Sustainable Food Supply and the End of Hunger V

Towards a Sustainable Global Food Supply

Creating a sustainable farm system around the world is absolutely vital to feed a growing world population. And to reduce the tremendous pressures that our current farm system, or systems around the world, are already placing on the Earth and many of the key ecosystems on the planet. We can think about what will happen if we continue with business as usual. And contrast that with what we really need to do, which is to reshape our own behavior with regard to food and to reshape the farm systems that produce food to create an alternative of trajectory, a trajectory of sustainable development. What are the threats of the business as usual path? The chart before you attempts to summarize those risks and to give an expert assessment of how serious the particular risks are in particular regions of the world.

1051The boxes that are shaded red are major alerts that these are places in the world and kinds of challenges that are of the first order of significance. The boxes that are yellow are like yellow warning signs, things could get bad in these areas with regard to these particular threats. Business as usual, for example, will mean increasing food insecurity in some parts of the world. The places at greatest threat are Sub-Saharan Africa and South Asia, the two epicenters of under-nutrition. But also one would add North Africa and the Middle East. Why? Because this is a place where all of the climate evidence suggests there will be significant drying in the future, and therefore, crop production will be under even greater threat than it is today. Certainly the business as usual course will put dangers in East Asia and Southeast Asia as well because there will be places of tremendous water stress. There will be places where higher temperatures play havoc with the food supply. Malnutrition in the sense of deep undernourishment, of course, will continue to have it’s intense epicenter in Sub-Saharan Africa and in South Asia. But the other kind of malnutrition, obesity. On a business as usual path is likely to worsen significantly in North America, in many parts of Latin America, it’s already epidemic proportions in Mexico for example, in Europe, and with serious risks in Southeast Asia, in in East Asia. And in India and in other parts of South Asia as well. Land use change we know will have huge costs especially in the rain forest regions. That means in Latin America, in Sub-Saharan Africa. And in parts of Southeast Asia. Soil degradation is already a major crisis in, in parts of Sub-Saharan Africa. In many place in south and in east Asia, where the land has already eroded the soils often have been swept away because of trying to grow crops on steep slopes for example. Or in places where the winds blow the topsoil away, as is occurring in many parts of China. We know that biodiversity loss is threatened pervasively. One could say that the threats are moderately or acutely high in every region of the world. One can think about losses in the rain forest regions, one can think about losses in the places likely to experience serious drying such as the Mediterranean basin. One can think about losses of biodiversity in places where population growth is so rapid that encroachments on land that are bound to threaten and profoundly imperil biodiversity as is occurring in Sub-Saharan Africa. The chart in other words by region, by risk. Is filled and while there are a few regions that escape some of the risks, there are no regions that escape all of the risks. And today’s poor regions are of course as is usual with poverty, at extreme peril because they’re already living on the edge. They’re already people living in fragile environments, for example in tropical ecosystems in dryland ecosystems, part of the their poverty has come from the fact that the, natural environment is already fairly inhospitable. But with environmental change, what is now a difficult environment, can be a, an impossible environment to support human life. When that happens, not only will people suffer, will people die, will there be conflict, there will be migration. And there will be environmental refugees created by the millions, the tens of millions, even the hundreds of millions. And we know, sad to say in a world which does not do well with migration. Where newcomers, especially poor newcomers that are forced to move ,uh, can face a very, very hostile environment to when they arrive and so we’re in for a lot of trouble if we maintain this business as usual trajectory. What to do? How to move to a sustainable development trajectory? Again, because of the complexity of the food system, the fact that we’re talking about land use, the fact that we’re concerned about nitrogen use, the fact that we’re concerned about chemical pollutants, the fact that we’re concerned about the vulnerability of crops to higher temperatures or more water stress. Means that the kinds of responses that are needed, also are going to have be varied, holistic in nature, and carefully tailored to local contexts. Boy, that makes this among the toughest challenges that we face because the world is in crisis. The problems will get worse. It’s not easy to say that one region will bail out the others because all regions will have stresses. And also there will be no magic key that suddenly will sweep the world, and make it possible to solve this problem. Each region is going to have to identify its own pathways to sustainable agriculture. What are some of the things that can be done? The first is to improve our ability to