Suppose that some category of product, such as cars, becomes more fuel-efficient across the board. You might expect the outcome to be that someone who now drives 12,000 miles per year in a 30-mile-per-gallon car will start driving 12,000 miles per year in a 40-mile-per-gallon car, saving 100 gallons of gas. But according to Tierney, what tends to happen instead is that the driver with the 40-mile-per-gallon car will start driving more. If he drives an extra 4,000 miles each year, that will totally wipe out the gas savings from increased fuel efficiency, in what's known as the "energy rebound effect." And this effect, Tierney claims, is often so large that it more than offsets the savings from energy efficiency, resulting in higher total energy use. It's like the case of a dieter who sees that baked potato chips contain only 1.5 grams of fat per serving and thinks, "Great, I can eat a whole bag of these for the same amount of fat as just a handful of regular chips," and consequently takes in far more calories overall.
Now, I can see how the rebound effect could potentially lead to higher energy use, although I should point out that Tierney doesn't provide any actual data to show that it does so in reality. (The closest he comes is citing two studies that say rebound effects "could sometimes erode all the expected reductions in emissions.") But I have to say, I'm not really sold on this argument. It's true that a person who's bought an energy-efficient car might start driving more—or, at the very least, might not make as strong an effort to drive less. But most people I know don't have all that much flexibility as to how much driving we do. The daily commute, for example, is usually of fixed length. Someone who lives 10 miles from work, and consequently drives 20 miles a day (or roughly 1,000 miles a year) getting to and from work, will use less gas driving those 1,000 miles at 40 mpg than at 30 mpg. True, that person will now have less of an incentive to bike to work or carpool as a way of saving gas, since the amount of gas used on each trip will be less. But I suspect that people who bike to work now aren't suddenly going to stop doing so just because they've bought a more fuel-efficient car. ("Well, on the one hand, I do get more exercise this way, and it's better for the environment, and I can steer around traffic jams—but on the other hand, this car is so efficient, it seems a shame not to use it.")
Tierney also argues that more fuel-efficient cars pose another drawback: their smaller size makes them less safe. "Because of the smaller and consequently less safe cars built to meet federal fuel-efficiency standards starting in the 1980s," he claims, "there were about 2,000 additional deaths on the highway every year, according to the National Research Council." I have one word for this argument: hogwash. Today's cars (and I do mean cars, not SUVs) are both much more efficient and much safer than those built fifty years ago. Check out this video made by the Insurance Institute for Highway Safety, in which a 1959 Chevy Bel Air (which got about 17 mpg at highway speeds) is crashed into a 2009 Chevy Malibu (30 mpg). The before-and-after photos from the crash show that the passenger compartment in the Bel Air is crushed, while that in the Malibu remains intact. Clearly, it is possible to make cars more efficient without making them less safe.
Ah, but, Tierney points out, there is an "indirect rebound effect" as well. Even if drivers don't respond to increased fuel efficiency by driving more, they may opt to "use the money they save on gasoline to buy other things that produce greenhouse emissions, like new electronic gadgets or vacation trips on fuel-burning planes." Again, I think this connection is highly doubtful. For one thing, wouldn't a driver with a more fuel-efficient car be more likely to opt for driving as opposed to flying? (Actually, if this article is to be believed, that's not really an improvement—but that's a subject for a separate entry.) And also, aren't the type of people who buy fuel-efficient cars also the type of people who would be more likely to invest the savings in other products that benefit the environment, like organic produce or better insulation? (Or is Mr. Tierney going to argue that insulating your home is a bad idea too, because it will only encourage you to turn up the heat and strip down to your shirt sleeves? He does apparently think that buying more efficient light bulbs will only encourage you to increase the light level in your home, as he points out that "we spend the same proportion of our income on light as our much poorer ancestors did in 1700," even at much less per lumen. But does it follow from this that if I go out and buy a dozen compact fluorescent bulbs to replace less efficient incandescents, I'll look at my lower electricity bill the next month and think, "Wow, at these prices, I could put strobe lights and a huge disco ball in the garage"?)
Now, I'm not trying to dispute Tierney's conclusion, which is that energy efficiency standards alone are not sufficient to make a dent in global warming, and we also need to "consider alternatives like a carbon tax." Certainly, when facing a problem as massive and as threatening as global warming, we need to use every available tool. But I do confess myself skeptical that efficiency standards are, in and of themselves, destructive. They're not going to solve global warming by themselves, I grant that freely. But it's going to take more solid data than Tierney provides in his column to convince me that they're actually harmful.
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An economist blog I like also took a stab at the underlying article.
http://worthwhile.typepad.com/worthwhile_canadian_initi/2011/03/led-holiday-lights-and-the-rebound-effect.html A bit of math, but not too much, and you can just skim through it if you want. The first comment there is also good.
I agree with you-- I can imagine other situations with rebound effects, but this doesn't seem like one of them. Like I've heard that if you make the highways wider, traffic gets *worse*-- I think the argument was similar, that more people move into the suburbs those highways go to. So I suppose that a person with a more fuel-efficient car might also decide to move farther from work.
