Norman Pagett : Cheap Food, Our Grand Illusion

It takes oil, and lots of it, to move our food. Image from Center for a Liveable Future.

Cheap food, our grand illusion

We built an industrial civilization on cheap oil, but now we’ve burned it all. We only have the expensive stuff left but we continue to burn that, believing our system of cheap living can go on forever.

By Norman Pagett / The Rag Blog / July 26, 2013

We are faced with a barrage of bad news about the imminent, and inevitable, rises in the cost of basic foodstuffs. Professor Tim Benton, head of Global Food Security working group, has warned that "meat could become a luxury by 2040, because emerging middle classes in South Asia and going to affect food flows".

In everyday language, "food flow" is the nice way of saying those who can afford meat and luxury foods will buy them, while those who can’t will go without.

As Professor Benton makes brutally clear, "food is going to be competed for on a global scale and there is going to be a doubling and trebling in price of everything we need to survive."

Tesco boss Philip Clarke backed up his statements: "The end of cheap food is over because of the surge in demand. Over the long run I think food prices and the proportion of income spent on food will be going up".

Remember that bit -- the proportion of income. It’s going to be critical to your way of life.

Two years ago Oxfam issued the same clear warning: Food prices are set to double by 2030 as the population grows from its current 7 billion to eight then 9 billion. There will be a perfect storm of ecological and sociological factors.

Again, we need clarification of polite-speak: what that really means is that people will not starve to death quietly, they will fight to survive. And that is going to get nasty.

Right now, we can feed ourselves (as an average) by spending only about 10% of our income. Until the 1950s that proportion was nearer 50%

That represents our current unreality of cheap food. We have become used to spending the other 90% on housing, heat, light, clothes, and luxuries. Not only that, but our entire economic system exists on the assumption that we will be able to go on spending it, forever.

We have created an illusion of "employment."

Stop and consider that: we are all spending (spare) money to keep ourselves employed. As we come to spend more on food, there will be less to spend on other "stuff."

More clarification here: we will have to use what money we have to buy the food energy necessary to stay alive. Because our economy depends on constant spending, that shortfall is going to increase unemployment. This will be a major consequence of food price rises that must never be mentioned.

Our cheap food has been a direct product of cheap energy. At every point in our food chain we feed oil into the system: diesel in tractors, nitrate fertilizers (natural gas) on the fields to increase yields, processing and packaging, transport, the fuel in your car to go and collect it. We burn 10 calories of energy for every food calorie put on your plate.

That is why cheap food is unsustainable and why promises of "growth" by governments and economists are nonsense. The gentle warnings offered by Oxfam don’t even touch on the reality of our future because doubling and trebling of food prices won’t be matched by doubling and trebling of income.

Our book, The End of More, shows how cheap oil gave money its illusion of value. That value holds only so long as we keep finding more {cheap} oil to top up our economic system.

We built an industrial civilization on cheap oil, but now we’ve burned it all. We only have the expensive stuff left but we continue to burn that, believing our system of cheap living can go on forever.

The forecasts of those at the sharp end of food delivery may yet turn out to be optimistic.

This article was published at The End of More and was cross-posted to The Rag Blog.

[Norman Pagett is a UK-based professional technical writer and communicator, working in the engineering, building, transport, environmental, health, and food industries. He blogs at The End of More. Find more articles by Norman Pagett on The Rag Blog.]

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Norman Pagett and Josephine Smit : Grain of Truth

Image from UCL.

Grain of truth:
Our precarious food supply

Global food production has been allowed to fall into the hands of fewer and fewer megacorporations, and their aims are simple: to deliver short-term profits and ultimately to control the entire system of world supply.

By Norman Pagett and Josephine Smit / End of More / May 16, 2013

“A hungry world is a dangerous world. Without food, people have only three options: they riot, they emigrate or they die.” -- Josette Sheeran, World Food Programme

We owe our lives to technology that uses 10 calories of energy in the process of growing food to produce a single calorie of energy in the food we eat.

On average, we need to consume about 2,500 calories a day, so each of us has to find 10 times that amount of energy in order to stay alive. Our existence rests on that fundamental equation. Looked at it in cold print, this might seem irrelevant to our day-to-day lives but it means that global agricultural production and food supply systems are consuming 10 times more energy than they deliver as food.

