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Energy Biosciences Institute Funds First 49 Projects

BERKELEY, Calif., May 6 PRNewswire — The Energy Biosciences Institute, the world's largest public/private consortium dedicated to the application of biosciences to the energy sector, has announced an initial set of 49 research projects for funding during the first year of EBI's 10-year program.

Projects are being supported at all three of the public partner institutions — the University of California, Berkeley; the University of Illinois at Urbana-Champaign; and Lawrence Berkeley National Laboratory. The international energy company BP is funding the decade of work with $500 million, about $20 million of which is supporting the first package of projects.

Research is being pursued in four categories related to exploring the opportunities for production of cellulosic biofuels — feedstock development, biomass depolymerization, biofuels production, and the socio-economic impacts of cellulosic biofuels development. A second initiative, concerned with fossil fuel bioprocessing, is expected to receive funding later this year.

By applying bioscience and biotechnology techniques to the energy industry, EBI will seek to develop the methods and technologies that will enable the transition from a fossil fuel-based energy economy to a balanced portfolio relying more upon renewables and cellulosic or algal biofuels with greatly reduced environmental impacts.

An initial thrust of EBI research will be the development of environmentally benign transportation fuels from non-food biomass (cellulosic biofuels). This involves identifying the most suitable species of plants for use as energy crops, and improving methods of breeding, propagation, harvesting, storage and processing of biomass to next-generation fuels. A central objective is to ensure that this is done in a sustainable way without negative impacts on food production or the environment. In this respect, a notable feature of the EBI research portfolio is an emphasis on investigation of the environmental and socioeconomic aspects of cellulosic biofuels.

Chris Somerville, a plant biochemist at UC Berkeley and EBI's Director, said the establishment of the EBI represents a significant opportunity to explore solutions to the world's most intractable and critical technology challenge. "We've embarked on a commitment to develop new solutions to global energy needs through the deployment of new technologies based on advances in knowledge about biological processes," he said. "The enormous progress in understanding basic biological processes achieved during the past several decades have not previously been brought to bear in the energy sector, so we believe that there may be fundamentally new opportunities to reduce the environmental impacts of energy production and use.

"In addition," he continued, "we believe that the multi-disciplinary approach in EBI, bringing together biology, chemistry, engineering and economics in the same building, will lead to completely new perspectives on how to approach these problems."

Somerville is assisted by Steve Long, the Institute's Deputy Director who oversees work at the University of Illinois, including a 340-acre Energy Farm, and by Paul Willems, the Associate Director who oversees the BP employees within the Institute.

From an initial list of more than 250 pre-proposals from researchers at the three institutions, EBI management employed a competitive peer review system to narrow the field to 49 high-priority research efforts that have received funding.

Program research is conducted mostly within the EBI, so that the post-doctoral and graduate student researchers from different disciplines will work side-by-side. This will ensure synergy across fields and will provide a training environment and a broad appreciation of the scientific, technological, environmental, economic and policy issues that must all be addressed to achieve the Institute's goal of environmentally sustainable bioenergy.

The initial research is being conducted in:

FEEDSTOCK DEVELOPMENT: Eight projects and programs are seeking to identify and breed plant species that can maximize cellulosic biomass production on a global scale and to learn how to grow and harvest them sustainably. A primary goal is to discover plants that can produce more biomass, using minimal land, water and energy.

BIOMASS DEPOLYMERIZATION: Fashioning fuel from plants requires the use of individual sugar molecules that make up most of a plant's body. Biofuel production requires isolating these molecules by severing the chemical bond that holds them together, among the most critical and difficult steps in the process. Today's practices are costly and inefficient. Nineteen projects are determined to find a less costly but effective depolymerization method, a requirement for ensuring that biofuels can be reasonably priced.

BIOFUELS PRODUCTION: More productive ways of converting lignocellulose-derived sugars to fuels is the subject of five projects. Methods used for biofuels today are similar to the fermentation practices used to make beer and wine, but they are not adequate for the large-scale production of cellulosic biofuels. EBI researchers seek ways to boost the concentration of fuel produced by the biofuel fermenting process. This could lead to a significant reduction in the cost of making biofuels.

ENVIRONMENTAL, SOCIAL AND ECONOMIC DIMENSIONS: The EBI will seek to understand the potential environmental, economic and societal impacts of meeting a growing portion of the world's energy needs through biofuels. This includes answering questions surrounding the amount of land globally available for biofuel production, the consequences of using land to grow biofuel crops, the effect of a biofuel industry on food crops, and the effects of production on the environment. The answers may assist policymakers as they attempt to regulate this transitioning industry. Seventeen projects have been funded to begin to find those answers.

A complete list of projects, including brief descriptions and principal investigators, can be found on the EBI web site at: http://www.energybiosciencesinstitute.org/index.php?option=com_content&task=vi ew&id=184&Itemid=7 (Due to the length of the link, please copy and paste into your browser.)

SOURCE EBI Institute

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