To collapse or not to collapse

6 05 2018

Following on from posting David Holmgren’s inspiring speech on collapse yesterday, I’ve had several requests to post the rest of the debate in question, and so here it is in its entirety for your viewing satisfaction……

The SLF Great Debate presents
To Collapse or Not To Collpase
Pushing for economic ruin or building a great transition

Friday 13th February
Deakin Edge, Federation Square
http://www.slf.org.au/event/the-great-debate/





Holmgren on collapse

5 05 2018

“To Collapse Or Not To Collapse: Pushing for economic ruin or building a great transition” was the topic for this unconventional ‘debate’ for the Sustainable Living Festival held at Federation Square in Melbourne February 2015. David Holmgren was the first of six speakers which also included Jess Moore, George Marshall, Nicole Foss, George Monbiot (Video Link) and Philip Sutton. See David’s website http://holmgren.com.au/to-collapse-or… for more. The full event can be view here: https://vimeo.com/119722889





To Collapse or Not To Collapse

21 02 2015

This is a great debate from the Sustainable Living Festival featuring David Holmgren, George Monbiot, Nicole Foss, Philip Sutton, and a couple of others I don’t know like Jess Moore and George Marshall…..

The SLF Great Debate presents

To Collapse or Not To Collapse, or Sucking Beer Out Of The Carpet according to Nicole Foss!

Pushing for economic ruin or building a great transition





Fifty Million Farmers

14 03 2014

There was a time not so long ago when famine was an expected, if not accepted, part of life. Until the 19th century—whether in China, France, India or Britain—food came almost entirely from local sources and harvests were variable. In good years, there was plenty—enough for seasonal feasts and for storage in anticipation of winter and hard times to come; in bad years, starvation cut down the poorest and the weakest—the very young, the old, and the sickly. Sometimes bad years followed one upon another, reducing the size of the population by several percent. This was the normal condition of life in pre-industrial societies, and it persisted for thousands of years.

SainsburyInStoreToday, in America, such a state of affairs is hard to imagine. Food is so cheap and plentiful that obesity is a far more widespread concern than hunger. The average mega-supermarket stocks an impressive array of exotic foods from across the globe, and even staples are typically trucked from hundreds of miles away. Many people in America did go hungry during the Great Depression, but those were times that only the elderly can recall. In the current regime, the desperately poor may experience chronic malnutrition and may miss meals, but for most the dilemma is finding time in the day’s hectic schedule to go to the grocery store or to cook. As a result, fast-food restaurants proliferate: the fare may not be particularly nutritious, but even an hour’s earnings at minimum wage will buy a meal or two. The average American family spent 20 percent of its income on food in 1950; today the figure is 10 percent.

This is an extraordinary situation; but because it is the only one that most Americans alive today have ever experienced, we tend to assume that it will continue indefinitely. However there are reasons to think that our current anomalous abundance of inexpensive food may be only temporary; if so, present and future generations may become acquainted with that old, formerly familiar but unwelcome houseguest—famine.

The following are four principal bases (there are others) for this gloomy forecast.

The first has to with looming fuel shortages. This is a subject I have written about extensively elsewhere, so I shall not repeat myself in any detail. Suffice it to say that the era of cheap oil and natural gas is coming to a crashing end, with global oil production projected to peak in 2010 and North American natural gas extraction rates already in decline. These events will have enormous implications for America’s petroleum-dependent food system.

energyfarmingModern industrial agriculture has been described as a method of using soil to turn petroleum and gas into food. We use natural gas to make fertilizer, and oil to fuel farm machinery and power irrigation pumps, as a feedstock for pesticides and herbicides, in the maintenance of animal operations, in crop storage and drying, and for transportation of farm inputs and outputs. Agriculture accounts for about 17 percent of the U.S. annual energy budget; this makes it the single largest consumer of petroleum products as compared to other industries. By comparison, the U.S. military, in all of its operations, uses only about half that amount. About 350 gallons (1,500 litres) of oil equivalents are required to feed each American each year, and every calorie of food produced requires, on average, ten calories of fossil-fuel inputs. This is a food system profoundly vulnerable, at every level, to fuel shortages and skyrocketing prices. And both are inevitable.

An attempt to make up for fuel shortfalls by producing more biofuels—ethanol, butanol, and biodiesel—will put even more pressure on the food system, and will likely result in a competition between food and fuel uses of land and other resources needed for agricultural production. Already 14 percent of the U.S. corn crop is devoted to making ethanol, and that proportion is expected to rise to one quarter, based solely on existing projects-in-development and government mandates.

communityfarmingThe second factor potentially leading to famine is a shortage of farmers. Much of the success of industrial agriculture lies in its labour efficiency: far less human work is required to produce a given amount of food today than was the case decades ago (the actual fraction, comparing the year 2000 with 1900, is about one seventh). But that very success implies a growing vulnerability. We don’t need as many farmers, as a percentage of the population, as we used to; so, throughout the past century, most farming families—including hundreds of thousands and perhaps millions that would have preferred to maintain their rural, self-sufficient way of life—were economically forced to move to cities and find jobs. Today so few people farm that vital knowledge of how to farm is disappearing. The average age of American farmers is over 55 and approaching 60. The proportion of principal farm operators younger than 35 has dropped from 15.9 percent in 1982 to 5.8 percent in 2002. Of all the dismal statistics I know, these are surely among the most frightening. Who will be growing our food twenty years from now? With less oil and gas available, we will need far more knowledge and muscle power devoted to food production, and thus far more people on the farm, than we have currently.

