The fertilizer of the future?

Posted on March 12, 2011 by Christophe Pelletier

Among the many challenges that the agriculture of the future faces, soil fertility ranks high on the list of priorities.

Originally, most farms were mixed. They had land to grow crops and they had animals for milk, eggs and meat. Markets were mostly local, and food was consumed in the villages and towns near the farms. Food waste was fed to farm animals; the manure produced was mixed with straw and returned to the fields where the crops had been grown. Over time, farming has evolved. Agriculture has become much larger scale, global and specialized. This evolution has been driven by the use of oil, mechanization, and by the development of mineral fertilizers.

That model, which has been greatly based on cheap energy and resources, needs to be looked at critically as the economic environment changes. Energy is no longer cheap and, like oil, the resources used for the production of fertilizers have been depleted. New solutions are required to be able to produce optimally.

The production of nitrogen fertilizers requires a lot of energy. According to estimates, it uses 5% of the world’s natural gas production, and half the fossil fuels used in agriculture. Because nitrogen is quite mobile when dissolved, as this happens when it rains, a large amount of these high-energy-consumption compounds are lost. An estimated 50% of the nitrogen spread on crops leaches through the soil. It ends up in the water system. The reserves of phosphates, another important mineral fertilizer, are facing depletion. This might happen in 20 years from now. With the development of precision agriculture, the waste of minerals can be reduced. With the development of satellite imaging indicating the mineral status of a field, and the local variations within the field, it has become possible for farmers to bring just the right amount of the right mineral at the right time and at the right place. This follows somehow a similar thinking as fertilizing plants in hydroponics operations where crops are produced without soil and fed a mineral solution drop by drop.

A consequence of the specialization between crop farms and intensive animal farms is the rupture of the organic matter cycle. Large monoculture farms have suffered soil erosion because of a lack of organic matter, among other reasons. In soils, the presence of organic matter increases moisture retention, increases minerals retention and enhances the multiplication of microorganisms. All these characteristics disappear when the quantity of organic matter decreases. A solution to alleviate this problem is the practice of no-tillage together with leaving vegetal debris turn into organic matter to enrich the soil. This has helped restore the content of organic matter in the soil, although one can wonder if this practice has only positive effects. Tillage helps eliminating weeds. It also helps break the superficial structure of the soil, which can develop a hard crust, depending on the precipitations and the clay content of the soil. Possibly, in the future the use of superficial tillage could become the norm. Deep tillage, as it has been carried out when agriculture became mechanized, has the disadvantage of diluting the thin layer of organic matter in a much deepen layer of soil. This dilution seriously reduces the moisture and mineral retention capacity of soils, thus contributing to erosion as well, even in organic matter-rich soils.

The removal of farm animals from specialized crop farms requires the systematic use of mineral fertilizers because farmers do not have access to manure and the minerals it contains, even though most of these minerals originate from the crops farms.

At the other end of this interrupted cycle of manure, intensive animal farms do not suffer a lack of organic matter and minerals. They have the opposite problem. They have too much of it, and not enough acreage, if any, where to spread it. This leads to accumulation of manure and other related problems, such as stench, high concentrations of minerals in the soil and eventually in the waterways and drinking water reserves.

Since nothing is lost, what has happened to the minerals from fields and from fertilizers? They have been transferred to other places via the global trade of agricultural commodities. Many of these commodities are used to produce animal feed. Phosphate in European pig manure may come from Asian manioc farms. Therefore, the best way to find out where the minerals are is to look at where intensive animal husbandry farms are. As mentioned earlier, nitrogen is washed away into the water system because of its mobility. Unlike nitrogen, phosphates are not mobile in the soil. They will accumulate, which also leads to a loss of soil fertility, eventually. The other area of concentrations of these minerals is in city sewers, and in the soil of slums. Since the purpose of agriculture is to produce food, and since consumers are increasingly concentrated in urban centers, the exportation of minerals is actually gathering momentum out of rural areas.

In the future, we are going to see a new look at fertilization. The economics of agriculture will change. This is inevitable, because the cost of inputs will increase. This will be a direct consequence of the increase of the price of oil, and of the depletion of phosphates reserves. This change of economics will drive renewed interest for manure, and for sewage. These sources will become attractive and competitive, as they contain large amounts of minerals directly available. Because of their nature, they have a high content of organic matter. One of the most efficient ways to remove nitrates from water is to grow plants with it. One of the main sources of phosphates will be manure.

There is little indication that the human population will return to the land, but animal farms can be moved rather easily. After all, they already are segregated from vegetal production. The increased need for manure will call for a relocation of animal productions. In an expensive-energy economy, having the “fertilizer factory” on site, or at least much closer than today makes a lot of sense. This is especially true because manure contains a lot of water, although there are substantial differences between productions. Transporting water is expensive. Mixing crops and animal productions again on farms will also allow the inclusion of vegetal debris together again with the feces and urine, producing a higher dry matter content, with limited transport costs between the field and the “fertilizer factory”. Regardless of the size of the farms, I expect to see a relocation of animal production units on agricultural land. They will be spread more evenly in the landscape than today. This will decrease the density of farm animals in currently high-density areas to levels that will allow a better control of environmental issues, as well as reduce partly the risks of transmission of animal diseases. Animal production units will reappear in areas where they had disappeared because of the fertilizer that they will provide.

This evolution will also come together with a new approach of manure storage and treatment. Open-air lagoons like those that we know today will simply cease to exist. The changed economics of energy will make the capture of gases financially attractive. Manure storage units will be covered; the biogas will be collected to be used for energy purpose, for the farm and the local communities. The solid and the liquid fractions of the manure will be processed and transformed to provide organic matter and the fertilizing minerals necessary for crop production. The location of the “manure units” will be influenced by the type of animal production, and therefore by the physical quality of the manure. There will be a logistic optimization of manure collection to the crop farms. It will be based on efficiency and optimization of resources. Therefore, the new farm structure will be efficient, as much financially as environmentally. Similarly, open-ocean fish farms that currently do not collect the feces will see the financial value in recuperating the fish waste and sell it. In cities, there will be an increasing interest to recycle the sewage. The purpose will be to recuperate the organic matter and the minerals it contains. A similar approach for human waste will apply as for animal production units as I described above. This will also be integrated in the future approach of urban farming, as it will provide the necessary nutrients for an efficient urban food production. It will be a source of revenue to the cities.

In rural areas and in urban areas, organic matter and fertilizing minerals will become strategic activities. They will serve the purpose of feeding sustainably the world population.

Ten human factors that may hinder feeding nine billion people

Posted on February 22, 2011 by Christophe Pelletier

The road to ensure food security for all is still long. Although humans are very creative to solve and overcome their problems, when it comes to food production, they still lack control on many parameters. Since the beginning of agriculture, farmers have watched towards the sky to see what the weather would bring them. Rituals to call for friendly climatic conditions and soil fertility have been common in all cultures. Droughts, floods, never-ending rainfall, frost and other climatic events have happened on an ongoing basis and, climate change or not, they still will happen in the future. If natural events are out of our control, we can influence another parameter, although mankind’s history has shown that it is a difficult one to tackle: the human factor.

Here follows in condensed form my top ten human limitations to succeed in feeding nine billion people by 2050:

#10: Fear

Although fear is a defence mechanism, it will not protect humanity against food shortages. There are many fears that play a role in our understanding (or lack of it) of food production. The problem is not so much fear itself, but the inability to overcome it and to start bringing effective solutions to the problems. The other risk that fear brings is its ability to spread and to evolve into panic.

There are many challenges ahead, but we need to keep our heads cool, and address the issues practically and rationally, at least as much as we can. Inaction, which is a symptom of fear, will not be helpful. To feed nine billion we cannot be passive.

#9: Greed

Greed is fear’s twin sibling. It is a strong driver that makes people take risks for the sake of material reward. As such, a little bit of greed is good, as it stimulates action and entrepreneurship. It stimulates the need for action that I just mentioned. Speculation, the purest form of greed, will have to be brought under control. Its consequences in terms of social unrest and on the stability of societies are too serious. The risk with greed is that all the focus is on the short-term financial reward. It is also essential to ensure the continuity of food production for the long term, and we should not engage in solutions that can undermine future food security. A little bit of fear will help bring some balance.

