Is time running out for powerdown?
Many climate policy professionals and climate activists are now reassessing whether there is anything more they can do to help prevent the global catastrophe that climate change appears to be. The passing of the symbolic 400ppm CO2 level certainly has seen some prominent activists getting close to a change of strategy. As the Transition Town movement founder and permaculture activist Rob Hopkins says, the shift in the mainstream policy circles from mitigation to adaptation and defence is underway (i.e. giving up).
While political deadlock remains the most obvious obstacle, I believe at least some of that deadlock stems from widespread doubt about whether greenhouse gas emissions can be radically reduced without economic contraction and/or substantial wealth redistribution. Substantial redistribution of wealth is not generally taken seriously perhaps because it could only come about through some sort of global revolution that would itself lead to global economic collapse. On the other hand, massive economic contraction seems like it might happen all by itself, without necessarily leading to greater equity.
The predominant focus in the “climate professional and activist community” on policies, plans and projects for transition to renewable energy and efficiency has yet to show evidence of absolute reductions in greenhouse gas emissions that do not depend on rising greenhouse gas emissions in other parts of the global economy. For example, the contribution of renewable technology installation to reduced GGE in some European countries appears to be balanced by increased GGE in China and India (where much of the renewable technologies are manufactured).
The Jevons’ paradox suggests than any gains in efficiency or tapping of new sources of energy will simply expand total consumption rather than reduce consumption of resources (and therefore GGE).
Richard Eckersley in his article ‘Deficit Deeper Than Economy’ identifies the improbability of ever decoupling economic growth from resource depletion and green house gas emissions. He states “Australia’s material footprint, the total amount of primary resources required to service domestic consumption (excludes exports and includes imports) was 35 tonnes per person in 2008, the highest among the 186 countries studied. Every 10 per cent increase in gross domestic product increases the average national material footprint by 6 per cent. By 2050, a global population of 9 billion people would require an estimated 270 billion tonnes of natural resources to fuel the level of consumption of OECD countries, compared with the 70 billion tonnes consumed in 2010.”
Time seems to be running out for any serious planned reductions in GGE adequate to prevent dangerous climate change without considering a powerdown of the growth economy. The ideas of degrowth are starting to get an airing, mostly in Europe, but the chances of these ideas being adopted and successfully implemented would require a long slow political evolution if not revolution. We don’t have time for the first, and the second almost certainly crashes the financial system, which in turn crashes the global economy.
Is time running out for bottom up alternatives?
Like many others, I have argued that the bottom up creation of household and community economies, already proliferating in the shadow of the global economy, can create and sustain different ways of well-being that can compensate, at least partly, for the inevitable contraction in centralised fossil fuelled economies (now well and truly failing to sustain the social contract in countries such as Greece and Egypt). When the official Soviet Union economy collapsed in the early ‘90s it was the informal economy that cushioned the social impact. Permaculture strategies focus on the provision of basic needs at the household and community level to increase resilience, reduce ecological footprint and allow much of the discretionary economy to shrink. In principle, a major contraction in energy consumption is possible because a large proportion of that consumption is for non-essential uses by more than a billion middle class people. That contraction has the potential to switch off greenhouse gas emissions but this has not been seriously discussed or debated by those currently working very hard to get global action for rapid transition by planned and co-ordinated processes. Of course it is more complicated because the provision of fundamental needs, such as water, food etc., are part of the same highly integrated system that meets discretionary wants.
However, the time available to create, refine and rapidly spread successful models of these bottom-up solutions is running out, in the same way that the time for government policy and corporate capitalism to work their magic in converting the energy base of growth from fossil to renewable sources. If the climate clock is really so close to midnight what else could be done?
Economic crash as hell or salvation
For many decades I have felt that a collapse of the global economic systems might save humanity and many of our fellow species great suffering by happening sooner rather than later because the stakes keep rising and scale of the impacts are always worse by being postponed. An important influence in my thinking on the chances of such a collapse was the public speech given by President Ronald Reagan following the 1987 stock market crash. He said “there won’t be an economic collapse, so long as people don’t believe there will be an economic collapse” or words to that effect. I remember at the time thinking; fancy the most powerful person on the planet admitting that faith (of the populace) is the only thing that holds the financial system together.