The third worrisome trend is an increasing scarcity of fresh water. Sixty percent of water used nationally goes toward agriculture. California’s Central Valley, which produces the substantial bulk of the nation’s fruits, nuts, and vegetables, receives virtually no rainfall during summer months and relies overwhelmingly on irrigation. But the snowpack on the Sierras, which provides much of that irrigation water, is declining, and the aquifer that supplies much of the rest is being drawn down at many times its recharge rate. If these trends continue, the Central Valley may be incapable of producing food in any substantial quantities within two or three decades. Other parts of the country are similarly overspending their water budgets, and very little is being done to deal with this looming catastrophe. [editorial note:  this is happening right now!]

climateagricultureFourth and finally, there is the problem of global climate change. Often the phrase used for this is “global warming,” which implies only the fact that the world’s average temperature will be increasing by a couple of degrees or more over the next few decades. The much greater problem for farmers is destabilization of weather patterns. We face not just a warmer climate, but climate chaos: droughts, floods, and stronger storms in general (hurricanes, cyclones, tornadoes, hail storms)—in short, unpredictable weather of all kinds. Farmers depend on relatively consistent seasonal patterns of rain and sun, cold and heat; a climate shift can spell the end of farmers’ ability to grow a crop in a given region, and even a single freak storm can destroy an entire year’s production. Given the fact that modern American agriculture has become highly centralized due to cheap transport and economies of scale (almost the entire national spinach crop, for example, comes from a single valley in California), the damage from that freak storm is today potentially continental or even global in scale. We have embarked on a century in which, increasingly, freakish weather is normal.

I am not pointing out these problems, and their likely consequences, in order to cause panic. As I propose below, there is a solution to at least two of these dilemmas, one that may also help us address the remaining ones. It is not a simple or easy strategy and it will require a coordinated and sustained national effort. But in addition to averting famine, this strategy may permit us to solve a host of other, seemingly unrelated social and environmental problems.

Intensifying Food Production

In order to get a better grasp of the problems and the solution being proposed, it is essential that we understand how our present exceptional situation of cheap abundance came about. In order to do that, we must go back not just a few decades, but at least ten thousand years.

stone-age-farm-farmer-lgThe origins of agriculture are shrouded in mystery, though archaeologists have been whittling away at that mystery for decades. We know that horticulture (gardening) began at somewhat different periods, independently, in at least three regions—the Middle East, Southeast Asia, and Central America. Following the end of the last Ice Age, roughly 12,000 years ago, much of humanity was experiencing a centuries-long food crisis brought on by the over-hunting of the megafauna that had previously been at the center of the human diet. The subsequent domestication of plants and animals brought relative food security, as well as the ability to support larger and more sedentary populations.

As compared to hunting and gathering, horticulture intensified the process of obtaining food. Intensification (because it led to increased population density—i.e., more mouths to feed), then led to the need for even more intensification: thus horticulture (gardening) eventually led to agriculture (field cropping). The latter produced more food per unit of land, which enabled more population growth, which meant still more demand for food. We are describing a classic self-reinforcing feedback loop.

As a social regime, horticulture did not represent a decisive break with hunting and gathering. Just as women had previously participated in essential productive activities by foraging for plants and hunting small animals, they now played a prominent role in planting, tending, and harvesting the garden—activities that were all compatible with the care of infants and small children. Thus women’s status remained relatively high in most horticultural societies. Seasonal surpluses were relatively small and there was no full-time division of labor.

But as agriculture developed—with field crops, ploughs, and draft animals—societies inevitably mutated in response. Plowing fields was men’s work; women were forced to stay at home and lost social power. Larger seasonal surpluses required management as well as protection from raiders; full-time managers and specialists in violence proliferated as a result. Societies became multi-layered: wealthy ruling classes (which had never existed among hunter-gatherers, and were rare among gardeners) sat atop an economic pyramid that came to include scribes, soldiers, and religious functionaries, and that was supported at its base by the vastly more numerous peasants—who produced all the food for themselves and everyone else as well. Writing, mathematics, metallurgy, and, ultimately, the trappings of modern life as we know it thus followed not so much from planting in general, as from agriculture in particular.

As important an instance of intensification as agriculture was, in many respects it pales in comparison with what worldpopgrowth4has occurred within the past century or so, with the application of fossil fuels to farming. Petroleum-fed tractors replaced horses and oxen, freeing up more land to grow food for far more people. The Haber-Bosch process for synthesizing ammonia from fossil fuels, invented just prior to World War I, has doubled the amount of nitrogen available to green nature—with nearly all of that increase going directly to food crops. New hybrid plant varieties led to higher yields. Technologies for food storage improved radically. And fuel-fed transport systems enabled local surpluses to be sold not just regionally, but nationally and even globally. Through all of these strategies, we have developed the wherewithal to feed seven times the population that existed at the beginning of the Industrial Revolution. And, in the process, we have made farming uneconomical and unattractive to all but a few.

That’s the broad, global overview. In America, whose history as an independent nation begins at the dawn of the industrial era, the story of agriculture comprises three distinct periods:

The Expansion Period (1600 to 1920): Increases in food production during these three centuries came simply from putting more land into production; technological change played only a minor role.

The Mechanization Period (1920 to 1970): In this half-century, technological advances issuing from cheap, abundant fossil-fuel energy resulted in a dramatic increase in productivity (output per worker hour). Meanwhile, farm machinery, pesticides, herbicides, irrigation, new hybrid crops, and synthetic fertilizers allowed for the doubling and tripling of crop production. Also during this time, U.S. Department of Agriculture policy began favoring larger farms (the average U.S. farm size grew from 100 acres in 1930 to almost 500 acres by 1990), and production for export.