#8: Not addressing the right issues

This, together with the slow disappearance of common sense, is a growing tendency. Too often, the focus is on eliminating the symptom rather than the cause of the problem. This usually results in creating a new set of unnecessary problems. By eliminating the cause of a problem, the solution does not create any new problem. We just have to deal with other problems and their causes. In the case of food security, an example of mistaking the cause and the symptom is hunger. The cause is poverty, not the lack of food. The food is there, but the poor cannot afford it. In our world of information overflow where the media are more interested in the sensational and the “sexy”, true and thorough analysis has gradually become less interesting to the public. Although analysis may be boring indeed, it is an absolute necessity if we really want to solve problems.

#7: Lack of education/training

Here is a topic that rarely makes the headlines in the media. Farmers, and candidates farmers, need to have access to proper education and training. In order to improve and produce both more and better, they need to have the knowledge and have the possibility to update this knowledge. This may seem obvious in rich countries where education and training are well organized, but in many developing nations, usually plagued with food insecurity, this is not the case. Too often, even the most basic knowledge is missing. For these populations to succeed and to contribute in increased food security, it is necessary to have education high on the list of priorities.

#6: Lack of farmers

This topic does not get much publicity, although it is of the highest importance. In many countries, the average age of farmers is above average and there seems to be little interest from the youth to take over. We need farmers if we want food. To have farmers, we need to make the profession attractive and economically viable. Two weeks ago, the US Secretary of Agriculture announced measures to make it easier to start up a farm. He mentioned that his country needs to find 100,000 new farmers. In Japan, they are developing robots to do the farmers’ work as there is too little interest from the youth for agriculture, and they face a serious risk of not having enough farmers. In the EU, there are more than 4.5 million farmers older than 65, while there are fewer than 1 million farmers younger than 30. This is how serious the situation is becoming.

#5: Lack of compassion/Indifference

In our increasingly individualistic and materialistic societies, the focus has shifted towards the short term, and even to instant gratification. Our attention span has shrunk dramatically, and unless other people’s problems affect us, we tend to forget about it. When it comes to food security for nine billion people, this will not work. There are many possibilities to produce enough food, as I have shown in previous articles, but to achieve this goal, we still have a lot of work to do. Mostly, we have to change a number of bad habits.

Throwing large amounts of food in the garbage is one of those bad habits. By changing this, we can save amazing quantities of food. First, we must lose the I-do-not-care attitude.

Large quantities of food are lost before reaching markets in developing countries. All it takes to solve the problem is to make the funds available. Compared with the stimulus packages and bank bailouts, the amount is ridiculously low. There too, the not-my-problem attitude is improper.

Another example is Africa. With the size of Australia of unexploited arable land, and low yields because of lack of proper seed and proper support, the potential for food production is huge. We need to help Africa succeed. The attitude of the West towards Africa, and Africans, needs to change.

Humans are social animals. This behaviour is an evolutionary advantage aimed at ensuring the survival of the species. Hard-nosed individualism and indifference go in the opposite direction. They work only in period of abundance. By showing some compassion and helping others succeed, the fortunate ones actually increase their own odds of survival. In our globally interconnected world, any negative food security event affects us all, eventually. We feel a pinch while we are “only” seven billion. This says how painful it would be by being nine billion.

#4: Interest groups

A better name should be self-interest groups. There is not a day that goes by without showing us the total lack of interest they have for those who are not affiliated to them. For as much as it is essential that all opinions and philosophies can express themselves, it is just as essential that they also have empathy and respect for those who think differently. Interest groups do not appear to do that. They express the behaviours that I indicate under #10, #9, #8 and #5. Their objective is to influence policies by bypassing the people who elected the representatives who depend on these groups for their political funding. Would that sound accidentally reminiscent of corruption and banana republic?

#3: Lack of long-term commitment to the vision/plan

There are many plans for food security out there. About every government has one. Industry groups come out with their vision as well. So do environmental groups. The problem in many cases is not the lack of objectives; it is the failure of execution.

To achieve food security, proper execution is paramount. It requires much more than a vision and a plan on paper. It requires a clear allocation of responsibilities and a schedule for the delivery of the objectives.

Often, what undermines the execution of a plan is the lack of a sense of ownership of the mission. All the actors of food security need to be involved as early s possible in the process. This makes them participate in the set up of the plan and this increases their level of commitment. There is nothing worse than a plan developed by a limited group that tries to push it on those who actually must make it happen. When people are not involved and committed, they feel no ownership of the plan. They simply will not participate.

#2: Ego

There is nothing like some good old-fashioned ego to thwart the general interest. Unfortunately, ego is a rather common component in higher circles of government, business and organizations. Some of the symptoms include the inability to say “I don’t Know”, the inability to admit being wrong, the tendency to wage turf wars, and the unawareness of the win-win concept. Acknowledging one’s ignorance is the first step to learning, therefore improving. Believing to be always right is simply delusional and shows a lack of sense of reality. Turf wars may end up with a winner, but usually it is a Pyrrhic victory. Thinking that one can win only if the others lose is just an illustration of point #5. When it comes to food security for nine billion, a short-term victory at someone else’s expenses will soon be a defeat for all.

#1: Poor leadership

Leadership is paramount in any human endeavour and feeding nine billion is quite the objective. While I was writing Future Harvests, I constantly came across the importance of leadership. I have no worries in our technical abilities.

All the success stories that I could learn from had all in common having a strong leader with a clear vision of what needs to be done. The leader also had the ability to gather all the energies behind him and get a consensus on the objectives and the path to follow.

Similarly, all the failures stories also had leadership in common. Usually, it shows a despotic leader who acts more out of self-interest than for the general interest, who does not accept being wrong and change course before things go haywire.

In order to succeed and meet food demand by 2050, we will need leaders, at all levels of society, who have the following qualities. They will overcome fear, keep greed under control, address the right issues, will foster education, will encourage farmers’ vocations, will be compassionate, will work for the general interest, will involve and commit all to succeed, and will not put their egos first.

Why we will change our eating habits, one way or the other

Posted on February 8, 2011 by Christophe Pelletier

In the discussion about producing enough food for the 9 billion people the world will have by 2050, one of the sensitive issues, especially in the overfed world, is about what to eat and how much of it. There always is resistance to change, and changing eating habits may be even among the most difficult challenges we have. Eating habits are developed unconsciously since early childhood, and switching to conscious choices is not easy to achieve. It requires will power and self-discipline.

Most of the gloomy scenarios about the challenge of feeding the world are based on the assumption that the diet model would have to be the Western diet, and in particular the American diet. This is far from certain. Actually, do not expect this to be the case.

Changing eating habits will happen in two ways. One will be voluntary and the other will be a consequence of food prices.

There is a growing awareness of the health consequences due to overconsumption of food. All the stakeholders seem to blame each over for obesity, diabetes and other heart conditions, and try to convince the public that they are not the cause of the problem. Whose fault is it? Is it meat? Is it corn syrup? Is it fast food? Is it salt? Is it lifestyle? Is it the parents’ fault? Is it the schools with their vending machines offering snacks and soft drinks? We all have read such statements. Here is a scoop: overweight is caused by consuming more calories than are burnt through physical activity. Ailments are the results of rich and unbalanced diets. Eating (and drinking) too much, and too much of the wrong things is bad for you. There is a reason why gluttony is one of the seven deadly sins! Actually, our societies should have a close look at that list, because we might be in trouble.

In Western countries, we eat too much, and that should not be a surprise to anyone. Obesity and diabetes are becoming society problems in the USA, but other countries are following the same path. Europe and China have a rising percentage of obese people, especially young people. Even in Africa, there seems to be an increase of the number of overweight people. A recent study confirmed this (click here for the interactive chart). Awareness about health problems has already generated action. There are government campaigns. Food producers are reviewing their formulas and are working toward healthier products, in particular by lowering the content of salt and sugar of their foods. More and more consumers are also adjusting their eating habits, mostly by changing what they buy and where they buy it. The trend towards healthier and more natural food is growing and it will not stop. Only biotech companies seem to ignore this fact. This food trend is not just in Western countries but in China, too, the demand for natural and organic foods is increasing. After all, nobody really feels happy with being fat or unhealthy. If some people are taking action to improve their diets and its impact on the environment, this voluntary choice is still about a minority of the population, today. One of the reasons for this is that healthy diets seem more expensive than the junk fattening eating habits. I say seem, because those who can cook know that it is quite simple to make delicious balanced meal for less than the supersize combo deep fried so-called menu.

