Why Land Matters
Farmers need arable land to maintain the security of our global food chain. The threats to the land are many, but the solutions are coming into focus.
For most people in the developed world, food security is a non-issue. Supermarkets are stocked with an almost unimaginable variety of meat, fruit, vegetables, dairy products and packaged foods. Kitchens take up an ever-larger percentage of homes, and refrigerators have grown to the size of small warehouses. For the fortunate, the question isn鈥檛 鈥淲ill I eat?鈥 but 鈥淲hat looks good today?鈥
Look closely at the crop disruptions and climate extremes of the past ten years, and this perception of abundance snaps into perspective. The food and price shocks of 2008 touched off worldwide unrest and unprecedented movements of people. And projections of climate change and resulting growing patterns for the decades ahead send a clear warning: Unless we make profound adjustments in the way we cultivate crops and consume energy鈥攖wo key drivers of climate change鈥攖he recent disruptions will be mere pre-rumblings of greater catastrophes to come.
A 鈥攁 gauge of a nation鈥檚 ability to ensure the supply, safety and availability of food now and in the future鈥攆rom the Food and Agricultural Organization (FAO) of the United Nations sounds the warning in no uncertain terms. Production of key staple crops such as corn, rice, potatoes, sugar cane and sorghum, among others, is under increasing threats related to climate change, and may have to 鈥渟hift to higher altitudes and latitudes as temperatures rise.鈥 It sounds simple when they put it that way, but it鈥檚 a humanitarian disaster in the making for farmers whose livelihoods depend on current growing patterns and people whose food supply 鈥渟hifts鈥 hundreds or thousands of miles away from their dinner tables.
Sorghum, which feeds a half billion people in Africa and South Asia, is a particularly instructive case, as it has often been suggested as a heat-tolerant alternative to vulnerable wheat and maize crops. But even this drought-resistant crop can be affected: A published in the Proceedings of the National Academies of Sciences projects a 10 percent drop in the sorghum harvest with each rise of 1掳C in average temperatures around the world.
Shrinking harvest projections are common across the most important staple foods grown around the world. According to the FAO, three of them鈥攔ice, corn, and wheat鈥攕upply 60 percent of the world鈥檚 consumable calories. When you apply the commonly agreed-on multipliers of crop loss鈥攂etween 5 percent and 15 percent for every 1掳C the average global temperature rises鈥攜ou quickly reach a situation where desperate populations must migrate in search of food, and farmers seek out arable land or new, more resilient crop varieties, or perish in place. The Paris Accords mandate global actions to limit the increase to 2掳C; most current projections peg the increase at 4掳 to 7掳C by the end of this century. Even if you choose the most optimistic numbers, we鈥檙e still looking at global crop loss of 20 percent.
The myth of mobile crops
The International Food Policy Research Institute (IFPRI) is a Washington-based think-tank employing 600 people in 50 countries. Their goal: to develop strategies and methods that can help produce a world without hunger or malnutrition. The challenge is huge. Their climate analyses show that, in the next 30 years, a significant portion of the arable croplands in the largely less-developed Southern hemisphere and equatorial regions will disappear. This trend will be only partially offset by an increase in farmable land and lengthened growing seasons in the economically advantaged north.
That tradeoff is happening already. Wheat harvests in Russia have been setting records in recent years, in response to longer growing seasons, newly arable land, and milder temperatures. It has allowed the nation鈥攁 former wheat importer鈥攖o become an agricultural powerhouse, exporting to such food-insecure countries as Egypt, Turkey, Bangladesh, Saudi Arabia, Indonesia, Azerbaijan, and Nigeria.
But there鈥檚 a matching climate-related disaster in the making, : The invasive fall armyworm鈥攚hich benefits from climate-related drought conditions鈥攈as hit 28 African countries hard, hampering maize production and threatening a primary food source for 200 million Africans.
What鈥檚 good for Russia is devastating for Africa. 鈥淭he negatives far outweigh the positives,鈥 says Robert Smith, a co-author of the 2018 edition of the (GFSI), published by the Economic Intelligence Unit and sponsored by ggpoker中文 AgriscienceTM. 鈥淎s staple and traditional crops are threatened, people become more food insecure. We鈥檒l need crops that are more resilient.鈥 (See 鈥Building Resilient Food Systems.鈥)
Economic progress鈥攗sually regarded as a cure-all鈥攃ould make these climate-driven problems even worse. 鈥淭he biggest issues in developing countries are that as the middle classes grow, their diet changes,鈥 says Smith. 鈥淧eople eat more meat, and as cattle production goes up, so do greenhouse gasses. So as we add billions of people to the middle class, the climate problem feeds upon itself.