The Saturation Period (1970-present): In recent decades, the application of still greater amounts of energy have produced smaller relative increases in crop yields; meanwhile an ever-growing amount of energy is being expended to maintain the functioning of the overall system. For example, about ten percent of the energy in agriculture is used just to offset the negative effects of soil erosion, while increasing amounts of pesticides must be sprayed each year as pests develop resistances. In short, strategies that had recently produced dramatic increases in productivity became subject to the law of diminishing returns.

While we were achieving miracles of productivity, agriculture’s impact on the natural world was also growing; indeed it is now the single greatest source of human damage to the global environment. That damage takes a number of forms: erosion and salinisation of soils; deforestation (a strategy for bringing more land into cultivation); fertilizer runoff (which ultimately creates enormous “dead zones” around the mouths of many rivers); loss of biodiversity; fresh water scarcity; and agrochemical pollution of water and soil.

In short, we created unprecedented abundance while ignoring the long-term consequences of our actions. This is more than a little reminiscent of how some previous agricultural societies—the Greeks, Babylonians, and Romans—destroyed soil and habitat in their mania to feed growing urban populations, and collapsed as a result.

Fortunately, during the past century or two we have also developed the disciplines of archaeology and ecology, which teach us how and why those ancient societies failed, and how the diversity of the web of life sustains us. Thus, in principle, if we avail ourselves of this knowledge, we need not mindlessly repeat yet again the time-worn tale of catastrophic civilizational collapse.

The 21st Century: De-Industrialization

How might we avoid such a fate?

deindustrialisationSurely the dilemmas we have outlined above are understood by the managers of the current industrial food system. They must have some solutions in mind.

Indeed they do, and, predictably perhaps, those solutions involve a further intensification of the food production process. Since we cannot achieve much by applying more energy directly to that process, the most promising strategy on the horizon seems to be the genetic engineering of new crop varieties. If, for example, we could design crops to grow with less water, or in unfavourable climate and soil conditions, we could perhaps find our way out of the current mess.

Unfortunately, there are some flaws with this plan. Our collective experience with genetically modifying crops so far shows that glowing promises of higher yields, or of the reduced need for herbicides, have seldom been fulfilled. At the same time, new genetic technologies carry with them the potential for horrific unintended consequences in the forms of negative impacts on human health and the integrity of ecosystems. We have been gradually modifying plants and animals through selective breeding for millennia, but new gene-splicing techniques enable the re-mixing of genomes in ways and to degrees impossible heretofore. One serious error could result in biological tragedy on an unprecedented scale.

Yet even if future genetically modified commercial crops prove to be much more successful than past ones, and even if we manage to avert a genetic apocalypse, the means of producing and distributing genetically engineered seeds is itself reliant on the very fuel-fed industrial system that is in question.

Is it possible, then, that a solution lies in another direction altogether—perhaps in deliberately de-industrializingdetroitfarm production, but doing so intelligently, using information we have gained from the science of ecology, as well as from traditional and indigenous farming methods, in order to reduce environmental impacts while maintaining total yields at a level high enough to avert widespread famine?

This is not an entirely new idea (as you all well know, the organic and ecological farming movements have been around for decades), but up to this point the managers of the current system have resisted it. This is no doubt largely because those managers are heavily influenced by giant corporations that profit from centralized industrial production for distant markets. Nevertheless, the fact that we have reached the end of the era of cheap oil and gas demands that we re-examine the potential costs and benefits of our current trajectory and its alternatives.

I believe we must and can de-industrialize agriculture. The general outline of what I mean by de-industrialization is simple enough: this would imply a radical reduction of fossil fuel inputs to agriculture, accompanied by an increase in labour inputs and a reduction of transport, with production being devoted primarily to local consumption.

Once again, fossil fuel depletion almost ensures that this will happen. But at the same time, it is fairly obvious that if we don’t plan for de-industrialization, the result could be catastrophic. It’s worth taking a moment to think about how events might unfold if the process occurs without intelligent management, driven simply by oil and gas depletion.

Facing high fuel prices, family farms would declare bankruptcy in record numbers. Older farmers (the majority, in other words) would probably choose simply to retire, whether they could afford to or not. However, giant corporate farms would also confront rising costs—which they would pass along to consumers by way of dramatically higher food prices.

Yields would begin to decline—in fits and starts—as weather anomalies and water shortages affected one crop after another.

Meanwhile, people in the cities would also feel the effects of skyrocketing energy prices. Entire industries would falter, precipitating a general economic collapse. Massive unemployment would lead to unprecedented levels of homelessness and hunger.

Many people would leave cities looking for places to live where they could grow some food. Yet they might find all of the available land already owned by banks or the government. Without experience of farming, even those who succeeded in gaining access to acreage would fail to produce much food and would ruin large tracts of land in the process.

Eventually these problems would sort themselves out; people and social systems would adapt—but probably not before an immense human and environmental tragedy had ensued.

I wish I could say that this forecast is exaggerated for effect. Yet the actual events could be far more violent and disruptive than it is possible to suggest in so short a summary.

Examples and Strategies

cityfarmThings don’t have to turn out that way. As I have already said, I believe that the de-industrialization of agriculture could be carried out in a way that is not catastrophic and that in fact substantially benefits society and the environment in the long run. But to be convinced of the thesis we need more than promises—we need historic examples and proven strategies. Fortunately, we have two of each.