Money matters. That is a fact. This is why money is probably the best incentive for change. And the future will bring us plenty of incentive to change our diets. The current concerns about food prices, and the food riots of 2008, have created awareness about food supply. Although the price hike is more the result of investors, not necessarily speculators, looking for a safe haven for their US dollars through transactions in futures contract, the reality is that the commodity markets, even on paper, becomes the “official” market price. This enters the real economy and affects the price of food for households all over the world. The poorer countries are more sensitive to food price inflation, and this has the potential to cause very serious unrest.

Regardless of the current causes of food price increase, simple economics show that when demand increase, while supply has difficulties to keep up, prices increase. And this is exactly what will happen. In a previous article, I showed that the potential for meeting food demand, or I should say the demand for nutritional needs, of 9 billion was there. Quite easily. However, in this calculation, I indicated the road to success includes reducing food waste and a reduction of the quantity of meat in the diet. This means that we need to change our behaviour towards food.

If there is a sensitive topic about diet, this has to be meat. Opinions vary from one extreme to another. Some advocate a total rejection of meat and meat production, which would be the cause for most of hunger and environmental damage, even climate change. Others shout something that sounds like “don’t touch my meat!”, calling on some right that they might have to do as they please, or so they like to think. The truth, like most things in life, is in the middle. Meat is fine when consumed with moderation. Eating more than 100 kg per year will not make you healthier than if you eat only 30 kg. It might provide more pleasure for some, though. I should know. My father was a butcher and I grew up with lots of meat available. During the growth years as a teenager, I could gulp a pound of ground meat just like that. I eat a lot less nowadays. I choose quality before quantity.

The future evolution of the price of food is going to have several effects. The first one is the most direct. As food becomes more expensive, consumers look for the more affordable alternative first. If their budget is tight, they buy slightly smaller portions. People will slightly reduce their food intake. Those who were over consuming might actually benefit from a positive impact on their health. For those who already were struggling, this will be more difficult to deal with. From all the food sorts, animal protein will be the most affected by an increase of the price of food commodities. Already today, there are clear signs from the meat and poultry companies that the price of feed is seriously squeezing their margins. As usual, passing the price increase to consumers will take time, as retailers will resist. If the price of agricultural commodities is to stay high, consumers will inevitably have to accept price increases for food in general, and for meat and other animal products in particular. The price of meat is going to be affected by other factors than just feed prices. The need for more control on food safety issues, the stricter environmental regulations that will come for animal husbandry, on the land and in the sea, a change in animal husbandry practices, especially a lower use of antibiotics and farms with lower densities of animal will all contribute to an increase in costs. Energy will become more expensive, too. A whole system based on cheap commodities is about to change, simply because there will not be any cheap commodity anymore. These are all adjustments to rebalance our consumption behaviour from the unbridled overconsumption of the past decades, when consumers were not thinking about the consequences of their actions. The industry will figure out how to increase efficiency to contain some of the cost increases, but the change of farming practices will make meat significantly more expensive than it is today. The price of ad-lib cheap meat is ending. The future dynamics of food prices as presented here will be ongoing. A long as we will not have adjusted our diets to a new equilibrium, meat will keep increasing faster than other basic food staples, until meat consumption, and therefore meat production, will reset to different levels. Do not expect this to happen overnight. It will be a gradual process. There will not be any meat or fish riots. If food riots happen, they will be about the basic food staples, simply because the first ones to riot will be the poorer among us, and their diet is composed mostly from rice, wheat, corn, cassava or potatoes. Should the situation become dire, governments will intervene to ensure food for the poorest. Such price systems are already in place in many developing countries, and they are likely to be maintained, and even strengthened.

The same critical factors to keep food prices in check are very much the same as the ones that I presented in the previous article that I mentioned earlier: food waste reduction, moderate meat consumption per capita; and economic development, especially in Africa.

For more on similar topics, please visit my other website The Sensible Gourmet

Feeding nine billion is an exercise in leadership

Posted on January 24, 2011 by Christophe Pelletier

In a previous article, “Hunger is about more than just food production”, I showed how much more potential we have to feed the world than we commonly think. However, having the potential to do so does not mean that we will do it. Human nature has the habit of fluctuating between its best and its worst. Therefore, whether we will actually feed nine billion is far from done. In this article, I am going to reflect to what it would take to be successful at making it happen.

In my book, Future Harvests, I present the six principles that are critical to meet future food demand successfully: Sustainability, Innovation, Market Orientation, Pragmatism, Leadership and Efficiency. I had regrouped these principles under the acronym SIMPLE. While I was writing the book, I always came back to the same observation: success or failure to feed nine billion simply depends on us all. Someone needs to set the course and create the conditions to take the proper actions. The world needs leaders that will make food production potential the reality by 2050.

The job description is, interestingly enough, rather reminiscent of food production and genetics. In order to express the full potential of its genes, an organism needs the proper environment. This is exactly the role of the future leaders. They must create the conditions that will allow farmers to produce efficiently, yet sustainably.

The starting point will be about making the right decisions for both the long term as for the short term. We must preserve the potential to produce for future generations, but we must not forget to provide for today as well. Proper leadership will need to take into account the interest of many different groups and manage a balanced approach between money, people and environment. For sure, future leadership will be a balancing act. This will be easier to achieve if the leaders can sell the world their plan, which means that they must have one.

Leaders come from all layers of society. They are in government, in industry, in non-profit organizations, they are independent farmers, or they come from non-food related occupations. Adequate food supply is the very fundament of societies. Where there is hunger, there is no prosperity. Without food, there is not life, and just as importantly, without water there is no food. Developing food security is not an option; it is probably the most important policy sector of any society. This is something that we must not take lightly, even in rich countries where we seem to take food for granted. Things may change.

What story do our leaders need to tell and execute? The points that I raised in the article mentioned at the very beginning are a good place to start. The scandal of food waste, because it really is a scandal, must be dealt with and fixed. In developing countries, this is caused by a lack of infrastructure. It is only a matter of money. If world leaders have the will to get that money at work, it will happen. For some reason, they do not do it. Maybe it is a sign that things are not that critical after all. Compared with the amounts of money thrown at financial bailouts and stimuli of all sorts, the cost of infrastructure development looks ridiculously insignificant. Such projects would actually create jobs and increase the wealth of the populations where it takes place. This would not be artificial GDP boosting, but actual poverty reduction and increased food availability. In rich countries, food waste happens at the consumer end. What leaders of these countries need to communicate is a sense of responsibility. Wasting food is simply immoral, just like any other waste. If we take the example of nitrogen, the waste by leaching is estimated at about half the nitrogen spread on crops. This is huge and very damaging for two reasons. One is that the nitrogen ends up in the drinking water making it harmful, especially for pregnant women and infants. The other is that the production of nitrogen fertilizers uses half the world’s agriculture natural gas consumption. Efficiency is not a luxury, but it is a necessity. When efficiency increases, the amount of waste decreases. This works towards a higher sustainability, too. Food waste is one thing, but food consumption excesses or unbalanced eating habits are another area of work for our leaders. Eating more food than one needs is not only detrimental for that person’s health, it is also food that is less available to others. This pushes food prices up, too.