Two decades on I remember thinking that a second great depression might be the best outcome we could hope for. The pain and suffering that has happened since 2007 (from the more limited “great recession”) is more a result of the ability of the existing power structures to maintain control and enforce harsh circumstances by handing the empty bag to the public, than any fundamental lack of resources to provide all with basic needs. Is the commitment to perpetual growth in wealth for the richest the only way that everyone else can hope to get their needs met? The economy is simply not structured to provide all with their basic needs. That growth economy is certainly coming to an end; but will it slowly grind to a halt or collapse more rapidly?
The fact that the market price for carbon emissions has fallen so low in Europe is a direct result of stagnating growth. Past economic recessions and more serious economic collapses, such as faced by the Soviet Union after its oil production peaked in the late 1980’s, show how greenhouse gas emissions can and have been reduced, then stabilizing at lower levels once the economy stabilized without any planned intention to do so. The large number of oil exporters that have more recently peaked has provided many case studies to show the correlation with political upheaval, economic contraction and reductions in GGE. Similarly many of the countries that have suffered the greatest economic contraction are also those with the greatest dependence on imported energy, such as Ireland, Greece and Portugal. The so-called Arab Spring, especially in Egypt, followed high food and energy prices driven by collapsed oil revenues and inability to maintain subsidies. The radical changes of government in Egypt have not been able to arrest the further contraction of the economy.
The effects of peak oil and climate change have combined with geopolitical struggles over pipeline routes to all but destroy the Syrian economy and society.
Slow Contraction or Fast Collapse
The fragility of the global economy has many unprecedented aspects that make some sort of rapid collapse of the global economy more likely. The capacity of central banks to repeat the massive stimulus mechanism in response to the 2008 global financial crisis, has been greatly reduced, while the faith that underpins the global financial system has weakened, to say the least. Systems thinkers such as David Korowicz have argued that the inter-connected nature of the global economy, instantaneous communications and financial flows, “just in time” logistics, and extreme degrees of economic and technological specialisation, have increased the chances of a large scale systemic failure, at the same time that they have mitigated (or at least reduced) the impact of more limited localised crises.
Whether novel factors such as information technology, global peak oil and climate change have increased the likelihood of more extreme economic collapse, Foss and Keen have convinced me that the most powerful and fast-acting factor that could radically reduce greenhouse gas emissions is the scale of financial debt and the long-sustained growth of bubble economics stretching back at least to the beginnings of the “Thatcherite/Reaganite revolution” in the early 1980s. From an energetics perspective, the peak of US oil production in 1970, and the resulting global oil crises of 73 and 79, laid the foundations for the gigantic growth in debt that super accelerated the level of consumption, and therefore GGE.
Whatever the causes, all economic bubbles follow a trajectory that includes a rapid contraction, as credit evaporates, followed by a long-sustained contraction, where asset values decline to lower levels than those at the beginning of the bubble. After almost 25 years of asset price deflation in Japan, a house and land parcel of 1.5ha in a not too isolated rural location can be bought for $25,000. A contraction in the systems that supply wants are likely to see simultaneous problems in the provision of basic needs. As Foss explains, in a deflationary contraction, prices of luxuries generally collapse but essentials of food and fuel do not fall much. Most importantly, essentials become unaffordable for many, once credit freezes and job security declines. It goes without saying that deflation rather inflation is the economic devil that governments and central banks most fear and are prepared to do almost anything to avoid.
Giving credence to the evidence for fast global economic collapse may suggest I am moving away from my belief in the more gradual Energy Descent future that I helped articulate. John Michael Greer has been very critical of apocalyptic views of the future in which a collapse sweeps away the current world leaving the chosen few who survive to build the new world. In large measure I agree with his critique but recognise that some might interpret my work as suggesting a permaculture paradise growing from the ashes of this civilisation. To some extent this is a reasonable interpretation, but I see that collapse, as a long drawn-out process rather than resulting from a single event.