In some respects the most relevant example is that of Cuba’s Special Period. In the early 1990s, with the collapse of the Soviet Union, Cuba lost its source of cheap oil. Its industrialized agricultural system, which was heavily fuel-dependent, immediately faltered. Very quickly, Cuban leaders abandoned the Soviet industrial model of production, changing from a fuel- and petrochemical-intensive farming method to a more localized, labor-intensive, organic mode of production.

How they did this is itself an interesting story. Eco-agronomists at Cuban universities had already been advocating a transition somewhat along these lines. However, they were making little or no headway. When the crisis hit, they were given free rein to, in effect, redesign the entire Cuban food system. Had these academics not had a plan waiting in the wings, the nation’s fate might have been sealed.

cubaHeeding their advice, the Cuban government broke up large, state-owned farms and introduced private farms, farmer co-ops, and farmer markets. Cuban farmers began breeding oxen for animal traction. The Cuban people adopted a mainly vegetarian diet, mostly involuntarily (Meat eating went from twice a day to twice a week). They increased their intake of vegetable sources of protein and farmers decreased the growing of wheat and rice (Green Revolution crops that required too many inputs). Urban gardens (including rooftop gardens) were encouraged, and today they produce 50 to 80 percent of vegetables consumed in cities.

Early on, it was realized that more farmers were needed, and that this would require education. All of the nation’s colleges and universities quickly added courses on agronomy. At the same time, wages for farmers were raised to be at parity with those for engineers and doctors. Many people moved from the cities to the country; in some cases there were incentives, in others the move was forced.

The result was survival. The average Cuban lost 20 pounds of body weight, but in the long run the overall health of the nation’s people actually improved as a consequence. Today, Cuba has a stable, slowly growing economy. There are few if any luxuries, but everyone has enough to eat. Having seen the benefit of smaller-scale organic production, Cuba’s leaders have decided that even if they find another source of cheap oil, they will maintain a commitment to their new, decentralized, low-energy methods.

I don’t want to give the impression that Cubans sailed through the Special Period unscathed. Cuba was a grim place during these years, and to this day food is far from plentiful there by American standards. My point is not that Cuba is some sort of paradise, but simply that matters could have been far worse.

It could be objected that Cuba’s experience holds few lessons for our own nation. Since Cuba has a very different government and climate, we might question whether its experience can be extrapolated to the U.S.

uncle-sam-victory-gardenLet us, then, consider an indigenous historical example. During both World Wars, Americans planted Victory Gardens. During both periods, gardening became a sort of spontaneous popular movement, which (at least during World War II) the USDA initially tried to suppress, believing that it would compromise the industrialization of agriculture. It wasn’t until Eleanor Roosevelt planted a Victory Garden in the White House lawn that agriculture secretary Claude Wickard relented; his agency then began to promote Victory Gardens and to take credit for them. At the height of the movement, Victory Gardens were producing roughly 40 percent of America’s vegetables, an extraordinary achievement in so short a time.

In addition to these historical precedents, we have new techniques developed with the coming agricultural crisis in mind; two of the most significant are Permaculture and Biointensive farming (there are others—such as efforts by Wes Jackson of The Land Institute to breed perennial grain crops—but limitations of time and space require me to pick and choose).

permapicPermaculture was developed in the late 1970s by Australian ecologists Bill Mollison and David Holmgren in anticipation of exactly the problem we see unfolding before us. Holmgren defines Permaculture as “consciously designed landscapes that mimic the patterns and relationships found in nature, while yielding an abundance of food, fiber, and energy for provision of local needs.” Common Permaculture strategies include mulching, rainwater capture using earthworks such as swales, composting, and the harmonious integration of aquaculture, horticulture, and small-scale animal operations. A typical Permaculture farm may produce a small cash crop but concentrates largely on self-sufficiency and soil building. Significantly, Permaculture has played an important role in Cuba’s adaptation to a low-energy food regime.

Biointensive farming has been developed primarily by Californian John Jeavons, author of How to Grow More Vegetables. Like Permaculture, Biointensive is a product of research begun in the 1970s. Jeavons defines Biointensive (now trademarked as “Grow Biointensive”) farming as

. . . an organic agricultural system that focuses on maximum yields from the minimum area of land, while simultaneously improving the soil. The goal of the method is long-term sustainability on a closed-system basis. Because biointensive is practiced on a relatively small scale, it is well suited to anything from personal or family to community gardens, market gardens, or minifarms. It has also been used successfully on small-scale commercial farms.

???????????????????????????????Like Homgren and Mollison, Jeavons has worked for the past three decades in anticipation of the need for the de-industrialization of food production due to accumulating environmental damage and fossil fuel depletion. Currently Biointensive farming is being taught extensively in Africa and South America as a sustainable alternative to the globalized monocropping. The term “biointensive” suggests that what we are discussing here is not a de-intensification of food production, but rather the development of production along entirely different lines. While both Permaculture and Biointensive have been shown to be capable of dramatically improving yields-per-acre, their developers clearly understand that even these methods will eventually fail us unless we also limit demand for food by gradually and humanely limiting the size of the human population.

In short, it is possible in principle for industrial nations like the U.S. to make the transition to smaller-scale, non-petroleum food production, given certain conditions. There are both precedents and models.

However, all of them imply more farmers. Here’s the catch—and here’s where the ancillary benefits kick in.