grow food. And to be more productive in terms of higher yields, and more resilient in terms of the ability of food crops to withstand the shocks that we know are already coming. Just as Norman Borlaug and his colleagues Emma Swaminathan and Minister Supranamian. That triumvirate made possible the Indian Green Revolution and comparable events in other parts of the world where higher yields came because of the advent of high yield varieties combined with fertilizer inputs and often with irrigation. We’re going to need another Green Revolution of new crop varieties that are going to be especially propitious for the challenges that we face. For some regions this will mean a special importance of drought resistant varieties. Because the frequency of serious droughts is likely to become much higher. We know that certain plants in nature have a high level of drought tolerance. The plant scientists now are attempting to identify those genes and through various means, conventional plant breeding or the use of genetic modification as it’s called, create new crop varieties that also share, the drought resistance. Partly the natural breeding has helped to develop new seed varieties that are better able to withstand bouts of of low rainfall, in other words dry spells during the growing season. GMOs, the genetically modified organisms, or GMO crops have taken the experimental pathway of identifying the gene complexes in naturally occurring, drought tolerant plants. And transplanting those gene complexes into crops that for the food supply. Now many, many people find this idea of genetic modification to be very threatening, very dangerous, and it poses risks to the environment and potentially to human health. So, whatever is done in this research domain of using cutting edge genomics, both to identify potential genes that can add to crop traits that are desirable, and then to transplant them into food varieties to raise the resilience of those crops. Needs to be tightly monitored and tightly regulated. But I would argue, despite some critics of this technology, that we should certainly test these technologies to see what they have to offer. They seem very promising. That by identifying genes for drought resistance or by identifying genes for saline tolerance, for saline soils, or for identifying genes as shown in this picture for the ability of rice to resist submergence. We can get major advances. What you’re looking at in this picture is a transplanted gene from a species of rice that is able to tolerate being underwater for several days and still survive. To the kinds of rice that are normally grown in Bangladesh, in India, in Pakistan or other parts of Asia, that don’t have that submergence trait. Turns out, wonderfully, taking that gene for submergence and putting it into popular, high yield traits for rice, has led to high yield, submergence-tolerant rice a wonderful breakthrough for farmers in Bangladesh that suffer repeated episodes of submergence of their rice. Those who say don’t even go that way with technology aren’t thinking, in my opinion, clearly enough about the needs of that farm family in Bangladesh to have this kind of variety. We shouldn’t dismiss a whole class of technology, because while it may pose risks those risks are controllable, monitorable and the technology itself can offer important breakthroughs. Now, relatedly is a second step of what can be done. And this is to make crop varieties more nutritious. Not only to grow better in harsh conditions, but to express more nutrients and this is the idea that you’re looking at, in this picture of so-called Golden Rice. This is a, a crop that has been developed by the International Rice Research, Rice Research Institute, in Los Banos, Philippines the Rice Research Institute that helped bring the Green Revolution in rice. Now what scientists at IRRI, I-R-R-I, are doing is to put in genes that express beta carotene, a precursor for vitamin A. So the children who eat this rice, and you see how it’s golden or looks more red, a little bit more like a carrot carrot color then have the vitamin A that they need for health. And we’ve already identified that vitamin A deficiency is one of the key kinds of hidden hunger. How wonderful it will be if a nutritious rice that provides a basis for vitamin A can successfully be diffused and taken up by populations of rice eaters around the world. A third direction for us, absolutely essential is known as precision farming or information rich farming. This is already being used in high income countries by relatively wealthy farmers who can afford high tech approaches. But in coming years, because of the declining costs of information technology, it will increasingly be used by by poor farmers as well. What precision farming means is having a much more precise application of fertilizer, for example. Just in the places where the soils require it. Not in the places where it’s not used and just in the amounts that can be taken up by the plants without experiencing the harmful side effects of the massive run off or loss of that fertilizer, both into the waterways and into the atmosphere. Precision agriculture depends on information technologies, on detailed mapping of soil types, often on on global positioning systems that can tell a farmer exactly where that farmer is in the field, and what’s happening in the soil in that part of the farm. That relates more to, to a more general category of, better nutrient management through better soil testing, soil mapping using a, a local chemistry. Even reading the qualities of the soil on handheld devices. Or from