Summary of PBGP
The DOE's "Breaking the Biological Barriers to Cellulosic Ethanol" report identifies poplar as one of the key feedstock species for cellulosic ethanol production in many regions of the country, including California. In contrast to herbaceous biofuels species such as corn, switchgrass and miscanthus, poplar has several important advantages. The primary advantages are market opportunities and storage. Poplar can be grown for multiple products including high-valued solid wood products and for pulp and paper.
This provides growers multiple market opportunities and additional incentive to produce the crop. Second, poplar is a woody perennial and can be stored "on the stump" unlike switchgrass that must be dried and stored. Poplar can be grown on a wide variety of site conditions and in some situations requires few inputs.
|July 22-25, 2013|
Forest Genetics 2013 - Canadian Forest Genetics Assoc; WFGA; IUFRO Population, Ecological & Conservation Genetics; IUFRO Breeding PNW Conifers
Hilton Hotel, Whistler, BC, Canada
|Guerra F., Wegrzyn J.L., Sykes R., Davis M., Stanton B., Neale D.B. (2012) Association genetics of chemical wood properties in black poplar (Populus nigra
L.). New Phytologist. 197:162-176.
|Wegrzyn J.L., Eckert A.J., Choi M., Lee J.M., Stanton B.J., Sykes R., Davis M.F., Tsai C., Neale D.B. (2010) Association genetics of traits controlling lignin and cellulose biosynthesis in black cottonwood (Populus trichocarpa, Salicaceae) Secondary Xylem. New Phytologist. 188:515-532. Full Text.
|Wegrzyn J.L., Lee J.M., Liechty J., Neale D.B. (2009) PineSAP - Sequence Alignment and SNP Identification Pipeline. Bioinformatics. 25:2609-2610. Full Text.
Latest Meeting Abstracts
|Wegrzyn J.L., Eckert A.J., Choi M., Stanton B.J., Tsai C., Neale D.B. 2010. Discovery of Genes for Improved Cellulose and Cellulose-Extractability from Poplar Secondary Xylem. Plant & Animal Genomes XVIII Conference. January 9 - January 11, 2010.