The Key: More Farmers!

comfarmOne way or another, re-ruralization will be the dominant social trend of the 21st century. Thirty or forty years from now—again, one way or another—we will see a more historically normal ratio of rural to urban population, with the majority once again living in small, farming communities. More food will be produced in cities than is the case today, but cities will be smaller. Millions more people than today will be in the countryside growing food.

They won’t be doing so the way farmers do it today, and perhaps not the way farmers did it in 1900.

Indeed, we need perhaps to redefine the term farmer. We have come to think of a farmer as someone with 500 acres and a big tractor and other expensive machinery. But this is not what farmers looked like a hundred years ago, and it’s not an accurate picture of most current farmers in less-industrialized countries. Nor does it coincide with what will be needed in the coming decades. We should perhaps start thinking of a farmer as someone with 3 to 50 acres, who uses mostly hand labour and twice a year borrows a small tractor that she or he fuels with ethanol or biodiesel produced on-site.

How many more farmers are we talking about? Currently the U.S. has three or four million of them, depending on how we define the term.

Let’s again consider Cuba’s experience: in its transition away from fossil-fueled agriculture, that nation found that it required 15 to 25 percent of its population to become involved in food production. In America in 1900, nearly 40 percent of the population farmed; the current proportion is close to one percent.

Do the math for yourself. Extrapolated to this country’s future requirements, this implies the need for a minimum of 40 to 50 million additional farmers as oil and gas availability declines. How soon will the need arise? Assuming that the peak of global oil production occurs within the next five years, and that North American natural gas is already in decline, we are looking at a transition that must occur over the next 20 to 30 years, and that must begin approximately now.

Fortunately there are some hopeful existing trends to point to. The stereotypical American farmer is a middle-aged, Euro-American male, but the millions of new farmers in our future will have to include a broad mix of people, reflecting America’s increasing diversity. Already the fastest growth in farm operators in America is among female full-time farmers, as well as Hispanic, Asian, and Native American farm operators.

young-farmer-female

Another positive trend worth noting: Here in the Northeast, where the soil is acidic and giant agribusiness has not established as much of a foothold as elsewhere, the number of small farms is increasing. Young adults—not in the millions, but at least in the hundreds—are aspiring to become Permaculture or organic or Biointensive farmers. Farmers markets and CSAs are established or springing up throughout the region. This is somewhat the case also on the Pacific coast, much less so in the Midwest and South.

What will it take to make these tentative trends the predominant ones? Among other things we will need good and helpful policies. The USDA will need to cease supporting and encouraging industrial monocropping for export, and begin supporting smaller farms, rewarding those that make the effort to reduce inputs and to grow for local consumption. In the absence of USDA policy along these lines, we need to pursue state, county, and municipal efforts to support small farms in various ways, through favourable zoning, by purchasing local food for school lunches, and so on.

We will also require land reform. Those millions of new farmers will need access to the soil, and there must be some means for assisting in making land available for this purpose. Conservation land trusts may be useful in this regard, and we might take inspiration from Indian Line Farm, here in the northeast.

Since so few people currently know much about farming, education will be essential. Universities and community colleges have both the opportunity and responsibility to quickly develop programs in small-scale ecological farming methods—programs that also include training in other skills that farmers will need, such as in marketing and formulating business plans.

Since few if any farms are financially successful the first year or even the second or third, loans and grants will also be necessary to help farmers get started.

These new farmers will need higher and stabilized food prices. As difficult as it may be even to imagine this situation now, food rationing may be required at some point in the next two or three decades. That quota system needs to be organized in such a way as to make sure everyone has the bare essentials, and to support the people at the base of the food system—the farmers.

Finally, we need a revitalization of farming communities and farming culture. A century ago, even in the absence of the air and auto transport systems we now take for granted, small towns across this land strove to provide their citizens with lectures, concerts, libraries, and yearly chautauquas. Over the past decades these same towns have seen their best and brightest young people flee first to distant colleges and then to the cities. The folks left behind have done their best to maintain a cultural environment, but in all too many cases that now consists merely of a movie theater and a couple of video rental stores. Farming communities must be interesting, attractive places if we expect people to inhabit them and for children to want to stay there.

If We Do This Well

We have been trained to admire the benefits of intensification and industrialization. But, as I’ve already indicated, we have paid an enormous price for these benefits—a price that includes alienation from nature, loss of community and tradition, and the acceptance of the anonymity and loss of autonomy implied by mass society. In essence, this tradeoff has its origins in the beginnings of urbanization and agriculture.

Could we actually regain much of what we have lost? Yes, perhaps by going back, at least in large part, to horticulture. Recall that the shift from horticulture to agriculture was, as best we can tell, a fateful turning point in cultural history. It represented the beginning of full-time division of labour, hierarchy, and patriarchy.

permaculture_farmBiointensive farming and Permaculture are primarily horticultural rather than agricultural systems. These new, intelligent forms of horticulture could, then, offer an alternative to a new feudalism with a new peasantry. In addition, they emphasize biodiversity, averting many of the environmental impacts of field cropping. They use various strategies to make hand labor as efficient as possible, minimizing toil and drudgery. And they typically slash water requirements for crops grown in arid regions.

We have gotten used to a situation where most farmers rely on non-farm income. As of 2002 only a bit less than 60 percent of farm operators reported that their primary work is on the farm. Only 9 percent of primary operators on farms with one operator, and 10 percent on farms with multiple operators, report all of their income as coming from the farm.