And I would just like to use this comments section as a platform to whine about the state of "fuel-efficient" cars today. Back in 1999, I was in the position of buying a new car, and I bought the one Consumer Reports listed as "greenest"-- the Honda Civic. It was a year before the first hybrid, the original Honda Insight, came out. My 99 Honda Civic consistently got (gets, probably) gas mileage in the high 30s, and I was quite pleased with it.
Then we moved to Colorado and I sold my beloved car and bought a bike. But soon we will be moving back, and I'll be needing a car again. So it was with great interest that I looked at the latest Consumer Reports, the annual auto issue. And there I see that, 12 years later with hybrids quite common now, the best gas mileage available is... 39 mpg.
Why???? Why hasn't it gotten any better?
"An economist blog I like also took a stab at the underlying article.
http://worthwhile.typepad.com/worthwhile_canadian_initi/2011/03/led-holiday-lights-and-the-rebound-effect.html"
Interesting. The gist of the article seems to be as follows: the physicists who drew up the data on lighting expenditures saw that over the last three centuries, lighting costs have always accounted for the same percentage of GDP, and extrapolating, they concluded that "a 90% decrease in the cost of lighting will increase the quantity demanded ten-fold." However, according to the economist blogger, "intermediate micro (or even Econ 1000) shows that this is wrong." Rather, decreasing costs will lead to increased consumption only so long as it increases the "consumer surplus," which the blogger defines as "the difference between the benefits they get from consuming a good and the price they actually have to pay for it." In other words, they're making pretty much the same point I did when talking about a disco ball in the garage. Obviously I'm not going to do that, because it wouldn't provide a significant benefit, no matter how low the cost. (Nor am I going to leave my Christmas lights up until Lent, the way the blogger and most of his neighbors are doing, because that just bugs me.)
"I looked at the latest Consumer Reports, the annual auto issue. And there I see that, 12 years later with hybrids quite common now, the best gas mileage available is... 39 mpg."
How do they figure that? According to the government's calculations (at http://www.fueleconomy.gov/feg/bestworst.shtml), the Prius gets 51 mpg in the city and 48 on the highway. The plug-in hybrid Chevy Volt gets better than 60 mpg, and the all-electric Nissan Leaf gets the equivalent of 99 mpg (http://www.automotiveaddicts.com/15601/epa-rates-nissan-leaf-chevy-volt-mpg-equivalent-estimates).
Are you sure that 39 mpg figure isn't the best you can get with a standard gasoline engine? We just bought a new Honda Fit (we toyed with the idea of a hybrid, but we both prefer to drive a stick shift, and an efficient gas engine seemed nearly as good), and it's been getting 38 in typical driving and 42 on the highway. (And although this is about 33 percent better than our old Honda Accord, we haven't decided to increase our driving by 33 percent as a result.)
"..in which a 1959 Chevy Bel Air (which got about 17 mpg at highway speeds) is crashed into a 2009 Chevy Malibu (30 mpg)..."
What is also amazing, is that the 1959 weighs only 179 pounds more. All that high-strength steel of the new car and extra structure adds weight, yet the fuel economy is drastically better. And so is the performance. The 2009 Malibu with the base 4 cylinder does 0 to 60 in about 9.5 seconds. The 1959 chevy with the base 6 cylinder does 0 to 60 in about 16 seconds. Even with several of the optional V8s, like a 348 cubic inch, (5.7 liter), it takes about 10.5 seconds to do 0-60. And the new malibu? Order the optional V6, and it does 0-60 in about 6.5 seconds. And with total efficiency. And even with the ultra high performance police version of the 348, in 1959, it did 0-60 in 7.4 seconds - amazing for the time, ordinary today. (And there is only ONE of those cars known to still remain today, out of about only 40 that were ordered with that engine.)
Sorry, I misremembered the data from Consumer Reports. They do their own mileage testing. They didn't include the Volt or the Leaf. The Prius got 44; Smart 39; Honda Insight and VW Golf TDI 38, and others lower. The Fit Sport with manual transmission was reported at 33. I am glad to hear yours has been doing better. I also like to drive a stick shift and I really like the Fit so I might end up with one of those. But I'm still frustrated-- where is the Civic hybrid, or the Fit hybrid, that builds on that fuel-efficient little sedan/hatchback model but gets an extra 10mpg? Shouldn't there be such a car? I guess it's the Prius.
I think the answer to your question is that the manufacturers can sell more cars (and, to be fair, have a bigger impact on the environment) by putting hybrid engines in their bigger vehicles. There are still plenty of people out there who really want an SUV but feel guilty about the emissions, and selling to them is more profitable than selling to the folks who really want the tiniest, most efficient little car available. (Chances are, a lot of those folks will just buy the Prius anyway, because it's got that unmistakeable jellybean shape that says "Look at me, I'm driving a green car!")
But one nice feature of the Fit is that it has that little mileage meter under the odometer, just like the Prius, so you can actually see how your driving is affecting your mileage. That helps you learn how to drive more efficiently, which in turn boosts your mileage more. I remember reading an article once that suggested we could go a long way toward improving fleet efficiency just by putting one of those little meters in every new car sold.
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