satellite, it will be possible to get a much more detailed resolution of soil needs. What needs to be added here, what needs to be added there, where’s fertilizer not needed or needed only in very small amounts? And that sort of nutrient management of the soils offers places with soil nutrient depletion a massive potential boost in yields, Africa  being number one in the line for that. It also offers the chances for places that use far too much fertilizer, like China, to cut down very, very sharply on the fertilizer use. Another breakthrough is water management. Of course, we need to apply less water to get more crop per drop, because we’re depleting the scarce water we have, and the conditions will get tougher in the future. Not only because of the depletion, but because of the climate change. Another major breakthrough that offers us a real boost will be better harvesting, storage, and transport of crops. To avoid the very large losses, sometimes estimated as, as much as a third, or even 40% of the crops to post-harvest loss, to pests, to rotting to rodents, to physical loss of the crops left to exposure to rains and so forth. Simple means of more effective storage systems at very,very low cost and better incentive systems and empowerment of local farmer cooperatives to invest in community-based storage facilities offer a tremendous hope for reducing losses in the value chain of agriculture. With big gains not only for farm incomes, but also big gains in effective productivity of the farm systems, and our ability to ease up on the big human pressures, on the farm systems. Next I would argue that better business models  for poor smallholders is vital not only for ending extreme poverty but also for making all of these investments in more efficient crop varieties, more efficient irrigation more efficient water management, more efficient storage. There is productivity through aggregation into farmer cooperatives. Farmer based organizations, new kinds of models, new connections to local, regional, and global value chains that are already proving their worth. And finally, we have to take responsibility ourselves for our health. And for the way we approach the issues of food. When we have massive epidemics of obesity. We know that something is seriously wrong. A lot of it comes from the fact that we have heavily subsidized the wrong kinds of foods. We’ve heavily subsidized carbohydrates or trans fats, or other kinds of, of foods stuff that are absolutely unhealthy in the ways that they’re being consumed right now. And, our economic incentives have often played against the very kinds of foods that are better for our diets, for our health. We have subsidized in effect the feed grains that have led to massive and the evidence shows from a health point of view, an environmental point of view, overconsumption of beef in the United States and Europe. To the point where so much meat is eaten that it’s bad for human health, contributing to cardiovascular and other diseases, and it’s exceedingly bad for the environment when we are deploying ten or fifteen kilograms of feed grain for every kilogram of beef that is consumed. Tremendously multiplying the burdens on the land, on fertilizer use, on water supplies, aggravating all of the natural problems. We’re also aggravating these problems by diverting food production, or what should be food production, into the gas tank. In the United States through absurd subsidies driven more by politics than by any common sense or ecology, we’ve turned a significant part of our annual food and feed grain production, especially of maize into ethanol for automobiles. It’s a miserable deal because so much resources used to produce that ethanol. It’s creating no savings for the natural environment but what it is doing is diverting a tremendous amount of food and feed grain away from the the food systems. It’s pushing up food prices. It’s putting extra pressures on the natural environment. It is being done at the behest of a few powerful companies with powerful lobbies in Washington. And Europe isn’t off the hook because it has a similar problem of biofuels diverting valuable farmland in Europe. The pathway to sustainable development involves behavioral change, public awareness, taking responsibility, and the mobilization of new systems and new technologies that can dramatically reduce the pressures on the natural environment. And help to make our economy and our way of life more resilient to the environmental changes that are already underway. It’s a huge problem and a huge challenge. It’s an unsolved one. It’s one of the areas that will require the most intensive kinds of problem solving, at local levels all around the world, during the period of the sustainable development goals from 2015 to 2030, the years that lie ahead.

Pedro Pereira Leite

Researcher and professor. He had his PhD. on museology in 2011, with the title “Muss-amb-ike Homeland: The commitment on musicological process”, that was published in 2011. In 2012 he finishes a Post-PhD Research on "Biographical Glances: The intersubjectivity poetry on museology, at Lusófona University (Lisbon). Presently he is working in his Post PhD. Research about: “Global Heritages" with the aims to build a network on local cognizance and memory manager has a tool to build the will of action in 3 different communities, linked by past communed heritages.” He works at CES. He participates on different Research network, presented papers in national and international conferences, and had published books on research subjects.

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