October 16 is World Food Day. It offers the opportunity to strengthen national and international solidarity in the fight to end hunger, malnutrition and poverty. With falling water tables, eroding soils and rising temperatures making it difficult to feed growing populations, control of arable land and water resources is moving to center stage in the global struggle for food security. Here are some facts to consider:
- There will be 219,000 people at the dinner table tonight who were not there last night -- many of them with empty plates.
Ensuring adequate food supplies was once a rather simple matter, the sole responsibility of the ministry of agriculture. When governments wanted to accelerate growth in the grain harvest, they simply raised the support price paid to farmers. Now that is changing. Securing future food supplies has become incredibly complex. It may now depend more on policies in the ministry of health and family planning or of energy than in the ministry of agriculture itself.
Today, the growth in world grain consumption is concentrated in China. It is adding over eight million people per year, but the big driver is the rising affluence of its nearly 1.4 billion people. As incomes go up, people tend to eat more meat. China's meat consumption per person is still only half that of the United States, leaving a huge potential for future demand growth.
Aquifer depletion now threatens harvests in the big three grain producers -- China, India and the United States -- that together produce half of the world's grain. The question is not whether water shortages will affect future harvests in these countries, but rather when they will do so.
The world is in transition from an era dominated by surpluses to one defined by scarcity. Not eating at all on some days is how the world's poorest are coping with the doubling of world grain prices since 2006. But even as we face new constraints on future production, the world population is growing by 80 million people each year.
During the last half of the 20th century, the world's irrigated area expanded from some 250 million acres in 1950 to roughly 700 million in 2000. This near tripling of world irrigation within 50 years was historically unique. Since then the growth in irrigation has come to a near standstill, expanding only 10 percent between 2000 and 2010.
Future food production is also threatened by soil erosion. The thin layer of topsoil that covers the earth's land surface was formed over long stretches of geological time as new soil formation exceeded the natural rate of erosion. Sometime within the last century, the situation was reversed as soil erosion began to exceed new soil formation. Now, nearly a third of the world's cropland is losing topsoil faster than new soil is forming, reducing the land's inherent fertility. Soil that was formed on a geological time scale is being lost on a human time scale. Peak soil is now history.
In addition to wells going dry and soils eroding, both at an unprecedented pace, the generation of farmers now on the land is the first to face manmade climate change. Agriculture as it exists today developed over 11,000 years of rather remarkable climate stability. It has evolved to maximize production within that climate system. Now, suddenly, the climate is changing. With each passing year, the agricultural system is more and more out of sync with the climate system.
Mountain glaciers are melting in the Andes, the Rocky Mountains, the Alps, and elsewhere, but nowhere does melting threaten world food security more than in the glaciers of the Himalayas and on the Tibetan Plateau that feed the major rivers of India and China. Ice melt helps sustain these rivers during the dry season. In the Indus, Ganges, Yellow, and Yangtze river basins, where irrigated agriculture depends heavily on rivers, the loss of glacial-fed, dry-season flow will shrink harvests and could create potentially unmanageable food shortages.
In Japan, the longtime leader in raising cropland productivity, the rise in the yield of rice that began in the 1880s essentially came to a halt in 1996. Having maximized productivity, farmers ran into the inherent limits of photosynthesis and could no longer increase the amount they could harvest from a given plot. In China, rice yields are now just 4 percent below Japan's. Unless China can raise its yields above those in Japan, which seems unlikely, it, too, is facing a plateauing of rice yields. Yields of wheat, the world's other food staple, are also plateauing in the more agriculturally advanced countries. For example, France, Germany, and the United Kingdom --Europe's leading wheat producers--had been raising wheat yields for several decades, but roughly a decade ago, all three hit plateaus. Corn yields in the United States, which accounts for nearly 40 percent of the world corn harvest, are starting to level off. Yields in some other corn-growing countries such as Argentina, France, and Italy also appear to be stagnating.
The world today desperately needs leadership on the food security issue to help the world understand both the enormity of the challenge we face and the extraordinary scope of a response, one that, among other things, requires a total restructuring of the energy economy. The scale of this economic restructuring is matched only by the urgency of doing so. Political leaders talk about cutting carbon emissions 80 percent by 2050, but if we stay on the current trajectory the game will be over long before then. If we want to stabilize climate, we need to cut carbon emissions far more rapidly. President Obama needs to understand both the gravity and urgency of the tightening food situation and the consequences of leaving it unattended. We are not looking at 2030 or 2050. We are looking at an abrupt disruption in the world food supply that could be just one poor harvest away.
What makes Lester Brown an expert on the global food situation? Check out his new memoir Breaking New Ground: A Personal History to find out. To learn more about global food security see Full Planet, Empty Plates: The New Geopolitics of Food Scarcity (W.W. Norton, 2012) by Lester R. Brown.
This post originally appeared on Earth Policy Institute.