The effectiveness of leaders depends on their ability to communicate and get the message over to their dependants. Changing habits and infusing a sense of solidarity and responsibility requires patience, communication and proper education programs. Defining vague objectives or using hollow populist slogans and expressions will have no effect. Only charismatic leaders with strong convictions about what ensures the future of their people, even if it means sacrifices, will be able to bring such a change. It is not easy to do when your country is not on the verge of a terrible crisis. An interesting example about unilateral leadership is the decision of the Chinese government to slow down the number of new car registrations. They consider that there are enough cars. Getting a licence plate will be difficult in the future. In 2008, they decided to ban the use of disposable plastic bags in supermarkets, thus saving an estimated 100 billion bags and the equivalent of 37 million barrels of oil per year. Similarly, China is now the world leader in renewable energies. What actions did the Western democracies take about new car sales and supermarket plastic bags? When children died because of tainted milk, the Chinese authorities arrested all the people involved, and even executed two persons. Of course, the use of melamine in the milk was intentional, making the case extreme. However, in the West, I do not recall anyone being arrested or considered personally liable after deaths by food poisoning. My point is not to demand imprisonment of CEOs as a standard operating procedure, but I am sure that if executives of food companies felt that they could be personally liable for food poisoning, the precautionary principle would apply much more systematically. Leaders need to make understand that doing something wrong comes with consequences. Although there is much to say about China’s political system, one must admit that not having to think in terms of elections every four years and not having political campaign funded by any industry of NGO of any sort can help politicians focus on the long-term, too. Maybe the fact that China is plagued with so much pollution in the air, in the water and in the soils also makes the issue more acute for the leaders to resolve.

If the stick is one option to make people do what is right, the carrot is, at the very least, as important. Nothing stimulates people more than being rewarded for doing a good job. People are at their best when they know that others appreciate what they do, and that what they do makes the world a better place. Then, they do not see their occupations as “have to” activities, but as “want to” ones. Subsidies, bonuses, tax credits are all motivating tools to make people do the better thing, but the key is to have incentives that meet the goals without having harmful side effects.

Leaders also need to be innovators. Considering how fast our world changes, and the quantity of new knowledge made available about on a daily basis, many new possibilities will be available to solve old problems. Innovation is the child of human genius and, to cope with future challenges, creativity and adaptability will be major assets. It is the leaders’ role to foster innovation, yet by keeping in mind all long-term implications.

The ideal leader would have the qualities described by Plato in “The Republic”. Although it is an ideal, having committed leaders matching his description would increase our odds of success.

Investing in agriculture requires thorough research

Posted on January 13, 2011 by Christophe Pelletier

Since the price hike of food and other commodities in 2008, agriculture is one of the hot topics in the investment community. This is also fuelled by the perception that the world might face a food crisis. For those looking at investing in the food sector, there are many possibilities, but in this sector as in many other investment types, caution is required. The investment community is a pool of sharks, and the name of the game is to sell at a profit. Beware of the salesperson!

According to Jim Rogers, a famous investor and former partner of George Soros, farmers will be the ones driving Maseratis in the future. He believes firmly that, in the future, those who actually produce the commodities, instead of brokers, will make fortunes. It is a very interesting point of view, although history tends to show that the power in food value chains is in both ends of the chain: genetics and marketing to consumers. Becoming a farmer is not an investment. It is a job, and a busy one. Farmers need to generate cash on a regular basis to provide for their families and keep the farm in business. Land is not liquid. Investing is about reaping the profit when selling at a higher valuation.

For those interested in owning farmland, there are possibilities to buy large acreage in many countries. A recent article published in CNBC presents some strategies. Large private investors seem interested in Brazil, Argentina, Uruguay and Canada. Prices of farmland have been firming up in the US. There are people advertising for Brazilian farmland who promise you a yearly guaranteed (not clear how, though) of 12%. In the former communist Eastern European countries, many farms are for sale. Net importing countries such as China, India and Arab countries choose to invest and develop farmland in Africa. For investors with a strong stomach, Africa may be a place of choice. The continent is pretty much for sale. However, the ownership of the land is not always very clear and the rules of engagements may vary. If you only wish to lease land, you might be interested in Ethiopia: the country is offering 100-year leases for $1 per acre. Although some offers may seem irresistible, buying farmland or a farm is a complex endeavour. Many factors weigh and things may not be as they seem. What is the quality of the soils? How is the climate, and in particular are there risks of floods or drought? Is there proper access to water? What are the local regulations in the country where you are thinking of buying? How much bureaucracy should you expect? Who are the suppliers, and how they deal with their customers? Is there access to quality supplies? What are the banking facilities and what type of credit can you get? How are the infrastructures for storage and logistics? What access to markets do farmers have, and how is the marketing chain organized? Today’s situation may not be a good predictor of the future, and problems may loom ahead, as Jason Henderson, vice president and Omaha Branch executive of the Federal Reserve Bank of Kansas City told in an interview to Agri-pulse.

If farming or owning farmland is not your thing, there is always the possibility to invest in commodities with futures contracts. Instead of buying the hard commodity, which would take quite some space in your garage, you just do the same but on paper only. This is a risky business though and it should be left to the pros. Originally, futures had been introduced to give farmers the possibility to fix in advance the selling price for their crops, instead of waiting for the spot market at harvest time. Futures contracts have been taken over by the Wall Street geniuses who brought us the Great Recession. Also realize that nowadays the future contracts prices reflect the supply and demand situation of paper contracts, not of the actual physical market. The result is that futures markets are all about speculation and most transactions are made with borrowed money. Speculation may be about the weather, planted acreage, expected yields or plant diseases. Any news is cause for rumours and markets may change direction without warning. If agricultural commodities interest you, you may prefer to invest in funds that include these commodities, and therefore offer a lower risk. Another possibility to get money at work in the agriculture and food sectors is by buying shares of companies involved in agricultural value chains. For instance, when commodity prices increase strongly, the logical (?) thinking of stock investors is that the next food crisis is ahead and that the world is about to run short of food, which will stimulate farmers to plant more and therefore require more inputs. Especially shares of fertilizer suppliers always shoot up in such situations, all the more so as there are just a few of them. This gives them a strong bargaining position, and they pass on sharp price increases to the farmers… which is why the margins of farmers usually suffer after a year of high commodity prices. In the agricultural sector, it is important to remember what I said about which links in the chain have the strongest position, as this will affect their bargaining position and their ability to get, or to keep, the added value. Weak links will always underperform, while the stronger ones will outperform compared with the average of the sector, that is for as long as these companies are managed properly. Investing in stocks always require a thorough financial analysis, as well as a good understanding of the quality of the management. How does the future look like for a particular company? Does it have a sustainable competitive advantage? How does the future look like for the sector of activity of this company? What is the track record of performance? Does it depend on world market prices or is it more predictable than that? How is the valuation of the company?

Another type of investment that is gathering momentum in the agri-food business is new technologies start-ups. With worries about the future of oil, and especially oil prices, and the challenge of providing enough water to produce crops, many new technologies try to find their way to market. The sector of new technologies attracts many investors, probably because it seems reminiscent of what happened in the tech sector, therefore giving hopes of high return. I come across such ventures regularly, and every time I hear enthusiastic stories from the owner or from the venture capitalists involved. In many cases, the story is about how this new technology is going to revolutionize the way food is produced, or even it will be the solution to hunger. Returns on investments always sound amazing, making one wonder why this has not been on the market for some time already. For such projects, too, it is essential to do the proper research on the claims that the owners and financiers are making. In many cases, I find difficult to get the proper background to support the financial results that they claim. In even more cases, I do not see any real thorough market research, and instead of explaining in which niche they will operate, the market story is about macroeconomics. The macroeconomics may be true, but except for the unlikely event that the particular technology would indeed take over the world within a few years, they are not a relevant description of the actual market possibilities within the foreseeable future. Of course, there are also projects that have strong cases, but they are a minority.

In all cases, a number of simple rules can save you from a very painful experience.

Do not invest in something you do not understand.
Do not mind hypes and tips.
Take all the necessary time to do your research, and do it thoroughly.
When in doubt, do not invest.
Ask as many questions as possible. When investing, information is power, and lack of information is weakness.
Ask independent third parties, and never ask advice from someone who has a vested interest in your transaction.
Buy low, sell high.
If it sounds too good to be true, it probably is exactly that.
Investing is not mandatory, and if you miss an opportunity, there will be other bargains later again.

The rise of the non-profits and how they shape food production

Posted on December 20, 2010 by Christophe Pelletier

In the years before the current economic crisis, the non-profit sector was already creating more jobs than the for-profit sector. Last year, the total of all operating budgets of non-profit organizations passed the US$1 trillion mark. This makes non-profits the eighth economy in the world. This amazing number seems to have been rather unnoticed, yet it has quite some significance for the way economy might evolve in the future. They are a force to be reckoned with.

