Research at the University of Illinois has shown that the giant perennial grass Miscanthus x giganteus outperforms current biofuels sources by as much as 2 1/2 times.

“What we’ve found with Miscanthus is that the amount of biomass generated each year would allow us to produce about 2 1/2 times the amount of ethanol we can produce per acre of corn,” said crop sciences professor Stephen P. Long, who led the study. Long is the deputy director of the BP-sponsored Energy Biosciences Institute, a multi-year, multi-institutional initiative aimed at finding low-carbon or carbon-neutral alternatives to petroleum-based fuels. Long is an affiliate of the U. of I.’s Institute for Genomic Biology. He also is the editor of Global Change Biology.

In trials across Illinois, switchgrass, a perennial grass which, like Miscanthus, requires fewer chemical and mechanical inputs than corn, produced only about as much ethanol feedstock per acre as corn, Long said.

“It wasn’t that we didn’t know how to grow switchgrass because the yields we obtained were actually equal to the best yields that had been obtained elsewhere with switchgrass,” he said.

“One reason why Miscanthus yields more biomass than corn is that it produces green leaves about six weeks earlier in the growing season,” Long said. Miscanthus also stays green until late October in Illinois, while corn leaves wither at the end of August, he said.

Field trials also showed that Miscanthus is tolerant of poor soil quality, Long said.

“Our highest productivity is actually occurring in the south, on the poorest soils in the state,” he said. “So that also shows us that this type of crop may be very good for marginal land or land that is not even being used for crop production.”

Because Miscanthus is a perennial grass, it also accumulates much more carbon in the soil than an annual crop such as corn or soybeans, Long said.

“In the context of global change, that’s important because it means that by producing a biofuel on that land you’re taking carbon out of the atmosphere and putting it into the soil.”

Researchers at Illinois are exploring all aspects of biofuels production, from the development of feedstocks such as Miscanthus, to planting, harvest, storage, transport, conversion to biofuels and carbon sequestration.