The bad side of this is that it means it’s hard to make a living farming these days. The good side is that we don’t have to think of farming as an exclusive occupation. As people return to small communities and to farming, they could bring with them other interests. Rather than a new peasantry that spends all of its time in drudgery, we could look forward to a new population of producers who maintain interests in the arts and sciences, in history, philosophy, spirituality, and psychology—in short, the whole range of pursuits that make modern urban life interesting and worthwhile.

Moreover, the re-ruralization program I am describing could be a springboard for the rebirth of democracy in this nation. I do not have to tell this audience how, over the past few years, democracy in America has become little more than a slogan. In fact this erosion of our democratic traditions has been going on for some time. As Kirkpatrick Sale showed in his wonderful book Human Scale, as communities grow in size, individuals’ ability to influence public affairs tends to shrink. Sociological research now shows that people who have the ability to influence policy in their communities show a much higher sense of satisfaction with life in general. In short, the re-ruralization of America could represent the fulfilment of Thomas Jefferson’s vision of an agrarian democracy—but without the slaves.

If we do this well, it could mean the revitalization not only of democracy, but of the family and of authentic, place-based culture. It could also serve as the basis for a new, genuine conservatism to replace the ersatz conservatism of the current ruling political elites.

What I am proposing is nothing less than a new alliance among environmental organizations, farmers, gardeners, organizations promoting economic justice, the anti-globalization movement, universities and colleges, local businesses, churches, and other social organizations. Moreover, the efforts of this alliance would have to be coordinated at the national, state, and local level. This is clearly a tall order. However, we are not talking about merely a good idea. This is a survival strategy.

It may seem that I am describing and advocating a reversion to the world of 1800, or even that of 8,000 BC. This is not really the case. We will of course need to relearn much of what our ancestors knew. But we have discovered a great deal about biology, geology, hydrology, and other relevant subjects in recent decades, and we should be applying that knowledge—as Holmgren, Mollison, Jeavons, and others have done—to the project of producing food for ourselves.

whats-wrong-with-our-food-system

Cultural anthropology teaches us that the way people get their food is the most reliable determinant of virtually all other social characteristics. Thus, as we build a different food system we will inevitably be building a new kind of culture, certainly very different from industrial urbanism but probably also from what preceded it. As always before in human history, we will make it up as we go along, in response to necessity and opportunity.

Perhaps these great changes won’t take place until the need is obvious and irresistibly pressing. Maybe gasoline needs to get to $10 a gallon. Perhaps unemployment will have to rise to ten or twenty or forty percent, with families begging for food in the streets, before embattled policy makers begin to reconsider their commitment to industrial agriculture.

But even in that case, as in Cuba, all may depend upon having another option already articulated. Without that, we will be left to the worst possible outcome.

Rather than consigning ourselves to that fate, let us accept the current challenge—the next great energy transition—as an opportunity not to vainly try to preserve business as usual, the American Way of Life that, we are told, is not up for negotiation, but rather to re-imagine human culture from the ground up.

(This lecture drew on certain ideas earlier put forward by Knox, New York farmer Sharon Astyk in her remarks at the 2006 Peak Oil and Community Solutions conference in Yellow Springs, Ohio, and on others that emerged in conversation with Pat Murphy of Community Service and Julian Darley of the Post Carbon Institute.)





Crash on Demand? A Response to David Holmgren

10 01 2014

My recent post on David Holmgren’s long essay regarding his belief we are in for a prolonged “Brown Tech” phase before collapse occurs has been well read according to the stats WordPress give me as part of the service they offer bloggers….  Nicole Foss, whom I had the great pleasure of meeting in late 2012, has just written another great article as a response to David’s work…….  It is well worth the read.

I’m reblogging it here for your convenience, without all the introductory stuff that has already been well covered

Nicole Foss

Nicole Foss

here.  To read it in its entirety, go here.

Nicole’s website is ALWAYS worth a visit, full of fascinating links that will keep you away from doing work in the garden for hours…!

 

In his recent essay, Holmgren says that he had initially been expecting a more rapid contraction in available energy, and with it a substantial fall in greenhouse gas emissions. Instead, new forms of unconventional fossil fuels have been exploited, sustaining supply for the time being, but at the cost of raising emissions, since these fuels are far more carbon intensive to produce. Holmgren understands perfectly well that unconventional fossil fuels are no answer to peak oil, given the terribly low energy profit ratio, but the temporary boost to supply has postponed the rapid contraction he, and others, had initially predicted. In addition, demand has been falling in major consuming countries as a result of the impact of financial crisis on the real economy since 2008, further easing energy supply concerns. For this reason, the Green Tech and Brown Tech scenarios, based on modest energy decline, appear more plausible to him than the Earth Steward and Lifeboat scenarios predicated upon rapid energy supply collapse. However, Green Tech would have required a major renewable energy boom sufficient to revitalize rural economies, and he recognizes that there appears to be no time for that to occur. Nor is there the collective political will to take actions to power-down or reduce emissions.

He concludes that the Brown Tech scenario appears by far the most likely, and is, in fact, already emerging. Rather than geological, biological, energetic or climate limits striking first, he suggests, in line with our view at TAE, that perturbations in the highly complex global financial system are likely to shape the future in the shorter term. As such he has become far more interested in finance, recognizing that the world has been pushed further into overshoot by throwing money at the banks, while transferring risk to the public on a massive scale, which is setting us up for a major financial reset. In combination with the climate chaos Holmgren anticipates that governments will need to assume control, moving from a market to a command economy.