They are perceived as independent, although this is not necessarily the case, and this tends to give them a higher moral status, especially compared with the for-profit sector. As I had written in a previous article, nobody has the monopoly of morals, but non-profits have a PR advantage in this area. A part of their strength comes from the loss of trust in government, science, industry and politics by the general public. In the food and agriculture sector, the influence of non-profit organizations is growing, and it challenges the way food is produced.

Just like in the for-profit sector, the size of non-profits as well as the quality of their message varies. Similarly to many corporations, the integrity of some non-profits is questioned. However, in order to motivate individuals and organizations to donate money, they need to have and to keep enough credibility. Competition exists in the non-profit sector, too. Only the ones that do the best job can survive. Nonetheless, non-profits have been instrumental for many changes in food production. It is also clear that change and improvement comes only from being challenged. In this article, I just want to name a few examples of the power of non-profits and their ability to cause visible change.

First, here is an example as recent as last week. The HSUS (Humane Society of the United States) came out with video footage of what they called inhumane treatment of pigs at a Smithfield Foods pig farm. For those who may be unaware of who these two organizations are, the HSUS is a non-profit organization strongly opposed to intensive animal husbandry. They want to end factory farms. Smithfield is the world’s largest pig processor. The HSUS and the US meat industry are no friends. They have opposite views on animal husbandry and meat production. They accuse each other of the usual shortcomings and lies, as is the case between industry and its opponents. What I found quite interesting in this case, though, was the communication of Smithfield about the “crisis” on Twitter. Here, I can only speak about my perception, which was that Smithfield was quite nervous about this matter. Obviously, the HSUS scares them, and not just a little bit. The pork company came with numerous tweets about the problem, and in my opinion too many messages. As long as the investigation is not completed, any communication is unnecessary, and potentially confusing. I got confused to the point that I even wondered how they actually implement the procedures about animal welfare that I believe they have. They even communicated that they would have emergency audits from authorities in the field of animal behaviour and animal handling, such as Temple Grandin and Jennifer Woods, from Alberta, Canada. The farm is in Virginia. That sounds rather drastic if all procedures are in place and followed. The end of the story, at this day, is the report of the Virginia State vet, who did not notice any violation during his visit. There is no way of knowing whether something bad actually happened. The vet’s reports also mentions that the farm will have to be monitored, which makes sense in the context. Smithfield also communicated to have fired three employees for violation of animal welfare procedures, which tends to confirm that the HSUS had put their fingers on something true. Of course, the background of the story is that the HSUS finds that Smithfield does not make the move to banning gestation crates for sows fast enough, as the company had announced a few years ago. They compare Smithfield with other US hog producers who have already implemented change of husbandry systems. Regardless of this specific case, the reaction of the world’s largest pig producer tells me that the HSUS is going to win its battle to reform substantially the US meat industry. It will not happen overnight, but it is just a matter of years.

Another example, still in the pig sector, comes from The Netherlands. The largest supermarket chain, Albert Heijn, part of Ahold, the fourth largest retailer in the world, will sell only pork produced in animal friendly conditions, according to a protocol set up together with Vion, The Netherlands’s largest pork producer and Dierenbescherming, a non-profit organization dedicated to humane animal treatment. I remember when I used to work in the pig industry in the late 1980s in The Netherlands; Dierenbescherming was considered a rather extremist organization that supposedly did not get the realities of meat production. How things can change in 20 years!

Greenpeace is one of the most active organizations that try to change how food is produced. The agriculture lobby is not too enthusiastic about their actions, but Greenpeace gets things changed. They addressed the issue of beef production in Brazil and its relation to deforestation. They achieve more than the Brazilian government by reaching agreements with beef producers in a region where the “law of the gun” tends to prevail, but also mostly with the beef producers’ customers. The main fast food companies (McDonald’s, Burger King, etc…) and retailers like Wal-Mart have pledged not to buy beef that would be produced at the expense of deforestation. Be assured that something like this has quite some leverage. A similar situation has happened about the production of palm oil in Indonesia and Malaysia. Greenpeace’s action to save the orang-utans’ natural habitat has resulted in large users such as Nestle and Unilever to purchase only sustainable palm oil products. This has more impact than government action. I had mentioned a few weeks ago, the ranking for seafood sustainability by Greenpeace of retailers. Costco, which came last, first tried to contest the results. However, within a couple of weeks they reduced their seafood assortment from 15 to only seven, sustainable, species.

Another non-profit with influence on food production is World Wildlife Fund (WWF). They created in 1997, together with Unilever, the Marine Stewardship Council, which role is to set sustainability standards and conduct certification of fisheries. In 2009, the WWF created, together with the Dutch Sustainable Trade Initiative, the Aquaculture Stewardship Council, which has a similar mandate as the MSC, but for aquaculture.

Another typical example came with the wish list of a prominent seafood industry representative for 2011. On that list, he chastises environmental organizations for their negative and critical picturing of the seafood industry. Especially Greenpeace and the WWF are on his “bad guys” list. That is not surprising, but the irony is when he expresses his wish for further development of clean energies to stop the risks of pollution by oil spills and other contaminants. When it comes to other industries than his, he sounds very much to me like a Greenpeace and WWF supporter.

These are just a few examples, but they show without any doubt that the message of non-profit organizations has an audience, and with environmental issues becoming common media material, their influence will only increase. It is also clear that, more and more, retailers, foodservice and, to a lesser extent, consumer goods manufacturers are joining them. The businesses with direct contact with the consumers (aka the public) are leading this change, as I had mentioned in “The quiet revolution of food retailers”.

The next step that I foresee to enforce more transparency is the development of WikiLeaks-like activities that will make public confidential internal memos and other information not destined to publication. This will bring deep changes in the way food is produced. Of course, where there is change, there is resistance, too. The food industry’s reaction is normal in this process. The winners of tomorrow will be the companies that understand where the business environment is heading, and that will see the opportunities to implement change faster and better than their competitors.

Future evolution of genetic engineering

Posted on December 9, 2010 by Christophe Pelletier

Genetically modified organisms (GMOs) are one the most, if not the most, controversial aspects of modern food and agriculture. So far, the focus had been on offering farmers alternatives to pesticides and herbicides. The proponents of GMOs praise the progress made and they claim that agriculture production benefits from this. Opponents warn about all sorts of potential disasters in health and environment. The reality is that GMOs have been around for about a decade and a half, and they are here to stay. There is currently no sign that they would be banned from the Earth, especially since genetic engineered traits have been found outside of farm fields, as I had mentioned in a previous article.

At his juncture, and to think of how this technology –and business- will evolve, it is worth asking a few questions.

Has the use of GMOs been successful for agriculture and food production?

There are several levels in this question, actually. From the yield point of view, it is rather difficult to answer objectively, as there is little possibility to compare the respective performance GMOs and non-GMOs. From what I gather, it would appear that the Bt cotton may have delivered better results. For corn, the picture is much less clear. Actually, some varieties have proven to have rather disappointing performance. For instance, the genetically engineered corn from Monsanto failed to produce in South Africa, and recently their SmartStax variety (developed together with Dow) has had lower results than expected. This forced the company to drop the selling price per unit from US$24 down to US$8! The stock market did not appreciate. Clearly, GMO producers can make mistakes, and this is not particularly reassuring.

However, GMOS have delivered some benefits, too. In Argentina, the use of glyphosate-resistant soybean has allowed the production of soybeans to recover strongly from the brink of disaster. After many years of intensive monoculture of soybeans, the soil had been damaged to a nearly point of no-return, With the use of glyphosate-resistant plants, combined with no-tillage technique, farmers have been able to rebuild the level of organic matter in their soils. The result has been a huge increase of production, as farming conditions have been restored.