Few of us ever stop to consider the embodied energy in what we eat. Why would we? Calories have become purely the currency of dietary fads, something to be limited in our constant battle with obesity. We have been well fed for so long that we imagine that supermarket shelves will always be amply stocked to support our affluent comfort. Until now, in the developed world at least, the food production, distribution and supply infrastructure has been able to obtain all the energy it needs, and in ever increasing amounts.

We are far more prosperous than the third world countries that are constantly being brought to the brink of food deprivation or outright starvation. Yet we are only marginally safer. We have a blind faith in our supply systems and expect our food stores to have everything we might want to buy available fresh every day. Remove the certainty of our seven-day-a-week food supplies and supermarkets would be stripped bare within hours.

Our food supply is extremely precarious; it takes very little disturbance to disrupt it severely. During an oil delivery tanker drivers’ strike in the UK in 2001, the government was given the stark warning by a consortium of major retailers that the food chain delivery system carried only three days’ supply. This information was not released to the public at the time.

The fuel supply emergency lasted only a week, but if it had gone on for longer rapidly emptying supermarket shelves would have provided the impetus for food hoarding and panic. This is what happens when there is a temporary break in just one link in the energy chain that supports our highly complex food supply system.

Reduced to its raw essentials, the embodied energy in food represents all the mechanical input of our farming system: the tractors, the fishing boats, and the trucks. It includes the water transported from Portugal disguised as melons, and that air-freighted from Kenya disguised as green beans -- 4 litres of water are needed to grow a single bean stem.

It covers the diesel in the trucks that deliver loads to your supermarket several times a day, fresh and just in time, and it includes the gasoline in your car when you go to collect your weekly groceries. The cumulative energy intrinsic to so many food processes -- growing, packaging, distribution and delivery -- is so cheap in historic terms that most of us could buy sufficient basic food for a week for what we earn in an hour or two, and in many cases far less than that.

Over 50 years, our average food expenditure has dropped from half of our income to around 10% but that is a purchasing total, not the cost of what might be described as essentials. Our food is so cheap that we can afford to buy far in excess of what our bodies need for survival and throw large quantities of it away -- at least a third of the food we buy is wasted.

Cheap food is an illusion; it is put there by energy sources that we have come to regard as inexhaustible. Our collective genius at devising new ways of producing food, faster and in the name of greater efficiency and productivity, has worked so well that we see it as normal. Greater abundance of food has allowed more people to survive, and dramatically increased global population.

It has been estimated that the number of people now alive is more than the entire number of human beings who have ever lived. Some 90% of those people are only here because of our ingenuity at delivering food with that 10:1 calorie factor built into it, together with all the other benefits of cheap fossil fuel energy.

As fossil fuel energy declines, renewable sources will not be able to maintain our complex, energy-intensive food systems in their present form. As a result, we will not be able to feed our present numbers. Our food production level will return to roughly what it was 500 years ago, when one calorie had to be put in as manual labour or animal manure to produce one calorie to eat. By that reckoning, our food supply system will only support one-tenth of us. To put it bluntly, at least 6 billion people won’t have a future.

The energy that goes into making our food is taken from the ground in some form of fossil fuel, and there is no substitute for it. It is not possible to make nitrate fertilizer or a tractor tire from the energy output of a wind turbine or a photovoltaic panel because these agricultural essentials depend on a high volume input of hydrocarbons.

We are pressing ahead with the large-scale manufacture of biofuel because we have convinced ourselves it is a viable alternative, predominantly to liquid hydrocarbon fuel. But a growing consensus of scientific opinion, backed by extensive research, has demonstrated that biofuel is not a practical solution.

It requires vast quantities of land, which we also need for foods, and consumes more energy in production than is obtained by its use. It is at best only marginally better than 1:1. Putting biofuel into a tractor to cultivate crops to make yet more biofuel would only be done by the kind of farmer who was a regular guest at the Mad Hatter’s tea party, unless of course he was being subsidized at the taxpayer’s expense.

This is the logic of what has come to be known as agribusiness. Agribusiness now dominates farming, although its originators have little in common with the land; they in fact began as giant chemical companies. These chemical companies had the resources to initiate development and analysis of fundamental crop science, so that plants could be engineered to suit exact conditions and resist specific pests while at the same time remaining under the patented control of their producers.

The science of agriculture and food production changed forever around the turn of the millennium when the United States Supreme Court judged that a patent could be granted on bioengineered seed. While dairy products, fruit and vegetables may still be wrapped in packaging bearing images of the rosy-cheeked farmer, food production is now an industrial process and inherited farming skills are rapidly being lost.

