Urbana, Illinois, USA
August 7, 2014
If the hottest new plant grown as a biofuel crop is approved based solely on its greenhouse gas emission profile, its potential as the next invasive species may not be discovered until it’s too late. In response to this need to prevent such invasions, researchers at the University of Illinois have developed both a set of regulatory definitions and provisions and a list of 49 low-risk biofuel plants from which growers can choose.
Lauren Quinn, an invasive plant ecologist at U of I’s Energy Biosciences Institute, recognized that most of the news about invasive biofuel crops was negative and offered few low-risk alternatives to producers. She and her colleagues set out to create a list of low-risk biofuel crops that can be safely grown for conversion to ethanol but realized in the process that regulations were needed to instill checks and balances in the system.
“There are not a lot of existing regulations that would prevent the planting of potentially invasive species at the state or federal levels. For example, there are currently only four states (Florida, Mississippi, Oregon, and Maryland) that have any laws relating to how bioenergy crops can be grown and that include any language about invasive species—and, for the most part, when those words do appear, they are either not defined or poorly defined,” said Quinn.
In approving new biofuel products, Quinn said that the EPA doesn’t formally consider invasiveness at all – just greenhouse gas emissions related to their production. “Last summer, the EPA approved two known invaders, Arundo donax (giant reed) and Pennisetum purpurem (napier grass), despite public criticism," added U of I professor of agricultural law A. Bryan Endres, who co-authored the research to define legislative language for potentially invasive bioenergy feedstocks.
Part of the problem is that there is no clear scientific definition of what it means to be invasive. The team of researchers used fundamental biological, ecological, and management principles to develop definitions for terminology commonly used to describe invasive species.
“Our definition of invasive is ‘a population exhibiting a net negative impact or harm to the target ecosystem,’ for example,” Quinn said. “We want to establish guidelines that will be simple for regulators and informed by the ecological literature and our own knowledge. We also need to recognize that some native plants can become weedy or invasive. It’s complicated and requires some understanding of the biology of these plants.”
Quinn said that ideally the definitions and suggested regulations could become part of a revised Renewable Fuels Standard administered by EPA, which would require Congress to make the changes. The proposed regulations could also be adopted at the state level.
“Some of the biofeedstocks currently being examined by the EPA for approval, like pennycress, have a high risk for invasion,” Quinn said. “Others have vague names such as jatropha with no species name, which is problematic. For example, there are three main Miscanthus species but only sterile hybrid Miscanthus × giganteus types are considered low risk. However, the EPA has approved “Miscanthus” as a feedstock without specifying a species or genotype” Quinn said. “That’s fine for the low-risk sterile types but could mean higher-risk fertile types could be approved without additional oversight.”
According to Quinn, the white list, which includes 49 low-risk feedstock plants, will serve to clear up the confusion about plant names. The list was developed using an existing weed risk assessment protocol, which includes 49 questions that must be asked about a particular species based on its biology, ecology, and its history of being invasive in other parts of the world.
“Those questions are difficult to answer for new taxa, including plants that haven’t been around long or have just recently been developed by breeders,” Quinn said. “This will be the first time that they are out in the environment so we don’t know what their potential for invasiveness is. But the white list offers plenty of choices of plants that are already commercially available, and the feedstocks on the list have a number of different industrial uses.”
Quinn stressed that the native plants that are included in the white list are only recommended as the native genotypes grown in their native region, because although a plant may be native to a part of the United States, it could be considered invasive if grown in a different region.
“For example, Panicum virgatum is the variety of switchgrass that is low risk everywhere except for the three coastal states of Washington, Oregon, and California, but future genotypes that may be bred with more invasive characteristics, such as rapid growth or prolific seed production, may have higher risk.”
The researchers believe that the white list provides producers with clearly identified low-invasion risk options and may reduce conflicts between objectives for increasing renewable fuel production and reducing unintended impacts and costs resulting from the propagation of invasive plants.
“Resolving regulatory uncertainty: legislative language for potentially invasive bioenergy feedstocks” was published in an issue of GCB Bioenergy. Co-authors include Elise Scott and James McCubbins from the Energy Biosciences Institute, A. Bryan Endres and Thomas Voigt from the University of Illinois, and Jacob Barney from Virginia Tech.
“Bioenergy feedstocks at low risk for invasion in the U.S.: A ‘white list’ approach” was published in Bioenergy Research. Co-authors include Aviva Glaser from the National Wildlife Federation, Doria Gordon from the Nature Conservancy, and Deah Lieurance and Luke Flory from the University of Florida.
Funding for both research projects was provided in part by the Energy Biosciences Institute at the University of Illinois.
Funding for both research projects was provided, in part, by the Energy Biosciences Institute, a public-private collaboration funded by BP and includes researchers from the University of California, Berkeley; the University of Illinois; the Lawrence Berkeley National Laboratory; and BP. For more information, visit www.energybiosciencesinstitute.org.
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