Opposite to this success story, a study from China concluded that the use of Bt cotton changed the ecosystem in such a way that pests that are naturally not sensitive to the Bt toxin thrived in cotton fields. This forced farmers to use other regular chemical pesticides to fight them, and the overall use of pesticides was actually higher than before the introduction of Bt cotton. The number of glyphosate-resistant weeds is a growing concern in many areas of the USA, and farmers need to use other methods to eliminate the weeds. Currently, the situation has come to a point that Monsanto is offering a rebate to its customers to buy and use herbicide from their competitors, so that at least they keep buying their genetically engineered glyphosate-resistant seeds, because they do not have the solution of the problem in-house. These two examples demonstrate a simple fact: genetic engineering is not a panacea that solves all the problems. It must be used as a part of a well-thought set of techniques. Producing one type of crop with the included traits without understanding the ecosystem that a field is, simply does not work. A field is not a dead zone. A biologically very active system resists constantly the attempts of humans to get it under control. Since the odds of developing a resistance for all available products is statistically close to zero, rotating herbicides and pesticides strongly increases the chances of eliminating the “super weeds” and the “super bugs”. Of course, companies would rather not promote their competitors products by advising farmers to rotate herbicides and pesticides.

Are GMOs necessary?

Considering the rather mixed results, it is quite difficult to answer this question with certainty. The technology of genetic engineering is useful because it offers the possibility to introduce desirable traits in plants. However, genetic engineering deals with genes, and the actions of the genes, as well as their interactions with other genes, are very complex. This is still a field where we have much to learn. Caution is required. Genetic engineering is only one of the many ways we have to increase and improve production. It certainly is not, as some would like to make believe, the only way. This is also important to keep in mind when it comes to developing countries. In these countries, the problem is not that all other techniques have reached their potential. Many farmers do not even have access to just good seeds. If they had, together with proper financing, access to input and adequate techniques, they would achieve much better yields. Since they are poor, how could they even afford to buy GMOs? In my previous article, Hunger is about more than just food production, I indicated how Africa could become a net exporter without GMOs. On the other hand, in developed countries, such as Europe, where farmers achieve outstanding technical results, for instance wheat yields 2.5 to 3 times as high as in the USA, what could be the incentive? Europe is food secure, actually several European countries are among the world’s largest exporters of food and agricultural products. Why would consumers be hungry for GMOs, while food is already affordable? People may not always be rational, but there is always a strong logic about why they do what they do.

Are GMO safe or not?

In all objectivity, there is no certain answer to this question, either. Until this day, there has not been any proven disaster linked to GMOs. Since in biology things may take a long time to come out, there cannot be any certainty that something is not already changing, either. This debate is between those who think that progress always brings some new uncertainties that should accept, and those who think that we should not take chances. Genetic engineering is still a young science, and 15 years is a very short period in ecological terms.

A related question about this is: “Is there a moral issue about GMO?” There certainly is something about morals in the debate. There is the theme of playing to be God. There is the theme of corporate profits vs. people and environment. There is the theme of the control of food by a select few, and that is about power. There is the theme of secrecy vs. transparency. This is also about a certain vision of the world, and about which values should prevail. There is the New World set of values vs. the “Old World’s”. None of these themes has much to do with science, but they are quite important to many people, and they will remain so for a long time. The controversy and the debate are far from over. The food retailers, such as the giant Carrefour, are now entering the debate. A new interesting element is the awakening of the US consumers who start to question food production; while until recently, they were rather passive in that area. Many things will happen and change. At this stage, it is rather difficult to say what will emerge.

What is at stake?

Next to the themes that I have just mentioned, the most at stake is money, and a lot of it. This industry would never have developed if they had not been granted the possibility to apply for patents and collect royalties on their intellectual property (IP). Without IP, there are no GMOs. Patenting life is in itself a controversial topic. This is especially more so when a whole plant becomes private property while only a tiny part of it has been altered. The original whole plant was the collective property of humanity. Without asking permission to mankind, and not even offering to pay a rent for this collective property, GMO producers have managed to become the owners. For many people, there is a feeling of wrong entitlement.

The key element is IP. This is understandable, because most GMO companies are spin-offs from molecule makers, from the chemical and pharmaceutical industries. Their business has always been about investing large amounts of money in R&D to put new molecules on the market. Their philosophy behind GMO production is the same. They think like molecule makers, not like farmers. The objective is to develop products for which they can collect royalties to pay back for the R&D expenditure. The driver for this is the need to develop high margin products to satisfy the expectations of the shareholders. This is why GMOs were a logical step to replace gradually the chemical herbicides and pesticides, for which margins have been eroding. Something else needed to be developed to bring out solid financial results and future prospects. With the patent period ending soon, the existing GMOs will become generic products that will no longer be IP. This forces the producers to think of new traits to include, thus generating more IP for royalties. This leads to a new generation of GMOs

What will be the next phase?

We will see two different paths for genetic engineering. One is a market-driven genetic engineering aimed at solving actual problems that farmers need to overcome. This will not be so much about IP and royalties, but it will be about practical and affordable solutions. This area will be taken over gradually by plant breeders and to some extent with government support. They will focus on issues such as drought resistance, flood resistance, ability for plants to grow in saline soils, and ability to transform solar energy more efficiently into food by enhancing photosynthesis processes. An interesting case to follow is China. Over there, the government is already leading a nationwide restructuring of the currently fragmented seed industry to make it more efficient, and deliver solutions that will help the country improve its food self-sufficiency. Since China is quite involved in farming investments in Africa, we can expect to see Chinese seed producers become more aggressive on that continent, too. China has also clearly expressed that genetic engineering is a part of their new approach.

The molecule makers, as I like to call them, will choose a different path. They will look for sophisticated products for which they can receive a high margin in the market. Their objective will be to introduce as many traits as they can in plants and help them produce… molecules. They are more interested to produce high-tech novelties. They will become the Apple of biology. Chemical synthesis will be replaced by biotechnology. Their areas of interest will be pharmaceutical production and health, more than agriculture. The industry will introduce genes in plants to produce medicines that can be used to treat all sorts of diseases, such as diabetes, cancer, possibly Aids, and many others. They will also focus on the development of healthy nutritional components, such as high Omega-3 fatty acids content in oil seeds and the elimination of allergic components in current foods.

This next phase will see a change in the landscape of GMOs. Companies will make strategic choices about which segment they want to operate. There will be divestment of activities, and there will be new Mergers & Acquisitions, too. It is very likely that GMO producers will focus on biotech and sell their herbicides and pesticides activities to the companies that will choose to specialize in chemicals only. Pharmaceutical companies will get closer to GMO producers, and we can expect to see a new generation of biotech start-ups that will aim at being taken over by larger corporations. Some companies will choose for business-to business, while others will choose for consumer products. For pharmaceuticals and nutraceuticals, companies will subcontract farmers, while remaining in charge of the marketing of the molecules.

Hunger is about more than just food production

Posted on December 4, 2010 by Christophe Pelletier

Everyone who works in agriculture and food knows that there are about one billion people on Earth suffering from hunger. The temptation to think that the cause is a lack of food production is great, but it does not reflect reality. Quite a few serious organizations and personalities claim that one Earth is not enough to feed nine billion people by 2050. Some claim that we would need two Earths. Others even go as far as mentioning the need for three, and even four, of our blue planet.

There are two possibilities with such statements.

If they are true, then humanity has a problem, because there is only one Earth, and we will not get a second one. In such a case, the only way for supply and demand to get in balance is a reduction of the world population. This could happen through famine, disease and/or wars. Since in such a scenario there is a maximum to the world population, once this number is reached, there must be a constant elimination of the couple of billion people too many, through one of the means just mentioned. This is not a particularly happy thought.

On the other hand, if such statements are erroneous, there is hope to feed the increasing world population with one Earth.

Then, is one planet enough or not? Simple math should help finding the answer. If we need two Earths to feed nine billion, one planet would only feed 4.5 billion people. Currently, the world population is around seven billion, out of which one billion is hungry. Conclusion is that we currently can feed about six billion people. We are not doing that bad. Is it possible to find ways of feeding three more billion on this Earth? From the simple math above, it is clear that those who claim that we need three Earths or more are wrong.

Out of the six billion who do not suffer hunger, it is estimated that one billion is overweight, a part of which, mostly in the USA, is obese. They clearly ingest more calories than they need. Purely theoretically, if those were to share the excess food they consume with the ones who have too little, the billion hungry people would have about enough. This means that today there is already enough food available to feed seven billion people.