“Today so few people farm that vital knowledge of how to farm is disappearing." -- Richard Heinberg, "Fifty Million Farmers," 26th annual EF Schumacher lecture, 2006

Big business, in the form of supermarkets and agribusiness, is squeezing out the small farmers on the grounds that their methods are "inefficient" and is pushing down the price of produce to such an extent that local operators are struggling to make a living or are being displaced altogether. Agribusiness supplies supermarkets with consistent product on a massive scale and at a rock-bottom price. The small farmer struggles just to stay in business.

The principles of large-scale industrialized farming, now epitomized by the U.S. mega-farm, are being exported to Europe and elsewhere across the globe. The spread of agribusiness is stripping the world of its family farmers, those who possess skills handed down through generations in tending small parcels of land sustainably.

Today the typical farmer in both the UK and U.S. is likely to be over the age of 55, and UK farmers are leaving the industry at a rate of around a dozen a week. These trends are being repeated across the developed world. In developing countries small farmers are abandoning rural life to take their chances in the city because they can no longer make their living from the land.

This shift is of critical importance because the very infrastructure of farming is being destroyed. The inherited link between mankind and the land that supports him is being broken. Once gone, that link cannot be easily reestablished. Farming knowledge is an instinct passed down through generations; it is not something that can be learned from books.

The Caribbean’s lush islands were once key food producers with Jamaica providing up to 500,000 pounds of rice a year, until agriculture decreased in favour of a more lucrative income from tourism through the latter half of the twentieth century. The prosperity brought by tourism in turn supported increased population numbers, with visitors’ dollars buying rice from Guyana and the U.S. When the prices of basic foodstuffs soared around the world in 2008, the islands found their annual rice bill had risen to $3 billion.

Now they are seeking to revive lost farming skills but have had to turn to other countries for help, with Jamaica asking Guyana to help reestablish rice production. It is not redeveloping the techniques of its own small farmers, and has instead turned to foreign mega-farming operations, welcoming them with open arms and, according to local news reports, preferential treatment.

In microcosm, Jamaica serves as a warning to all of us. We have freely chosen to abandon our understanding of how food is produced, preferring more comfortable jobs that offer transient wealth but no long-term sustenance.

Global food production has been allowed to fall into the hands of fewer and fewer megacorporations, and their aims are simple: to deliver short-term profits and ultimately to control the entire system of world supply.

“The twenty first century is going to have to produce a new diet for people, more sustainably, and in a way that feeds more people more equitably using less land.” -- Tim Lang, Professor of Food Policy, City University, London, 2008

Biofuel production, now inextricably linked with that of food, has given the megacorporations even greater power over our lives. These megacorporations are feeding on government subsidies paid by the taxpayer and given by politicians on the vague promise that in the long term biofuel will become economic to produce, and will replace the conventional oil we need to provide our food by current farming methods.

Food security is of little concern to those involved in agribusiness. U.S. giant Cargill delivered a 68% increase in earnings over just three months in 2010, on the back of "crop market volatility," ie, rising prices on the global market. Cargill is a very successful company and its financial performance was good news for the company’s stockholders. But over the same period of time in Mozambique, people at the bottom of the food chain were rioting at the 30% increase in the price of a loaf of bread.

Agribusiness exists to convert the fertility of the land into profit with maximum efficiency. The industry functions on the widely accepted, successful, and profitable laws of business. That may mean forcing food producers into a state of dependence on crops that must be treated with specific weedkiller and grown by increasing applications of fertilizer. Seeds, weedkillers, and fertilizers may have to be obtained from specific sources that further contribute to the profit margins of agribusiness.

In the third world basic farming economies have been devastated by agribusinesses dumping subsidised grain crops on the market at prices below that which indigenous farmers could compete. Their actions effectively forced farmers off the land, leaving the way clear for them to buy vast acreages from governments in order to make still more money from the twin essentials of food and oil.

Highly industrialized farming is stripping the soil of its underlying fertility and water reserves. Food products are ultimately shipped to those countries with the ability to pay the going rate for them.

If we think about these practices we may feel uncomfortable about the methods, but in our immediate short term, agribusiness is delivering what we need: cheap, varied foods of consistent quality.

Food has become currency, not only through the activities of agribusiness but more literally with the rise in prominence and influence of the food speculator. In 2000 the U.S. government changed the business of commodities trading with the introduction of the Commodity Futures Modernization Act. This paved the way for financial institutions that were in no way connected with the business of agriculture to trade in food-based commodities.

