Editor’s note: Tim Jackson, who has been at the forefront of research and teaching in sustainability for over 20 years, explained his philosophy to chinadialogue in February. Essentially, the author of Prosperity Without Growth supports the notion of moving away from GDP-focused notions of success. In the following article — the first of two adapted by chinadialogue with permission from Political Climate — Andrew Pendleton examines Jackson’s arguments.
Very, very briefly, Tim Jackson’s Prosperity Without Growth: Economics for a Finite Planet says that economic growth cannot continue without doing serious damage to our ecology (especially through climate change); that we don’t need to be rich to be healthy and well-educated; and that, far from making us happy, spending money makes us unhappy and insecure.
You won’t be that surprised to learn that Jackson goes on to say that another world is possible – the world of a no-growth, steady state economy, which can exist within ecological limits and in which we can flourish.
One the most high-profile and influential environmentalist books of the last year, Prosperity Without Growth is a serious volume. Indeed, it is popular precisely because it is the most eloquent and well-developed version of the environmentalist view of the world around at the moment. There is no opaque modelling, and there is a serious attempt to understand the nature of growth rather than just attack it. Some of Jackson’s numbers on growth and carbon emissions pose some real challenges in a very clear and direct way. At the same time, Jackson acknowledges that ending growth would not be easy, and would not solve all problems. He tries to think through how a no-growth economy might work. He even offers some ideas about policy.
There’s a lot in the book, and here I’m going to focus on what I think are the core arguments about ecological limits and the nature of economic growth. (I also think there are weaknesses in the “happiness” agenda and in Richard Wilkinson and Kate Pickett’s The Spirit Level, which Jackson also stirs into the pot, but for more on those issues I’d recommend reading critiques by Paul Ormerod and John Goldthorpe respectively.)
Jackson raises some difficult questions for the view that continuing economic growth in the west is compatible with abiding dangerous climate change, but in three areas I think the book dodges some fundamental issues, each one following on from the next. They are, in turn, the debate on decoupling, the nature of capitalism versus a steady state economy, and the politics of it all.
At the core of the book is the argument that it is “delusional” to believe that capitalism’s potential to improve efficiency will be able to decouple economic growth from carbon emissions in time to avoid dangerous climate change (Jackson takes that to require stabilisation at 450 parts per million [ppm, of CO2 equivalent] by 2050).
The argument goes like this. Growth (or decline) in emissions depend by definition on the product of three things: population growth (numbers of people), growth in income per person ($/person), and on the carbon intensity of economic activity (kgCO2/$). This last measure depends crucially on technology, and shows how far growth has been “decoupled” from carbon emissions. If population growth and economic growth are both positive, then carbon intensity must shrink at a faster rate than the other two if we are to slash emissions sufficiently.
Jackson calculates that to reach the 450 ppm stabilisation target, carbon emissions would have to fall from today’s levels at an average rate of 4.9% a year every year to 2050. So overall, carbon intensity has to fall enough to get emissions down by that amount, AND offset population and income growth. Between now and 2050, population is expected to grow at an average of 0.7% and Jackson first considers an extrapolation of the rate of global economic growth since 1990 – 1.4% a year – into the future. Thus, to reach the target, carbon intensity will have to fall at an average rate of 4.9+0.7+1.4 = 7% a year every year between now and 2050. This is about 10 times the historic rate since 1990.
Pause at this stage, and take note that if there were no further economic growth, carbon intensity would still have to fall at a rate of 4.9+0.7 = 5.6%, or about eight times the rate over the last 20 years. To his credit, Jackson acknowledges this – as he puts it, decoupling is vital, with or without growth. Decoupling will require both huge innovation and investment in energy efficiency and low-carbon energy technologies. One question, to which we’ll return later, is whether and how you can get this if there is no economic growth.
But also note that the difference between business as usual and no growth is the difference between an eight-fold and a 10-fold acceleration in the rate of decoupling. Economic growth plays much less of a role than the basic need to decarbonise. It’s possible to argue that if we can make the technological breakthroughs and huge investments needed to speed up decoupling by eight times its current rate, we will be able to achieve a10-times acceleration.
Can we make these breakthroughs? That’s a good question, and Jackson makes a lot of it. A 7% per year increase in efficiency over 40 years sounds very daunting, but technology breakthroughs can actually produce improvements equivalent to this, although usually with very big jumps, followed by smaller incremental changes over a longer period. For example, the introduction of the basic oxygen furnace in steelmaking increased labour productivity by 1,000% over 80 years, equivalent to around 9% a year, and cut the time required to make a given volume of steel by over 90%.