Another interesting factor is waste. According to the FAO, about 40% of all the food produced is lost and wasted. In rich countries, most of the waste takes place at supermarkets, restaurants and households level. People simply throw away food. In developing countries, the waste takes place mostly post-harvest. The food does not even reach the market. The food is spoiled because of a lack of proper storage facilities and logistics. The food ends up rotting, contaminated with mould or is eaten by vermin. To fix the problem, the FAO estimates the cost to improve infrastructure at US$ 80 billion. This is less than the amount the EU just made available to bail out Ireland. What to say of the US$ 3.3 trillion that the US Federal Reserve lent to banks to alleviate the financial crisis? Of course, it will be impossible to achieve an absolute zero waste, but if we were to achieve 10%, this will feed many people. I have heard the statement that if post-harvest losses were eliminated in India, the country would be fully food secure. Per 100 tons of production, 40% wastage means that only 60 tons are available for consumers. By reducing waste from 40% down to 10%, there would be 90 tons available. This represents an increase of food available by 50%! Since we could already feed seven billion with the 40% waste, reducing wastage to 10% would allow feeding 10.5 billion people.

There are also many debates about whether we should eat meat or not. The nutritional need for protein is easily covered with 30 kg of meat per capita per year. I had shown in an earlier article that if Western consumers were consuming just what they need instead of eating superfluous volumes (very tasty and enjoyable, though), it would free meat to feed 1.4 billion people the yearly individual 30 kg. In China, the average meat consumption is already up to 50 kg per capita per year. The consumption is very unevenly distributed, but this is the average. Cutting 20 kg per capita over a population of 1.5 billion would free meat for the nutritional needs of an additional one billion people.

The other area of potential is Africa. The FAO estimates that the area of arable land that is not exploited is about 700 million hectares. This is about the size of Australia. To simplify and get an idea of the potential, we can calculate what it means in wheat equivalent. With the assumption that wheat yields would be the same as the current African average, a low 1.5 tons per hectare, this adds up to 1.05 billion tons of wheat. Since a person needs about one million calories per year, and there are about 3,000 calories in a kg of wheat, one ton of wheat can feed three people, the 1.05 billion tons of wheat can feed more than 3 billion people. Normally, there would a crop rotation of at least two harvests per hectare. With proper investment and financing, farms should be able to reach easily the US average of 3 tons of wheat per hectare. Clearly, this performance could be achieved with traditional techniques and good quality seeds. This is not even about high-tech or GMOs. This tremendous potential of Africa is why China, India and Arab countries are very active developing farming there. They did the math. This scenario also shows that Africa can easily become a strong net exporter of food. In this case, the world map of food looks very different. Without Africa being able to produce large amount of foods, the prospects for food security in Asia and the Middle East are a bit bleak. They can depend only on Western Europe, Russia, Ukraine, Kazakhstan, North and South America, and with Australia to a lesser extent. With Africa as a net food exporter, the world map looks a lot more balanced, East-West as well as North-South. Sea routes from Africa with the Arabic Peninsula, the Persian Gulf, and farther away with India and China create a much safer feeling of food security for the countries in those regions. For Africa itself, it may change the relations between Sub-Saharan country and the Maghreb countries. This in turns changes the type of relationship that the Maghreb may have with Europe, by creating more economic activities to the South. Africa’s success –or failure- will affect the whole world.

With the above, everyone can develop further assumptions, but these calculations show that this one Earth can produce enough food to cover the needs of between 12 and 15 billion people. It almost sounds impossible to believe, yet these numbers are not even ambitious. I have not even taken into account that in 2009, 25% of the corn produced in the USA was destined to feed cars, not people, via ethanol production, and that number is expected to grow to about one-third for 2010. The potential is even higher when one considers that a large part of the US corn goes into soft drinks, while it could be used to produce tortillas, with a side glass of water, a much healthier alternative.

That said, if the potential for food production supply looks adequate, actually producing it may not be as easy. The human factor, especially through politics and leadership, will be crucial to succeed.

One would ask why there is hunger if we can produce so much food. The answer is simple. Hunger is not just about food production, it is about poverty. People are hungry because they do not have money to buy food. They do not have money because they do not earn enough, as they have low paying jobs or simply no jobs at all. By developing the economy in these regions, people would get better wages. They could afford more food. The demand would drive the development of food production. Agricultural development would then be a normal and natural activity. Trying to develop agriculture if the locals cannot buy the food cannot work. Recently the FAO estimated that two-thirds of the world’s malnourished live in only seven countries: China, India, Pakistan, Bangladesh, Indonesia, Ethiopia and Congo. These are countries where most of the population is poor, and most of which lives in rural areas. The other proof that hunger is not only a consequence of low food self-sufficiency can be found in two agricultural exports behemoths: Brazil and the USA. In the latter, a recent survey carried out by Hormel Foods, the deli producer, shows that 28% of Americans struggle to get enough money to buy food, or they know someone who struggles. Last year, the USDA had estimated at 14.6% the percentage of US households that do not have enough food on the table. Food will find the money and vice-versa. If Bill Gates decided to move to the poorest and most food insecure place in the world, and would fancy a lobster, I am sure that someone would manage to find him one and deliver it within reasonable short notice.

My book, Future Harvests, investigates the possible scenarios to increase food supply and meet the demand at the horizon 2050.

The locavore’s dilemma

Posted on December 1, 2010 by Christophe Pelletier

There is a growing trend, or at least a growing noise in favour of eating locally produced food. The “locavores” as they are called, claim that 100-mile food is the way to a more sustainable agriculture and consumption. Is this approach realistic and could it be the model for the future?

This movement is rather popular here in Vancouver, British Columbia. The laid-back residents who support the local food paradigm certainly love their cup of coffee and their beer. Wait a minute! There is no coffee plantation anywhere around here. There is not much barley produced around Vancouver, either. Life should be possible without these two beverages, should not it? The disappearance of coffee –and tea- from our households will make the lack of sugar beets less painful. This is good because sugar beets are not produced in the region. At least, there is no shortage of water.

But this is not all. There is no cocoa plantation around here, and believe me, there are many people who are addicted to chocolate. British Columbia does not produce citrus or other warm climate fruit. If we are to become locavores, we must say goodbye to orange juice, to lemons, to bananas. Even the so popular sushi must disappear because of the lack of rice. There are no rice fields in this area, and neither are there wheat fields. The Asian population certainly would have a hard time eliminating rice from their diet. The lack of wheat means no flour; and no flour means no bread, no pastries, and no cookies. The carbohydrate supply is going to be tough. If we must consume local, our lifestyle is going to change dramatically. Potatoes and cabbage is the way of the future. But before going all local food, the local locavores must realize that British Columbia produces only 48% of all the food its inhabitants consume. One out of two locavores would have to starve. Going exclusively local would also affect deeply the source of animal protein. Most of the animal feed is made of ingredients that come for much farther than 100 miles. The chickens and eggs would become less available. Farmed salmon, BC’s largest agricultural export could not use the type of feed they currently use, as fishmeal and fish oil come from Peru and vegetal oil comes from farms located far away. There would go many jobs with very little alternatives. If we look beyond food, other agricultural products such as cotton and wool would not be an option anymore. Cars would disappear, because the main component of tires, rubber, is not produced under this climate. The 100-mile rule will solve traffic problems. If local consumption is the rule for food, should not it be the rule for everything as well? China would probably have different views about this. Not only would their manufacturing collapse, but also if they have to produce food within 100 miles of the consumer, they would have to give up importing agricultural commodities. For them, a true locavore system would mean famine. The same would be true here in British Columbia. When people are hungry, they are not so picky about the distance from the producing farm.

The problem with concepts such as local consumption is that the basic idea has some value, but the idea quickly evolves into an ideology, and ideologies tend to make their followers stop thinking pragmatically. Today, the idea of eating locally in a place like Vancouver is possible because supply easily meets demand, thanks to the 3,000-mile foods. This is ironical. If the distance to market has to be within 100 miles, farmers in low population density areas, such as many regions of North America, South America and Central Europe, would have a different type of problem. They would produce an abundance of food, but because there are not enough people to consume it locally, the law of supply and demand tells us that the price of agricultural commodities would plummet, food would stay in storage and farmers would go out of business, while people in China, and in British Columbia, would suffer hunger. Clearly, the 100-mile diet needs some amendments.