Effectively it gave investors the power to manipulate markets, by buying up foodstuffs, exacerbating shortages and as a result inflating prices. As returns from traditional investments have dwindled because of the global economic downturn, putting money into staples like food has appeared a safe and attractive investment. Investors are essentially profiteering at the expense of human hunger, an unacceptable trade that is provoking world-wide food riots as well as global demands for constraints on this kind of speculation.

In the hands of unscrupulous people, food is becoming a means of control. Profits and financial results are now the goals; starvation does not appear on balance sheets.

The rapid transfer of food and energy into the combined asset of money is resulting in supply pressures that are already climbing the ladder of prosperity and will inevitably exacerbate over time. Today it is the world’s poor who are affected, but each successive stratum of society will find itself subject to food stress as the one below falls under the hammer blows of outright starvation.

We can measure poverty or prosperity by the proportion of income that has to be used to obtain what we need for subsistence. Our perceived income, derived from raw energy itself, will buy less and less as even the developed societies of the west have to use a greater proportion of income to obtain the means to eat. We will be subject to the same shortages that drove the underclasses of Mexico City, Lagos, Cairo, or Jakarta to riot in 2008.

Those shortages will take a little longer to reach the food markets of the developed West, but already the poorest are depending on financial support to eat. In the U.S., one in eight citizens relies on the government’s supplemental nutrition assistance program, the politically correct term for food aid, and that number is rising every month. In the UK and most other countries in the EU there is a growing network of food banks to provide people with an essential supplement to state support.

“Part of the reason for the fall in stock levels was simply that global use of grains and oilseeds had overtaken production – a factor that has continued to hold for seven of the eight years since 2000” -- Chatham House, "Feeding the Nine Billion," 2009

There have always been hungry people in the world, although there has in fact been sufficient food to "feed" everyone. But increases in global population, pressures from developing nations for more varied diets, and the destruction of crops through environmental disasters are producing new tensions, and desperate steps to try to ensure security of supply.

The food production shortfall and resulting price spike in 2008 caused 29 countries to ban or restrict exports of staple foods. They had no option but to hoard what they had; there was no concern whatsoever for the condition of those who had not.

Saudi Arabia is now growing a high proportion of its food in Ethiopia using Nile water, while Ethiopia itself has to seek food aid from other regions of the world to feed its own starving people. In Indonesia, palm oil plantations suck water out of what was rainforest so that developed societies can cling on to vain hopes of maintaining a lifestyle of infinite plenty at the expense of others less fortunate. In Brazil, indigenous people are displaced en masse as the rainforest is cleared to make way for cash and energy producing crops.

“Although we believe agriculture has enabled us to lead lives of wealth, health and great longevity, it has in fact been detrimental to the human species.” -- Jared Diamond, Guns, Germs and Steel

As with all species, our strength is drawn from the nourishment we absorb, and our survival depends on continued access to food. Although present levels of production cannot be maintained, let alone increased, we will continue to believe that this is somehow possible and that continual progress and growth form part of our ultimate destiny.

When we finally recognize that commerce and our own communal greed have destroyed our means of survival, we will have no option but to fight for what’s left, using every weapon at our disposal in order to gain advantage for our country, our tribe and ultimately for ourselves.

[Norman Pagett is a UK-based professional technical writer and communicator, working in the engineering, building, transport, environmental, health, and food industries. Josephine Smit is a UK-based journalist specializing in architecture and environmental issues and policy who has freelanced for British newspapers including the Sunday Times.Together they edit and write The End of More.]

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Norman Pagett and Josephine Smit : Can We 'Downsize' and Survive?

Sewers under construction, north bank of the Thames looking west. Image from End of More.

The end of more:
Can we 'downsize' and survive?

We continue to delude ourselves that 'downsizing' will somehow allow us to carry on with our current lifestyle with perhaps only minor inconveniences.

By Norman Pagett and Josephine Smit / The End of More / April 25, 2013

"Healthy citizens are the greatest asset any country can have.” -- Winston Churchill

LONDON -- Faced with inevitable decline in our access to hydrocarbon resources, we read of numerous ways in which we will have to downsize, use less, work less, grow our own food, use goods and services close to home, consume only what we can manufacture within our own personal environment, or within walking distance.