I still believe that energy descent will go on for many decades or even centuries. In Future Scenarios I suggested energy descent driven by climate change and peak oil could occur through a series of crises separating relatively stable states that could persist for decades if not centuries. The collapse of the global financial system might simply be the first of those crises that reorganise the world. The pathways that energy descent could take are enormously varied, but still little discussed, so it is not surprising that discussions about descent scenarios tend to default into ones of total collapse. As the language around energy descent and collapse has become more nuanced, we start to see the distinction between financial, economic, social and civilisational collapse as potential stages in an energy descent process where the first is fast changing and relatively superficial and the last is slow moving and more fundamental.
In Future Scenarios I suggested the more extreme scenarios of Earth Steward and Lifeboat could follow Green Tech and Brown Tech along the stepwise energy descent pathway. If we are heading into the Brown Tech world of more severe climate change, then as the energy sources that sustain the Brown Tech scenario deplete, and climate chaos increases, future crises and collapse could lead to the Lifeboat Scenario. In this scenario, no matter how fast or extreme the reductions in GGE due to economic collapse, we still end up in the climate cooker, but with only the capacity for very local, household and communitarian organisation.
If the climate crisis is already happening, and as suggested in Future Scenarios, the primary responses to the crisis increase rather than reduce GGE, then it is probably too late for any concerted effort to shift course to the more benign Green Tech energy descent future. Given that most of the world is yet to accept the inevitability of Energy Descent and are still pinning their faith in “Techno Stability” if not “Techno Explosion”, the globally cooperative powerdown processes needed to shift the world to Green Tech look unlikely. More fundamental than any political action, the resurgent rural and regional economies, based on a boom for agricultural and forestry commodities, that structurally underpins the Green Tech scenario, will not eventuate if climate change is fast and severe. Climate change will stimulate large investments in agriculture but they are more likely to be energy and resource intensive, controlled climate agriculture (greenhouses), centralised at transport hubs. This type of development simply reinforces the Brown Tech model including the acceleration of GGE.
While it may be too late for the Green Tech Scenario, it still may be possible to avoid more extreme climate change of a long drawn out Brown Tech Scenario before natural forcing factors lock humanity into the climate cooker of 4-6 degrees and resource depletion leads to a collapse of the centralised Brown Tech governance and a rise of local war lords (Lifeboat Scenario).
The novel structural vulnerabilities highlighted by David Korowicz, and the unprecedented extremity of the bubble economics highlighted by Nicole Foss suggest the strong tendencies towards a Brown Tech world could be short lived. Instead, severe global economic and societal collapse could switch off GGE enough to begin reversing climate change; in essence the Earth Steward scenario of recreated bioregional economies based on frugal agrarian resources and abundant salvage from the collapsed global economy and defunct national governance structures.
 During the early stages of the industrial revolution English economist William Stanley Jevons noticed that a doubling in the efficiency of steam engine technology led to an increase rather than a halving of coal consumption as businesses found more uses for the available power. See the Coal Question (1865).
 See Deficit Deeper Than Economy http://www.canberratimes.com.au/federal-politics/political-opinion/deficit-deeper-than-economy-20130929-2umd3.html#ixzz2js46nGBp
 See Wikipedia article for overview of movementhttp://en.wikipedia.org/wiki/Degrowth
 Of course true believers in global capitalism’s capacity to reduce GGE in time, still abound. See for example Christian Parenti’s piece from Dissent, reposted at Resilience.org, which is amusingly titled A Radical Approach to the Climate Crisiswhich is actually a plea for activists to forget trying to reform, let alone build systems based on sustainability principles, in favour of getting behind the power of corporations and governments to make big changes quickly (to get GGE falling fast enough).
 See for example, Peak oil and the fall of the Soviet Union by Douglas B. Reynolds on The Oil Drum.
 See Trade-Off, Metis Risk Consulting & Feasta, 2012