Home pagePress monitoringBiofuels Are Helping Build Rural Economies

Biofuels Are Helping Build Rural Economies

Date: 17.1.2006 

From China to South Africa, biofuels are helping to boost farmer incomes Increasingly, farmers are providing the fuel for a world that's as hungry for sThat's true in Brazil, where nearly 4 million vehicles run on ethanol alone, and 25 percent of the regular fuel supply is plant-derived — and in cities like Montreal, Canada, and Graz, Austria, where municipal buses are powered by biodiesel created from farm-grown oils. In the United States, meanwhile, ethanol will soon pass exports as the second-leading market for American-grown corn, trailing only animal feed. The rising interest in biofuels is good news for rural people in agriculture-based areas, who generally earn less than their counterparts in the city and who would benefit most from a greater demand for corn, soybeans, sugarcane and a number of other crops that serve as the raw material for these green energy sources. That disparity in urban and rural incomes extends to virtually every part of the world. Rural areas of Latin America contain 25 percent of the overall population but more than 50 percent of the poverty. In China, people living in cities earn three times as much, on average, as those in rural communities. And in the United States, 459 of the 500 poorest counties are located outside of large urban centers in sparsely populated farming areas. In total, the International Fund for Agricultural Development estimates that three-quarters of the world's 1.2 billion extremely poor people live and work in rural areas. Can the emerging biofuels industry help revitalize the countryside? While alternative fuels such as ethanol and biodiesel (a diesel-oil substitute made from natural oils or fats and alcohol) still account for just a small percentage of the world's energy use, there's evidence that biofuels can promote rural economic development. Brazil, a world leader in the development and use of biofuels, supports approximately 700,000 agricultural sector jobs in the ethanol industry. The use of ethanol and other biofuels in Brazil has displaced oil imports worth about $120 billion. "The ethanol program has helped reverse migration to large urban areas and increase the overall quality of life in many small towns," concluded a report on Brazil prepared by the United Nations Development Programme. Rural Americans benefit from the growing biofuels sector through increased markets for local agricultural products. Nearly 1.3 billion bushels of corn was consumed by the U.S. ethanol industry in 2004, creating an addition $3 billion in revenue for farmers. Demand for biofuels is expected to increase farm-level corn prices by 11.8 percent further increasing farmers' net cash income by an additional $6.6 billion annually over the next 15 years. Renewable fuels benefit farmers, but also the larger community. The biofuel industry supports more than 214,000 mostly rural-based jobs in the United States — and will generate another 300,000 jobs by 2016, according to a study by AUS Consultants. Duane Adams, a corn and soybean farmer from Cosmos, Minn., stressed the economic benefits of biofuel processing to both farmers and taxpayers alike in his 2004 testimony before a U.S. House of Representatives committee on rural development. "We have become marketers of energy and not just sellers of corn," Adams said. "We are getting more of our income from a value-added source and less from farm programs." In 2004, the biofuels industry contributed more than $800 million in tax revenue to state and local governments for spending on economic development, infrastructure and other rural development initiatives, according to the National Corn Growers Association. The critical role of biotechnology The rising price of oil focuses greater attention on global energy demands, but the growth of biotechnology is a key reason why biofuels are increasingly cited as part of a comprehensive solution to energy shortfalls. Farmers who plant biotech crops produce more on the same amount of land than they can with conventional or organic crops. Those higher yields make it more cost-effective to grow the raw materials for necessary to produce biofuels while ensuring that existing farmland can meet both our food and fuel requirements. Average corn yields (the main ingredient used in ethanol) increased by about 10 bushels per acre from 1995–97 to 1999–2001, for example. Compared with conventional varieties, land planted with herbicide-tolerant Bt corn delivered the equivalent of 30 extra gallons of ethanol per acre in 1997 and 11 extra gallons in 1998, according to Leonard Gianessi, senior research associate for the National Center for Food and Agricultural Policy. Besides boosting yields, biotechnology is also helping unlock the potential of biofuels for farmers by: Increasing ethanol's energy yield. Partly due to new biotech-derived enzymes that enhance the production process, ethanol now yields on average 67 percent more energy than is used in growing and processing corn, according to the U.S. Department of Agriculture. Producing energy from new plant sources. Researchers are making progress in producing biofuels from a variety of different types of biomass - everything from agricultural waste to livestock droppings to common grasses and other perennials. Through continued research and development, it's estimated that the cost to farmers of producing ethanol will fall by as much as 60 cents a gallon by 2015. Currently, biofuels are derived primarily from corn, soybeans and, in Brazil, sugarcane. As research into other biomass alternatives continues, producers of smaller-scale crops and farmers in the developing world regions may see the same economic benefits of growing renewable fuels as their counterparts do in the Americas. For example, In Wesselsbron, South Africa, a biodiesel plant with a 5,000-liter-per-day capacity operates on locally grown sunflower seeds. Through efforts like these, farmers could supply the world with about 10 percent of its gasoline by 2025, according to the International Energy Agency, provided costs continue to decline and governments support the continued expansion of biofuels — as many countries currently are pushing hard to do. To help protect farmers and the environment, and to reduce dependence on foreign oil, a number of countries, including Japan, the United States and the European Union nations, have committed to increasing the amount of biofuel in their energy mix. France, for example, plans to triple its output of ethanol and biodiesel by 2007. China just finished building the world's largest biofuel plant and has another in the works. With aggressive targets like these providing the demand, and farmers and researchers building supply, it's likely that fields of corn and other abundant crops will stand alongside oil fields in meeting the world's future energy needs — providing a much-needed boost to rural economies around the world. "Source":[ http://www.whybiotech.com/index.asp?id=5105].

The Long-Run Impact of Corn-Based Ethanol on the Grain, Oilseed, and Livestock Sectors with Implications for Biotech Crops - The ongoing growth of corn–based ethanol production raises some fundamental questions about what impact continued growth will have on US and world agriculture (22.5.2007)

UN warns on impacts of biofuels - A UN report warns that a hasty switch to biofuels could have major impacts on livelihoods and the environment (10.5.2007)

New variety of corn makes ethanol production for cars more cost effective - Michigan State University researchers claim to have developed a new variety of corn that promises to make ethanol production for running cars, more cost-effective and efficient (9.5.2007)

New generation biofuels coming soon - The credentials of biofuels might have been dented by claims that current production methods are inefficient, lead to deforestation and drive up food prices, but a German firm hopes to change all this with new technology (24.4.2007)

A new biofuel: propane - While much of the attention on biofuels has focused on ethanol, the process developed by the MIT researchers produces propane, says Andrew Peterson, one of the graduate students who demonstrated the reactions (20.4.2007)

 

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