If we are to survive, we must "live local" because the means to exist in any other context is likely to become very difficult. There is rarely, if ever, any mention of the healthcare we currently enjoy, which has given us a reasonably fit and healthy 80-year average lifespan.

There seems to be a strange expectation that we will remain as healthy as we are now, or become even healthier still through a less stressful lifestyle of bucolic bliss, tending our vegetable gardens and chicken coops, irrespective of any other problems we face.

And while "downsizing" -- a somewhat bizarre concept in itself -- might affect every other aspect of our lives, it will not apply to doctors, medical staff, hospitals and the vast power-hungry pharmaceutical factories and supply chains that give them round the clock backup.

Nor does downsizing appear to apply to the other emergency services we can call on if our home is on fire or those of criminal intent wish to relieve us of what is rightfully ours. Alternative lifestylers seem to have blanked out the detail that fire engines, ambulances and police cars need fuel, and the people who man them need to get paid, fed, and moved around quickly.

In other words "we" can reduce our imprint on the environment, as long as those who support our way of life do not. Humanity, at least our "Western" developed segment of it, is enjoying a phase of good health and longevity that is an anomaly in historical terms. There is a refusal to recognize that our health and well-being will only last as long as we have cheap hydrocarbon energy available to support it.

Only 150 years ago average life expectancy was around 40 years and medical care was primitive, basic, and dangerous. Children had only a 50/50 chance of reaching their fifth birthday. Death was accepted as unfortunate and inevitable, but big families ultimately allowed survival of a few offspring to maturity, which gave some insurance against the inevitable privations of old age.

The causes of disease, many of which we know to be the result of the filth and chaos of crowded living, contaminated water. and sewage, were merely guessed at. The overpowering smell of this waste was generally accepted as a cause of a great deal of otherwise unexplained sickness.

Even the ancient Romans built their sewers to contain the smells they considered dangerous; getting rid of sewage was a bonus. Malaria literally meant "bad air," and the name of the disease has stayed with us even though we now know its true cause.


Prevailing winds

As cities developed, particularly in Europe, the more prosperous quarters were, and still are, built in the south and west, to take advantage of the general prevailing winds blowing the smells of the city eastwards. Thus the east side of many cities had to endure the industrialization that created the prosperity of the western suburbs.

In many respects the populations of European cities of the eighteenth and nineteenth centuries reflected the problems of our own times: they were growing faster than any means could be found to sustain them. Cities were seen as sources of wealth and prosperity, so people crowded together in them, but in so doing they created the seedbeds for the diseases that were making the cities ultimately untenable.

To quote from Samuel Pepys’ Diary:

This morning one came to me to advise with me where to make me a window into my cellar in lieu of one that Sir W Batten had stopped up; and going down into my cellar to look, I put my foot into a great heap of turds, by which I find that My Turner’s house of office is full and comes into my cellar, which doth trouble me. October 20th 1660; …

People were being debilitated and killed by the toxicity of their own wastes and that of the animals used for muscle power and food. By 1810 the million inhabitants of London (by then the biggest city in the world) used 200,000 cesspits; their contents could only be cleared out manually and so were usually neglected. Waste simply accumulated because no authority took final responsibility for doing anything about it, and any laws on the matter were widely flouted.

By the 1840s, water closets were coming into general use in more affluent homes through the availability of pumped water. While these were seen as an improvement on the chamber pots of previous eras, the water closets resulted in greater quantities of water flowing into the cesspits.

This water in turn overflowed into street drains that had only been created to take rainwater into ditches and tributaries of the River Thames. Improvements in personal hygiene, allowing the upper classes to "flush and forget," had unwittingly created an even bigger danger to public health for everyone else.

Cities and towns were expanding under the pressure of industrialization, but by continuing to use a pre-industrial infrastructure of waste disposal they were being constantly hit by outbreaks of diseases that swept through huddled tenements and luxury homes alike.

Draw off points for public drinking water were often carelessly close to sewage discharges, or the water came from town wells that were contaminated by overflowing cesspits. Cholera and typhoid fever became the scourge of Victorian London.

The Thames as it ran through the city became an open sewer, as tidal flows washed effluent back and forth twice a day. It was a problem that grew throughout the early part of the nineteenth century, culminating in the unusually hot summer of 1858 when bacteria thriving in the fetid water created what became known as the "great stink."

Even the business of government itself was overcome, and plans were made to evacuate parliament to Oxford or St Albans, such was the overpowering stench of the river. Even curtains soaked in chloride of lime could not counteract the smell of raw sewage coming up from the Thames outside, but at least it focused minds and money on the problem.