Finance, Energy and Complexity

There is much I agree with here, most notably the primacy of financial collapse as a driver of short term change. The situation we find ourselves in is at such an extreme in terms of comparing the enormous overhang of virtual wealth in the form of IOUs with the actual underlying collateral that the reset could be both rapid and devastating. This could produce a number of cascading impacts on supply chains in a short space of time, as Holmgren acknowledges in citing David Korowicz’s excellent essay on the subject – Trade Off. This is likely to make governments choose to take control, but also likely to make that very difficult, and therefore very unpleasant. In some places control may win out, leading to a Brown Tech type of outcome after the dust has settled, and in others a more chaotic state may dominate, leading to more of a Lifeboat scenario. The difference may not hinge on energy supply alone, although this may well be a significant factor in some places.

It is our view at TAE that for a time energy limits are not likely to manifest, as lack of money will be the limiting factor in a major financial crisis. At the present time, with modestly increasing energy supply, the delusion of far greater increases to come, and falling demand, energy is already ceasing to be a pressing concern. As liquidity dries up, and demand falls much further as a result of both lack of purchasing power and plummeting economic activity, this will be even more the case. The perception of glut lowers prices, and this will hit the energy industry very hard due to its rapidly increasing cost base, and therefore its dependency on high prices. As prices fall and the business case disappears, much of the expensive supply will dry up, including most, if not all, of the unconventional fossil fuels currently touted as the solution.

Prices are likely to fall faster than the cost of production, leaving profit margins fatally squeezed. While money remains the limiting factor, few may worry about the energy future, but the demand collapse will lead to a supply collapse in the future due to lack of investment for a long time, the concurrent decay of existing infrastructure no one can afford to maintain, transport disruption due to a lack of letters of credit, and the impact of intentional damage inflicted by angry people. Financial crisis takes the pressure off temporarily, but a the cost of aggravating the energy shortfall, and the impact of that shortfall, in the longer term.

Producing energy from “low energy profit ratio” energy sources requires a financial system capable of providing copious amounts of affordable capital, and is dependent on the availability of cheap conventional fossil fuels in order to supply the up-front energy necessary for what are highly energy intensive processes. In energy terms, low energy profit ratio energy sources are nothing more than an extension of the current high energy profit ratio conventional fossil fuel era, which is what sustains the current level of socioeconomic complexity. The financial system is one of its most complex manifestations, and therefore one of its most vulnerable.

Once the financial system has the accident that is clearly coming, we will be looking at a substantial fall in societal complexity, but that fall in complexity will eliminate the possibility of engaging in such highly complex activities as fracking, horizontal drilling, exploiting the deep offshore or producing solar photovoltaic panels and inverters. “Low energy profit ratio” energy sources cannot by themselves maintain a level of socioeconomic complexity necessary to produce them, hence they will never be a meaningful energy source.

This is true of both unconventional fossil fuels and renewable power generation. The development of low energy profit ratio energy sources rests largely on Ponzi dynamics, and Ponzi schemes tend to come to an abrupt end.

Once this becomes clear, the gradual fall in supply is likely to morph into a rapid one. As the ability to project power at a distance depends on energy supply, and that may be compromised, perhaps within a decade, maintaining any kind of large scale command economy may not be possible for that long. However, consolidating access to a falling energy supply at the political centre under a command scenario, at the expense of the population at large, may sustain that centre for somewhat longer.

Seen through an energy profit ratio and complexity lens, a Green Tech scenario appears increasingly implausible. Green Tech – the use of technology to capture renewable energy and convert it into a concentrated form capable of doing work – is critically dependent on the fossil fuel economy to build and maintain its infrastructure, and also to maintain the level of socioeconomic complexity necessary for it, and the machinery it is meant to run, to function. A renewable energy distant future is certainly likely, but not a technological one. One can have green or tech, but ultimately not both.


Scale, Hierarchy and ‘Functional Stupidity’:

A substantial point of agreement between Holmgren’s work and ours here at TAE is that the scale Brown Tech would operate on in a constrained future would be national rather than international. There are many who worry about One World Government under a fascist model. This may have been the trajectory we have been on taken to its logical conclusion, but if crisis is indeed proximate, then we are very unlikely to reach this point. We have likened layers of political control to trophic levels in an ecosystem, as all political structures concentrate wealth at the centre at the expense of the periphery which they ‘feed upon’:

The number of levels of predation a natural system can support depends essentially on the amount of energy available at the level of primary production and the amount of energy required to harvest it. More richly endowed areas will be able to support -more- complex food webs with many levels of predation. The ocean has been able to support more levels of predation than the land, as it requires less energy to cover large distances, and primary production has been plentiful. A predator such as the tuna fish is the equivalent, in food chain terms, of a hypothetical land predator that would have eaten primarily lions. On land, ecosystems cannot support that high a level predator, as much more energy is required to harvest less plentiful energy sources.

If one thinks of political structures in similar terms, one can see that the available energy, in many forms, is a key driver of how complex and wide-ranging spheres of political control can become. Ancient imperiums achieved a great deal with energy in the forms of wood, grain and slaves from their respective peripheries. Today, we have achieved a much more all-encompassing degree of global integration thanks to the energy subsidy inherent in fossil fuels. Without this supply of energy (in fact without being able to constantly increase this supply to match population growth), the structures we have built cannot be maintained.

The international level of governance is comparable to a top level predator. When the energy supply at the base of the pyramid is reduced, and the energy required to obtain it increases, as will inevitably be the case in this era of sharply falling energy profit ratios, the system will lose the ability to support as many layers of ‘predation’. We are very likely to lose at least the top level, if not more levels on the way down as energy descent continues. A national level of Brown Tech may last for a while, but as energy descent continues, so will the diminution of the scale and complexity at which society can operate.

