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Researchers to Play with Poplar Photosynthesis

The U.S. Energy Department receives a multi-million-dollar grant to make poplar trees more adaptable to dry climates for biofuel production.

September 28, 2012

Scientists are investigating ways to enhance poplar trees' water-use efficiency and photosynthesis to make them more adaptable to dry climates. Photo courtesy iStockphoto/Thinkstock (HobbyFarms.com)
Courtesy iStockphoto/Thinkstock
Scientists are investigating ways to enhance poplar trees' water-use efficiency and photosynthesis to make them more adaptable to dry climates.

Putting the water-use-efficient and turbo-charged photosynthesis from plants, such as agave, into woody biomass plants, such as poplar, could hedge against predicted long-term increases in temperatures and reduced precipitation, but it’s not possible—yet.

A five-year, multi-institutional $14.3 million United States Department of Energy grant to explore the genetic mechanisms of nocturnal synthesis and drought tolerance in desert-adapted plants was awarded to a team of researchers, including John Cushman, a biochemistry professor at the University of Nevada, Reno; Xiaohan Yang at the Oak Ridge National Laboratory; James Hartwell at the University of Liverpool, UK; and Anne Borland at ORNL and Newcastle University, UK. They aim to apply this knowledge to biofuel crops.

The long-term goal of the proposed research is to enhance the biomass plants’ water-use efficiency and adaptability to hotter, drier climates. The metabolic mechanisms in species that normally perform photosynthesis during the day will be altered so the plants can take up carbon dioxide at night, when the potential for water loss is lower. This specialized mechanism of nocturnal photosynthesis is known as crassulacean acid metabolism, or CAM.

The team will work to develop technologies to redesign bioenergy crops to grow on economically marginal farmland and produce yields of biomass that can readily be converted to biofuels. The development of water-use-efficient, fast-growing trees, such as poplars, for sites like deserts will also help reduce competition with food crops for usable farmland.

The pores on plant leaf surfaces, called stomata, open and close at certain times of the day to allow water and carbon dioxide to be exchanged. With CAM, the exchange happens mostly at night, when it is cooler and more humid, and C3 photosynthesis occurs during the day in a more water-wise manner. CAM species can grow and thrive with about 8 to 16 inches of precipitation a year, far less than the 20 to 40 inches per year required for current biofuel feedstocks, like corn and soy.

“In order to identify the optimal ‘parts list’ for introducing CAM-like properties into other plants, we will undertake groundbreaking research on a diverse range of plants that use CAM, with the goal of identifying the key genes and proteins required to make this photosynthetic adaptation work efficiently,” says James Hartwell, a researcher at the University of Liverpool, who will be working on the project.

The CAM-like properties will be introduced into poplar trees using comprehensive plant-transformation approaches.

“We will introduce changes that enable poplar to take up carbon dioxide at night and subsequently process this carbon during the day while the leaf pores remain closed,” says fellow researcher Anne Borland, of Newcastle University. “If successful, our research could lead to poplar that requires up to 80 percent less water for biomass production and consequently will be able to grow in more marginal habitats. In the longer term, the technology has the potential to help tackle food security by maintaining the productivity of food crops in the drier and warmer world that climatologists predict for the next 60 years.”

“We’re focusing on poplar due to its fast-growing nature and wide-ranging habitat, which has led to it gaining worldwide recognition as a dedicated feedstock for biomass production; plus poplar has a rich portfolio of genetic and genomics tools and resources,” says Xiaohan Yang, at the Oak Ridge National Laboratory. “The relatively low water-use efficiency resulting from C3 photosynthesis in poplar is a limiting factor for sustainable production of poplar tree biomass on marginal land. The biodesign principles and genome-engineering capabilities developed in this project can be extended to increase the water efficiency of other bioenergy and food crops.”

The grant, titled “Engineering CAM Photosynthetic Machinery into Bioenergy Crops for Biofuels Production in Marginal Environments,” is funded through the DOE’s Office of Biological and Environmental Research, Genomic Science: Biosystems Design to Enable Next-Generation Biofuels.

Of the $14.3 million award, the University of Nevada, Reno, will receive $7.6 million, with a sub-grant to University of Liverpool. The Oak Ridge National Laboratory will receive $6.7 million with sub-grants to Newcastle University and the University of Tennessee, Knoxville.

 

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Researchers to Play with Poplar Photosynthesis

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Reader Comments
Interesting
a, Houston, TX
Posted: 8/13/2013 6:55:54 AM
Hopefully it doesn't turn out to be one of the invasive plants.
Dante, Hyde Park, MA
Posted: 4/16/2013 5:09:51 PM
I'm not very much in favor of "FrankenPlant", but I do see the usefulness of this engineering project... MORE SO than NASA's budget. My best hope is for "limited" research dollars to achieve efficient results without creating a "business" like cancer research.
Eric, Kaneville, IL
Posted: 10/4/2012 5:47:16 AM
Annie (Houston, TX) is almost correct. It IS genetic engineering.

Although I am not in favour of genetic engineering in most instances, I can see value in this research and it will become more necessary in the future as we start to experience more and more devastating changes in the weather.
Frederick, Ocala, FL
Posted: 10/1/2012 8:33:48 PM
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