鈥淲e have to understand the interconnectedness of these risks,鈥 Smith concludes. 鈥淵ou pull on one lever, it affects all the other levers as well.鈥
Food security and global insecurity
In 2007-08, surging oil prices, combined with widespread drought, caused a spike in food prices that led to riots in 70 countries. A related disruption in 2011-12 pushed food costs even higher, leading to widespread unrest in Africa and helping to foment the 鈥淎rab Spring鈥 uprisings in the Middle East. And there is evidence that the civil war in Syria was caused in part by a severe drought that, beginning in 2006, drove people into cities, where high levels of unemployment exacerbated discontent. According to the , extreme weather has motivated desperate migrations of an average of more than 25 million people every year for the last decade, in search of food and the arable land needed to grow it. That far outstrips the number of people displaced by war.
Drought is only one of the climate-related effects leading to political and economic instability. Extreme weather鈥攈urricanes, typhoons, torrential downpours, temperature fluctuations, flooding鈥攊s another dangerous effect of rising global temperatures, and it has had impacts all around the world, including the U.S. The estimates that, in the Southeastern part of the U.S. alone, 鈥渁verage losses caused by recent hurricane winds, land subsidence, and sea level rise are estimated to be $14 billion per year. These costs are expected to rise in the future.鈥
As temperatures and sea levels rise, the population dislocations and farm losses to a U.S. region housing 80 million people鈥攁nd home to such watery cities as Miami, New Orleans, Fort Lauderdale, and Charleston, plus the 32,000 miles of flood-prone coastlines that connect them鈥攁re potentially staggering. Hurricane-driven exoduses from superstorms like Harvey, Katrina, and Sandy bring the risks into sharp focus. And if the threats are that grave in an economically advantaged zone, consider the potential impacts to populations and economies in coastal Africa, India, Asia, and Oceana.
How to fight back
Despite the real effects of climate change, now and in the future, the threat can be addressed, with the right combination of new technology, scientific advances, trade agreements, and political cooperation.
One advantage we have now: We鈥檙e tracking the changes, and the risks, and we鈥檙e beginning to test solutions at both the local and international levels. A recent in U.N. News shows how farmers in Kenya are responding to climate change by switching from maize to more a drought-tolerant crop, such as sorghum. Serbia is instituting measures to help predict drought and mitigate its effects before crops are devastated. Water markets in Australia now encourage farmers to sell and shift irrigation rights, maintaining both crops and incomes in their increasingly dry climate. But whether we can cooperate on an international level to cut back on the emissions that are causing climate change remains an open question.
One advantage we have now: We鈥檙e tracking the changes, and the risks, and we鈥檙e beginning to test solutions at both the local and international levels.
Despite climate change, crop yields overall are expected to advance at about 1 percent a year, thanks to new seed varieties and improved drought tolerances of crops. And while insect-related losses currently spoil about 35 percent of the world鈥檚 crops, new planting schedules, crop rotation techniques, safer pesticides, and irrigation schedules could thwart pests and improve harvests. Even such low-tech solutions as planting cover crops, tilling more organic matter into soil, and developing wind-breaks, could have a real impact, as they lessen the amount of soil loss, currently estimated at 16 to 30 tons per hectare (2.47 acres, or the size of an average sports field). More and better-managed soil means more food, pure and simple.
Ricky Robertson, a research fellow with IFPRI, isn鈥檛 so much afraid that we can鈥檛 figure this out, but rather that we won鈥檛 invest enough in R&D to avert crises three decades hence. 鈥淩ight now, we鈥檙e living off research investments we made 20 years ago,鈥 he notes. 鈥淚f we make less investment now, we鈥檒l pay for it later.鈥
But Robertson remains optimistic. 鈥淗uman beings are almost a bomb-proof species,鈥 he says. 鈥淲e鈥檙e scrappy little creatures, so we鈥檒l produce scrappy plant breeders, and farmers will get smarter.鈥
Additional Links
Building Resilient Food Systems