We at the Earth Policy Institute drew on four firms that collect and publish data on U.S. ethanol distilleries under construction. RFA is the one most frequently cited. The other three firms are Europe-based F.O. Licht, the publisher of World Ethanol and Biofuels Report; BBI International, which publishes Ethanol Producer Magazine and the American Coalition for Ethanol (ACE), publisher of Ethanol Today.
Unfortunately, the lists of plants under construction maintained by RFA, BBI, and ACE are not complete. Each contains some plants that are not on the other lists. Drawing on these three lists and on biweekly reports from F.O. Licht, EPI has compiled a more complete master list. For example, while we show 79 plants under construction, RFA lists 62 plants.
According to the EPI compilation, the 116 plants in production on December 31, 2006, were using 53 million tons of grain per year, while the 79 plants under construction — mostly larger facilities — will use 51 million tons of grain when they come online. Expansions of 11 existing plants will use another 8 million tons of grain (1 ton of corn = 39.4 bushels = 110 gallons of ethanol).
In addition, easily 200 ethanol plants were in the planning stage at the end of 2006. If these translate into construction starts between January 1 and June 30, 2007, at the same rate that plants did during the final six months of 2006, then an additional 3 billion gallons of capacity requiring 27 million more tons of grain will likely come online by September 1, 2008, the start of the 2008 harvest year.
This raises the corn needed for distilleries to 139 million tons, half the 2008 harvest projected by USDA. This would yield nearly 15 billion gallons of ethanol, satisfying 6 percent of U.S. auto fuel needs. (And this estimate does not include any plants started after June 30, 2007, that would be finished in time to draw on the 2008 harvest.)
This unprecedented diversion of the world’s leading grain crop to the production of fuel will affect food prices everywhere. As the world corn price rises, so too do those of wheat and rice, both because of consumer substitution among grains and because the crops compete for land. Both corn and wheat futures were already trading at 10-year highs in late 2006.
The U.S. corn crop, accounting for 40 percent of the global harvest and supplying 70 percent of the world’s corn exports, looms large in the world food economy. Annual U.S. corn exports of some 55 million tons account for nearly one fourth of world grain exports. The corn harvest of Iowa alone, which edges out Illinois as the leading producer, exceeds the entire grain harvest of Canada. Substantially reducing this export flow would send shock waves throughout the world economy.
Robert Wisner, Iowa State University economist, reports that Iowa’s demand for corn from processing plants that were online, expanding, under construction, or being planned as of late 2006 totaled 2.7 billion bushels. Yet even in a good year the state harvests only 2.2 billion bushels. As distilleries compete with feeders for grain, Iowa could become a corn importer.
With corn supplies tightening fast, rising prices will affect not only products made directly from corn, such as breakfast cereals, but also those produced using corn, including milk, eggs, cheese, butter, poultry, pork, beef, yogurt, and ice cream. The risk is that soaring food prices could generate a consumer backlash against the fuel ethanol industry.
Fuel ethanol proponents point out, and rightly so, that the use of corn to produce ethanol is not a total loss to the food economy because 30 percent of the corn is recovered in distillers dried grains that can be fed to beef and dairy cattle, pigs, and chickens, though only in limited amounts. They also argue that the U.S. distillery demand for corn can be met by expanding land in corn, mostly at the expense of soybeans, and by raising yields.
While it is true that the corn crop can be expanded, there is no precedent for growth on the scale needed. And this soaring demand for corn comes when world grain production has fallen below consumption in six of the last seven years, dropping grain stocks to their lowest level in 34 years.
From an agricultural vantage point, the automotive demand for fuel is insatiable. The grain it takes to fill a 25-gallon tank with ethanol just once will feed one person for a whole year. Converting the entire U.S. grain harvest to ethanol would satisfy only 16 percent of U.S. auto fuel needs.
The competition for grain between the world’s 800 million motorists who want to maintain their mobility and its 2 billion poorest people who are simply trying to survive is emerging as an epic issue. Soaring food prices could lead to urban food riots in scores of lower-income countries that rely on grain imports, such as Indonesia, Egypt, Algeria, Nigeria, and Mexico.
The resulting political instability could in turn disrupt global economic progress, directly affecting all countries. It is not only food prices that are at stake, but trends in the Nikkei Index and the Dow Jones Industrials as well.
There are alternatives to creating a crop-based automotive fuel economy. The equivalent of the 2 percent of U.S. automotive fuel supplies now coming from ethanol could be achieved several times over, and at a fraction of the cost, by raising auto fuel efficiency standards by 20 percent.
If we shift to gas-electric hybrid plug-in cars over the next decade, we could be doing short-distance driving, such as the daily commute or grocery shopping, with electricity. If we then invested in thousands of wind farms to feed cheap electricity into the grid, U.S. cars could run primarily on wind energy — and at the gasoline equivalent of less than $1 a gallon. The stage is set for a crash program to help Detroit switch to gas-electric hybrid plug-in cars.
It is time for a moratorium on the licensing of new distilleries, a time-out, while we catch our breath and decide how much corn can be used for ethanol without dramatically raising food prices. The policy goal should be to use just enough fuel ethanol to support corn prices and farm incomes but not so much that it disrupts the world food economy. Meanwhile, a much greater effort is needed to produce ethanol from cellulosic sources such as switchgrass, a feedstock that is not used for food.
The world desperately needs a strategy to deal with the emerging food-fuel battle. As the leading grain producer, grain exporter, and ethanol producer, the United States is in the driver’s seat. We need to make sure that in trying to solve one problem — our dependence on imported oil — we do not create a far more serious one: chaos in the world food economy.