But Jackson doesn’t stop there. He goes on to point out that taking historical economic growth as a basis for the future means you accept a very unequal world. If we are serious about fairness, and poor countries catching up with rich countries, then the challenge is much, much bigger. In a scenario where all countries enjoy an income comparable with the European Union average by 2050 (taking into account 2% annual growth in that average between now and 2050 as well), then the numbers for the required rate of decoupling look like this: 4.9% a year cut in carbon emissions + 0.7% a year to offset population growth + 5.6% a year to offset economic growth = 11.2% per year, or about 15 times the historical rate.
[Methodological note: Since Jackson is talking about equity in living standards, he should be basing the discussion of catch up and growth on a purchasing power parity calculation of GDP. It’s not clear from Jackson’s presentation whether he’s done this, but if he has made the calculations based on GDP on a nominal exchange-rate basis, then this overstates the required catch-up growth by a factor of about 3.]
Interestingly, Nancy Birdsall and Arvind Subramanian over at the Center for Global Development in Washington explored similar numbers as Jackson back in 2009, and came to the conclusion not that growth in OECD countries should stop, but rather that “very large, probably revolutionary, improvements” in carbon intensity are needed.
There is a reason why this picture may not be quite as daunting as it appears. In this exercise, the vast majority of growth will happen in developing countries. Places like India and especially China already have a big fossil-fuel infrastructure. But in many countries, and even in India, the majority of people still do not have access to electricity. For these people, there are no big fossil-fuel plants to close down, and there is a huge opportunity to build a low-carbon-energy system almost from scratch. Their growth wouldn’t need to be decoupled from carbon; it just has to be low carbon.
Brazil until recently is a good reminder of this – not particularly for climate reasons, it has followed a low-carbon path. Most of its electricity comes from hydropower, and it uses sugar-cane ethanol for transport fuel. Brazil’s GDP (ppp) per head is US$11,300 (about one third of Britain’s) and its energy carbon intensity of GDP is 0.181 kgCO2/$, compared with the UK’s 0.258 kgCO2/$.
Again, the more innovation we get in low-carbon-energy technologies, the cheaper and easier such low-carbon growth will be. Look at some numbers. Installed capacity per head in Africa (including North Africa) is 0.117 kilowatts (kW), compared with the UK’s 1.4 kW. To make up the gap using, say, solar PV, so that every African enjoyed the same capacity as each Brit, and taking into account solar PV’s low-capacity factor (say 0.15 in the tropics), this would require an investment of 8,550 gigawatts (GW) of solar PV. Since 2001, the retail price of solar PV modules has halved, from US$5/watt to around $3/watt in 2011, because of cheaper silicon, technological improvements and economies of scale in manufacturing, making that investment some US$17 trillion cheaper than it would have been 10 years ago (these astronomical figures also show how expensive solar PV remains, however).
A final but important point. When looking at this kind of poor world catch-up scenario, the influence of economic growth on the required rate of decoupling is much bigger than when we are looking at a growth-as-usual scenario. The case for slowing or stopping global growth is much stronger, in terms of the difference it makes to being able to reach the carbon targets, when we are talking not about just business-as-usual growth in OECD countries, but much higher growth in developing countries.
But then it is not exactly clear what Jackson is proposing. At various points he seems to acknowledge the need and the historical right for developing countries to have economic growth. But at the same time he is saying that it’s incredible to believe that efficiency gains can accelerate decoupling 15-fold. If OECD countries stop growing, that would help, but as we’ve seen, not a lot. They’ll continue to emit carbon at near the current level, as shown in a steady state economy model of Canada that he introduces later in the book.
To make a more serious difference, and keep global economic growth low or zero, OECD countries would have to try to find prosperity not only without growth, but with a 75% reduction in their economies, as Jackson hints at one point. Such a mixture of rapid economic growth in some places and rapid decline in others might make it more feasible to meet carbon targets, but it’s clearly not what he really has in mind when he is talking about his alternative “steady state economy”. But does that mean he thinks that poor countries shouldn’t reach EU levels of income, and perhaps only aspire to thresholds levels at which better health and life expectancy outcomes are typically reached (in the region of US$6,000 to $15,000/head)?
The basic issue is even if you stop growth in the OECD tomorrow, if you want to meet the ecological constraint, you still need some combination of unprecedented increase in the rate of technological change and low-carbon investment, and/or an unfair global distribution of income. Jackson’s headlines are all about the first issue, but what about the other two, bigger, issues?
Andrew Pendleton is associate director for climate change, transport and energy at the London-based Institute for Public Policy Research (ippr) and convenor of the Global Climate Network. For the full, original version of this blogpost, see here.
NEXT: Steady states and political strategies
Homepage image from UK Department of Energy and Climate Change