Living on an energy income, supplemented with limited storage in the form of grain or firewood or water stored high in the landscape, and also limited ability to physically leverage effort with slavery or the use of draft animals, does not provide the same range of possibilities as living on our energy inheritance has done. Without fossil fuels, the technology of the ancient world (Rome for instance) is probably the most that an imperial degree of energy concentration can provide. Greater concentration is possible when a wide geographical area comes under a single political hegemony and feeds a single political centre at a high level of political organization. Lower levels of political organization (ie during the inter-regnem in between successive imperiums) would provide for less resource concentration and therefore would sustain a lower level of socioeconomic complexity and ‘technology’.

Energy is not the only factor determining effective organizational scale, however. The functionality of the financial system is a major determinant of the integrity of supply chains, and hence social stability. Societal trust is vital, and can be extremely ephemeral. The more disruptive a future of limits to growth, across a range of parameters, the further downward through Holmgren’s nested scenarios we are likely to go.

In building scenarios, I would add rapid versus gradual financial crisis as a separate parameter. Personally, I believe a rapid financial crash combined with an initially slow, but then increasingly rapid fall in energy supply is the most likely scenario. Financial crisis can cause many of the effects Holmgren discusses in his scenario work in relation to energy and climate impacts.





Crash on Demand

6 01 2014

As 2014 opens the window to our uncertain future, David Holmgren, with whom I had the great pleasure of having dinner in Richard Heinberg’s company in 2006 when they toured Australia together, has published a new essay (a 24 page pdf download), which is an update of his Future Scenarios, and which continues to build on “Money Vs. Fossil Fuels”, and expands on money and the economy.  This essay titled “Crash on Demand: Welcome to the Brown Tech Future” is a must read piece……..

energy_descent_scenarios-300x207

Holmgren is seeing the Brown Tech scenario as the one currently in play from the four outlined in Future Scenarios, where the decline of fossil fuels unfolds slowly; “but the severity of global warming symptoms is at the extreme end of current mainstream scientific predictions” says David….  The political system is Corporatist, and emphasis is placed on replacing declining conventional fossil fuels with lower grade fossil fuels, which are both more expensive and also release more GGE (Greenhouse Gas Emissions), exacerbating Climate Change even further.  David’s argument is essentially that radical, but achievable, behaviour change from dependent consumers to responsible self-reliant producers (by some relatively small minority of the global middle class) has a chance of stopping the juggernaut of consumer capitalism from driving the world over the climate change cliff.  It maybe a slim chance, but a better bet than current herculean efforts to get the elites to pull the right policy levers; whether by sweet promises of green tech profits or alternatively threats from mass movements shouting for less consumption.

browntech_logosmlw_bt

In the extensive discussions about money and economy, the influence of systems analyst Nicole Foss (Stoneleigh -The Automatic Earth) and economist Steve Keen (Debt Deflation) are strong and freely acknowledged.  David believes that deflationary economics is the most powerful factor shaping our immediate future.

The basic recommendation (as noted in the quote above) is not much different from what David Holmgren and I have been recommending for 20 years or more…: to engage in a shift away from the Matrix, and toward being a responsible self-reliant producer for your household and community, to shift a significant portion of assets out of the Matrix economy, and move them into building household and community resilience. Such actions not only put you in a more secure position, they also, if engaged by perhaps 10% of the population of affluent countries, might be just what’s needed to shift our economies away from the perpetual growth paradigm we’ve been suffering since at least the end of WWII , and is now only hanging on via an unsustainable debt bubble…….  The collapse of the current bubble economy will be ugly.  However, given that current growth is no longer fuelled by oil but only being made possible by rising debt, we are not doing ourselves (or anybody else) any favours by perpetuating it.  As David has previously pointed out in Future Scenarios:

…without radical behavioural and organizational change that would threaten the foundations of our growth economy, greenhouse gas emissions along with other environmental impacts will not decline. Economic recession is the only proven mechanism for a rapid reduction of greenhouse gas emissions and may now be the only real hope for maintaining the earth in a habitable state.

David makes the case that even though it might be too late for the Green Tech scenario to materialise, it may, just

David Holmgren

David Holmgren

may, still be possible to avoid the worst effects of the Brown Tech scenario (a 4 to 6 degree “Climate Cooker” Lifeboats scenario).

A severe global economic collapse might switch off enough GGE to begin reversing climate change, so that the Earth Steward scenario of bioregional economies based on frugal rural agrarian living, assisted by resources salvaged from the collapsed global economy and the defunct national governments, could possibly emerge in the long term future……..

It’s not a rose coloured future, I grant you…..  The last 10 pages or so, however, I found to be quite invigorating (even in the current heat wave), and opened up some possibilities for positive engagement….  Topics discussed are ‘Nested Scenarios’ (different scenarios co-existing at different scales); Investment and Divestment; Formal and Informal Economies; Alternative and Non-monetary Economies; Labour and Skill Vs Fossil Fuel and Technology; Brown Tech Possibilities; Actors at the Fringe; and Not Financial Terrorists (but Terra-ists with hands in the soil).  There are also tons of great footnotes/links worth following up on……

David is one of the few people around with his head screwed on properly, and like much of the rest of his writings, this is essential reading for those of us trying to make sense of whatever long term future we may have to face, or how we can best make a positive difference.

Today though, I learned a new word….:  exhaustipated.  Too tired to give a shit!  Maybe tomorrow when it’s supposed to cool down and rain……  Enjoy the read, I did….