Numerous proposals were made to deal with it, but only Joseph Bazalgette, chief engineer of the London Metropolitan Board of Works, came up with a workable solution. This was a truly stupendous undertaking that involved building 82 miles of intercepting sewers on the north and south banks of the Thames serving 450 miles of main sewers, linking to 13,000 miles of minor street drains. The completed system could deal with a daily waste output of half a million gallons of sewage.

The sewers were designed to take the raw effluent out to the coast to the north and south of London by gravity, terminating in giant pumping stations driven by Cornish beam engines each needing 5,000 tons of coal a year to keep them running. They lifted the sewage into giant reservoirs that discharged it out to sea on ebb tides. No attempt was made to treat the sewage, merely to get rid of it.

To build those sewers required 315 million bricks, and almost a million tons of mortar and cement. You can’t make bricks and mortar without heat, and lots of it. The only source of heat on that scale was coal, which could only be got in quantity by deep mining. With the heat energy from coal, Victorian engineers could manufacture top quality bricks by the million in enormous new kilns, rather than on the relatively small scale previously allowed by using wood as a heat source.

London embankment sewer brickwork under construction. Image from End of More.

A marvel of Victorian engineering

The entire scheme was completed between 1856 and 1870 and was a marvel of Victorian engineering, but it was only made feasible by fossil fuel energy. Coal from deep mines had only become widely available in the late 1700s, when the invention of the viable steam engine allowed miners to pump out flood water from deep shafts (the same type of steam engines that pumped the sewage to the sea).

Bazalgette’s enterprise was the biggest undertaking of civil works in the world at that time, and from firing the bricks to discharging waste into the open sea it depended entirely on the availability of cheap energy from coal. Even the delivery of the bricks and materials into the heart of the city could only have been done by the recently constructed steam powered railways.

The sewer system is out of sight and largely out of mind but remains a stark example of how we need continual energy inputs at the most basic level to sustain our health. The same sewers still keep London healthy today, and they discharge a hundred times the volume anticipated by Bazalgette’s original design.

It was ironic that burning cheap coal would save thousands of lives in the capital city by providing the means to build its sewers, while simultaneously causing thousands of deaths over the following century by poisoning its air until the introduction of the clean air act in 1956.

Every developed town and city across the world now safeguards the health of its citizens in the same way, by pumping away wastes to a safe distance before treatment. But to do it there must be constant availability of hydrocarbon energy. Electricity will enable you to pump water and sewage but it cannot provide all the infrastructure needed to build or maintain a fresh water or waste treatment plant; for that you need oil, coal, and gas.

Modern domestic plumbing systems are now made largely of plastic, which is manufactured exclusively from oil feedstock, while concrete main sewer pipes are produced using processes that are equally energy intensive. The safe discharge of human waste and the input of fresh water have been critical to health and prosperity across the developed world, yet we continue to delude ourselves that "downsizing" will somehow allow us to carry on with our current lifestyle with perhaps only minor inconveniences.

But we are even more deluded when it comes to the medical profession and all of the advanced treatments and technologies it can provide to keep us in good health for ever longer lifespans and make our lives as pain-free as possible. We have a blind faith that we can continue to benefit from a highly complex, energy-intensive healthcare system, irrespective of what happens to our energy supplies.

We read of the conditions endured by our not-so-distant forebears, and recoil in horror at the prevalence of the dirt and diseases they had to accept as part of their lives. We should perhaps stop to consider that they did not have the means to make it otherwise. In the absence of any real medical help, people who could afford them carried a pomander, a small container of scented herbs held to the nose as some kind of protection against disease and the worst of the city odours.

We think of ourselves as somehow different, but our modern health system will survive only as long as the modern day pomander of our hydrocarbon shield is there to protect it.

The last century saw massive advances in healthcare, driven by both fossil fuel and world war. The new technology and energy sources available at the start of the First World War allowed killing on an industrial scale but it also drove innovation and industrialization of medical care. The war saw the development of the triage system of prioritizing treatment for the wounded, and new means of transporting patients away from the dangers of the battlefield quickly.

In 1914 Marie Curie adapted her X-ray equipment into mobile units, specifically designed to be used in battlefield conditions. At the same time, disease was being contained with the help of mobile laboratories, tetanus antitoxin, and vaccination against typhoid. All this was no defence against the virus of the so called Spanish flu, which broke out and spread among troops and civilians alike, killing more people than the previous four years of conflict in a pandemic that ran from 1918 till 1920.

