What the country really needs, of course, is for Congress to pass a comprehensive climate policy. Only then will Americans stop living in a world where their personal behavior leads to socialized costs of at least $35 for each of the 20 tons of carbon dioxide we emit every year. Until then, the Obama administration is right to at least include these costs in its own regulatory impact assessments.

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Benefits of Clean Air and Water Dwarf Costs 10 to 1

By Gernot Wagner / Bio / Published: May 8, 2013

(This post was first published on EDF Voices.)

The Office of Management and Budget is nerd heaven: a bunch of people getting their professional kicks from analyzing federal regulation. This bean counting may sound painfully lacking in glamour, but it’s incredibly important. OMB’s annual report to Congress on the benefits and costs of all major rules adopted by most federal agencies over the past 10 years shows how efficiently, or inefficiently, those agencies are functioning. And the conclusion is clear: the Environmental Protection Agency comes out on top.

Source: OMB’s “Draft 2013 Report to Congress on the Benefits and Costs of Federal Regulations”

These numbers are based on the 2013 draft report, so they could still change. But the pattern is the same as in any of theirreports from the past few years, including the final 2012 report that came out last week.

None of this is to diminish the contributions of the other government agencies, but if you are a do-gooder trying to achieve the greatest good for the greatest number of people, EPA is the place to be.

One of the driving forces behind this rule is the Mercury and Air Toxics Standards, an extraordinary achievement for clean air and public health. Because of these standards, all coal fired power plants will for the first time be required to control their emissions of toxic air pollutants — including mercury, arsenic and acid gases. Forty years after the Clean Air Act signed by Richard Nixon, twenty after the landmark Amendments signed by George H.W. Bush, we are finally getting around to regulating mercury from burning coal.

The analysis of the benefits of reducing mercury pollution demonstrates just how much we underestimate the benefits of environmental protections. For example, when it comes to reducing mercury pollution, the benefits are based on EPA’s estimates of increased wages of (higher IQ) children born to families that catch freshwater fish for their own consumption.

Think about that one for a second. Mercury is a potent neurotoxin in all its forms, but the EPA estimates do not include mercury that is inhaled or that enters our bodies through other means. And there is nothing in the estimates about the fact that mercury harms the brains of our kids, regardless of whether it influences their future earning potential.

In a sense, this analysis is the moral equivalent of arguing that we should have child labor laws because keeping kids in school makes for more productive workers later on. This kind of reasoning, alas, is why economists are often called names unfit for a family-friendly blog. It’s the most reductionist argument you can find in favor of reducing mercury. (In fact, the bulk of the benefits that were quantified by EPA are due to inextricably connected benefits in reducing deleterious particulate pollution.)

Costs, by the way, are relatively well estimated, since businesses are all-too willing to share them. So yes, there are costs—but they are small relative to benefits. And costs, as opposed to benefits, are typically overestimates. They are largely based on current available control technologies. They don’t consider that industry may invent an entirely new and unexpected way of complying with regulations at lower cost. This happens over and over again, and it comes with a name: entrepreneurial ingenuity. Works every time.

These omissions and shortcomings on either side of the equation only stand to bolster the most important claim: benefits outweigh costs more than 10 to 1 for all major EPA regulations adopted in the past decade.

For every dollar invested, Americans get $10 worth of benefits. I’ll take that ratio any day.

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