Intuitively, it sounds logical that locally produced food has a lower carbon footprint than food that comes from 2,000 to 10,000 miles away. However, this is only partly true. The mean of transportation affects the carbon footprint. The environmental impact of transport is much higher for road transport than it is for rail transport, which is also higher than water transport. The type of transport also depends on the type of commodity brought to market. Perishables need to reach consumers as quickly as possible for shelf life reasons, while dry goods, such as for instance grains and oilseeds do not face the same kind of deadline. The quality of the logistics is also crucial to reduce the carbon footprint. A fully loaded truck is much more efficient than a local truck dropping small quantities in many places, thus driving around most of the time with empty space in the trailer.

The emphasis should not be so much on local as it should be about the search for efficient and low environmental impact. More than the distance from the farm to the consumer, it would be more useful to provide consumers with information about the actual carbon footprint of the products they buy. They would have the possibility to make the right choices. Retailers, too, would be able to make decisions about their sourcing strategies. Clean products and clean producers need to be rewarded for doing a good job. Here in Vancouver, local food products are more expensive than similar offerings from California, Mexico, Ecuador or Chile. How do you convince families with a tight budget to spend more for local products that look pretty much the same? This problem needs to be addressed. Currently, farmers markets are much about marketing. They sell the experience as much as their production methods. Only a wealthy minority can afford to buy on these markets. The prices are not based on production costs plus farmers income. They are as high as possible, because the farmers can ask these prices. The wealthy city dwellers are willing to pay a substantial premium above what they can buy from the local supermarket. In this relation farmer-consumer, the price bargaining does not take place. If these farmers were to try to sell to a grocery retail chain, they would never get the prices they get from the consumers who will not haggle about the price. This is why more farmers try to sell directly to consumers: they make more money that way. However, this might change in the future. A number of retailers are working towards offering “farmers market” products into their store. This already makes market farmers nervous.

Is local production for local markets the way of the future? My answer is that it partly will be and it partly will not. I do expect a shift of the location of production for perishables. Consumer habits will change, too. In the West, consumers have been spoiled. They can eat anything from anywhere at any time of the year. This luxury probably will not be affordable for long anymore. The superfluous will naturally be eliminated.

As the economics of energy, and therefore of food, will change, producers will increasingly locate their operations closer to cities; and even inside cities. Urban farming is a growing activity. Although it started mostly in poor neighbourhoods as a way of having a small patch of land for personal consumption, more sophisticated and efficient systems are being developed. My expectation is that production, and consumption, of vegetables and fragile fruit (for instance strawberries) will gradually become more integrated in the urban landscape than they are now. I also think that we will see animal productions, such as fresh dairy, poultry meat and eggs relocate closer to consumer markets. An interesting development is aquaponics, the combination of greenhouse produce with fish production in tanks. The production of non-perishables will not relocate. It does not have to. What will probably change is the transportation infrastructure in many areas where these commodities are produced. This is good news for coffee drinkers and chocolate addicts. After all, transport of commodities over long distance is not just the result of cheap oil. The Silk Road and the spice trade by the Dutch took place before mankind even knew about oil. Trade has always been a force of progress for humanity. It helps an increasing number of people to have access to goods that make their lives better. The rules of trade may not always be fair, but like all human activities, it is a work in progress. Limiting our food supply to 100 miles would be a regression. Subsistence agriculture has not demonstrated that it could feed the world. Most of the people suffering of hunger live in subsistence agriculture areas.

(This topic is one of the many that are presented and discussed in my second book, We Will reap What We Sow)

For more on similar topics, please visit my other website The Sensible Gourmet

Helping farmers produce better

Posted on November 26, 2010 by Christophe Pelletier

Meeting food demand depends for a large part on the ability of farmers to produce adequate quantities of the food products of the right quality. To achieve such an objective, farmers depend on their business partners. To feed an increasing world population, helping farmers succeed is not an option; it is a necessity.

There is no argument against producing better. A market-driven and more efficient production reduces the amount of waste, and it increases the amount of food available for consumers. It reduces the impact on the environment and it actually reduces the cost of production. However, it is important to realize that actions to produce better often are investments, as the effect is not always immediate.

From a value chain point of view, efficient production starts with high-quality ingredients. If the world wants farmers to produce higher volumes, they must have access to good genetics. Seeds that have the potential to deliver high yields, or farm animals that can produce and grow fast, while using feed and water efficiently, are an absolute necessity. Genetics and agriculture must also take genetic diversity and sustainability into account, but with poor genetics, farmers will not be able to meet food demand, and they will not be financially viable for the long-term. Vision and proper strategy are the elements to deal with this dilemma.

Farming inputs, such fertilizers, pesticides, herbicides and animal feed, must help plants, and farm animals, to express as much of their genetic potential as possible. Suppliers can play a very important role in helping farmers use the proper products in the right amounts, in the right place, and at the right time. The same principle applies for food processors and distributors. It is their role to help farmers deliver what the market needs when it needs it. They must encourage this by rewarding financially the farmers who do things right. This is in the interest of all the parties involved. Farmers make more money with their products. Processors get products that are more efficient to process, thus saving on costs. Distributors gain market share because they offer the right product to their customers, thus increasing customer satisfaction, appeal and loyalty. The advantage of doing things right is that it becomes more difficult for business partners to switch to a competitor. By being the best partner in business, the need for complicated contractual and legal agreements becomes a little less relevant. It is about loyalty and mutual security.

To achieve this kind of ideal situation requires a lot of effort, commitment and communication. Market needs must be translated in clear product specifications. The knowledge on how to be able to meet the required standards needs the proper channels to be transferred to farmers. Access to information has become much easier with the development of communication tools such as Internet and cell phones. Smart phones are helping further, and now farmers, anywhere in the world, have much faster access to market and technical information than by the past. This helps them make faster and better decisions. However, better technologies and better communication tools are not enough. Extension services are crucial. In my book, Future Harvests, several examples show how positive this is for food production. One is the policy of the Ugandan government that resulted in a boom in rice production, making the country a net exporter of rice. The second example is about the extension services of a food corporation, McCain Foods, in India, that helped farmers produce a better quality of potatoes, meeting market requirements, and earning substantially more this way. Another illustration of the positive effect of knowledge transfer is about the farming leader in Burkina Faso who helped increase food production with simple techniques, and stopped the exodus of population. Proper education and on-going training is part of the food production of the future. The human factor in knowledge transfer is as important as ever. Only people can know what the specific situation of a farmer is. Knowing the farmer is the best way to help them set up plans and strategies to improve their technical and financial performance. A farmer being independent business owners, their main concern is to generate enough revenue to stay in business, and to offer a decent standard of living and a secure future for their families. Helping them in these objectives is the way to get their attention and loyalty. Extension services need to offer the most effective solutions by taking into account the level of skills of the farmers, as well as their financial situation. Some farmers can afford and use high-tech solutions easily. Others may have money, but lack the skills to use certain techniques or technologies. Others may be technically savvy, but may lack the money. Extension service people are the ones who can help farmers make the best choices. They also must assist farmers to get the proper financing if this is the limiting factor, for as long as the money would used to deliver the proper return.

As Cicero stated, “The sinews of war are… endless money”. This tends to be overlooked by many who talk about increasing food production. If farmers do not have access to enough money to be able to produce the food the world needs, they simply will not. Developing agriculture requires serious investments, either from individuals or from governments. Asian and Arab countries know this and this is why they spent massive amounts of money in African and Asian countries, and even in Brazil and Argentina. If farmers cannot buy the basics to produce efficiently, they will have poor harvests. If farmers cannot be profitable, they will stop farming. This is important to realize that being a farmer must be attractive financially, too, if we want to motivate the next generation to be in agriculture. Money is important, but just for food production, more is not necessarily better. To get good results, we must ensure to have the right amount of money at the right time at the right place for the right purpose. The money must be aimed at producing for the market. Financing agriculture is about meeting food demand, not to produce blindly. Just like there is a need for efficient market-driven precision agriculture, the future of agriculture financing must evolve to efficient food-market-driven precision financing.