The war had killed 37 million people, and estimates put the total number of fatalities of the flu epidemic at up to another 50 million, but even those enormous numbers show as barely a blip when we look back on the inexorable rise in population in the last century.


Laying a foundation for modern medical care

The skills that had been employed to create the sewage disposal and fresh water pumping works of the nineteenth century now provided the foundations for making medical care and childbirth cleaner and safer in the twentieth.

But every innovation demanded energy input. Even the production of chlorine based bleach, which kills the bacteria of tetanus, cholera, typhus, carbuncle, hepatitis, enterovirus, streptococcus, and staphylococcus, and which we now take for granted, would not have been be possible without the industrial backup to manufacture and distribute it.

Incorrectly handled, chlorine will kill almost anything, including us. Progress in healthcare might have appeared slow to those involved, but in historical terms it began to move rapidly. Fossil fuel energy provided a cleaner environment for humanity to breed, and we began to make up the numbers lost between 1914 and 1920.

While human ingenuity was critical to such rapid progress, none of it would have been possible without the driving force of oil, coal, and gas. Our collective health today still hangs by that thread of hydrocarbon.

As the industrial power of nations forced technology ahead at an ever increasing pace after World War One, the underlying energy driving our factory production systems increased general prosperity, and that in turn financed research into unknown areas of disease.

Alexander Fleming, professor of bacteriology at St Mary’s Hospital in London first identified Penicillium mould in a petri dish in his laboratory in 1928, and began to recognize its potential for preventing post-surgical wound infections. But its full potential was not brought into play until World War Two, just over a decade later.

The drug had been created on the laboratory bench, but it needed the power of energy-driven industry to make it available in quantity. Constraints in Britain’s wartime manufacturing capacity meant that production had to be carried out in the U.S., and even there it proved difficult to refine the process to produce penicillin on an industrial scale.

John L Smith, who was to become president and chairman of Pfizer and who worked on the deep-tank fermentation process that provided a successful solution to large scale production, said of penicillin:

The mold is as temperamental as an opera singer, the yields are low, the isolation is difficult, the extraction is murder, the purification invites disaster, and the assay is unsatisfactory.

Even with the power of American industry behind it, penicillin only became available for limited use on war wounds by 1944/5, and was not made available for general use until after the war.

For little more than a century developments in safe drinking water supply, sanitation, and medical science have allowed us progressively to tackle many once-fatal diseases and illnesses. We minimized the risk of infection and created vaccines, cures, or life-prolonging treatments for everything from measles to cancers.

Western affluence and medical technologies support lives that would not otherwise be viable, for those who are born prematurely or who suffer serious injury, disability or illness. Medical treatment now incorporates preventative measures to extend lives and keep people in "perfect" health for as long as possible. As a result, average life expectancy across the global population has grown from just under 50 years in the 1950s to 67 years today.

So-called "miracle" drugs gave man a sense of omnipotence that tipped into hubris when, in 1969, U.S. Surgeon General William Stewart, was reported to have said it was time to “close the book on infectious disease.”


Fighting a losing battle

But we have not closed that book, nor are we likely to. Sir Alexander Fleming forecast that bacteria killed by his new wonder drug would eventually mutate a resistance to it. Within decades the effectiveness of antibiotics in tackling staphylococcus aureus bacteria was diminishing and the methicilin-resistant staphylococcus aureus, or MRSA "superbug," was taking hold.

It is easy to forget that before the development of the antibiotic the medical profession could provide no effective cure for infections such as pneumonia, and a slight scratch from a rose thorn bush could be enough to cause death from blood poisoning.

We are fighting a losing battle against nature; bacteria will always win the war of numbers. No matter what medication we add to our arsenal, bacteria will always mutate to resist it. Since the emergence of MRSA, hospitals have had to deal with constantly mutating new strains, each one more virulent than the last, testing our ingenuity in dealing with them, and killing patients we thought could be protected from such infection.

In some regions of the world the malaria parasite is becoming resistant to the anti-malarial drug artemisinin, while drug-resistant tuberculosis has been reported in 77 countries, according to research by the U.S. Centers for Disease Control and Prevention.

In our arrogance we have failed to take account of nature’s resilience, and have also neglected to consider human nature and our instinct to put self-interest above the common good, even if contagion is spread in the process. The behavior of the human race is less easily controlled than bacteria in a petri dish.

In less developed parts of the world, notably Africa, HIV/Aids and other infectious diseases continue to claim nearly 10 million lives a year. Global political directives and programmes to prevent and tackle disease are commonly falling short of their objectives for a variety of reasons, including localised corruption, lack of financial support from the wealthy West and misinformation propagated through local superstition or by religious groups.


Tending to the rich

In spite of the good intentions of global leaders, there continues to be a huge disparity between the health risks and care of rich and poor within cities, nations,and regions of the world. The U.S. has more than a third of the world’s health workers, tending the diseases of the affluent: heart disease, stroke, and cancer.

Many of the consuming world’s ills are being caused by people’s excesses, eating too much of the wrong foods, drinking too much alcohol, smoking, or sunbathing. A billion of the world’s people are overweight, a figure that is balanced in the cruelest of ironies by the billion who cannot find enough to eat.

At the same time, the poor of the world often lack access to medical facilities, doctors, and drugs, and also to the basics of safe drinking water, sanitation, and waste disposal. It is estimated that almost half of the developing world’s population live without sanitation, and as increasing numbers of people are living in overcrowded, urban conditions the potential for transmission of infectious disease grows.

The consuming nations had the geological good fortune to be sitting on resources -- coal and iron -- that could be used to build water and waste disposal systems, but others have been far less fortunate. We now see megacities like Lagos and others with populations of 10 million or more with little or no water or sewage infrastructure, in tropical heat.

For them, the energy to build a modern health infrastructure is a dream that will never materialize: there is too little energy left and it has all become too expensive.

It is also becoming too expensive for the consuming countries of the west, as can be seen in the government cuts in health service budgets now taking place. We have developed extremely successful and innovative medical technologies, a pill for every ill and a physical infrastructure of surgeries, clinics and hospital buildings: all are highly sophisticated luxuries that we can no longer afford and consume vast amounts of energy.

The U.S. Environmental Protection Agency estimates that hospitals use twice as much energy per square foot as a comparable office block, to keep the lights, heating, ventilation, and air conditioning on 24/7 and run an array of equipment from refrigerators to MRI scanners.

But don’t take our word for it. Dan Bednarz, PhD, health-care consultant and editor of the Health after Oil blog, presented his view of the future at a nurses’ conference in Pennsylvania, USA:

Fossil fuel costs will continue to rise and eventually the healthcare system will be forced to downsize -- just as the baby boomers and (possibly) climate change effects inundate the system.

Without energy input our hospitals and medical systems cannot be maintained at their present levels, and concepts of health and care become very different.

We are already seeing a resurgence of alternative medical therapies, often using herbs similar to those in the historic pomander. This foreshadows what will happen in your post-industrial future as well-fed health and wellbeing give way to weakness and disease, accentuated by poor nutrition, and the energy-driven skills of modern medicine are no longer readily available.

A doctor might have a knowledge of what ails you, but that might be almost his only advantage over his medieval counterpart. Knowing that you need an antibiotic to stop a raging infection will be of little use if there’s no means of getting hold of it.

Just contemplate the "innovative" methods of the surgeons in northern Italy’s medieval universities in the 1400s:

"They washed the wound with wine, scrupulously removing every foreign particle; then they brought the edges together, not allowing wine nor anything to remain within -- dry adhesive surfaces were their desire. Nature, they said, produce the means of union in a viscous exudation, or natural as it was afterwards called by Paracelsus, Pare, and Wurtz. in older wounds they did their best to obtain union by desiccation, and refreshing of the edges. Upon the outer surface they laid only lint steeped in wine.” -- Sir Clifford Allbutt, regius professor of physic, University of Cambridge

The modern health system has replaced our need to take responsibility for our own bodies. It cannot give us immortality, but it has given us the next best thing: long, safe, and comfortable lives. We built our good health on hydrocarbon energy, but in the future a wealth of factors will make it progressively more difficult for us to exert control over disease as that energy source slips from our grasp.

Disease will become more prevalent, not only in localized outbreaks, but at epidemic and even pandemic levels. Your healthcare system cannot downsize, it’s either there or it isn’t.

[Norman Pagett is a UK-based professional technical writer and communicator, working in the engineering, building, transport, environmental, health, and food industries. Josephine Smit is a UK-based journalist specializing in architecture and environmental issues and policy who has freelanced for British newspapers including the Sunday Times.Together they edit and write The End of More.]

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