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http://dx.doi.org/10.5010/JPB.2009.36.4.320

Current status on Miscanthus for biomass  

Seo, Sang-Gyu (Department of Environmental Horticulture, The University of Seoul)
Lee, Jeong-Eun (Department of Environmental Horticulture, The University of Seoul)
Jeon, Seo-Bum (Department of Environmental Horticulture, The University of Seoul)
Lee, Byung-Hyun (Division of Applied Life Science, Gteongsang National University)
Koo, Bon-Cheol (Bioenergy Crop Reseach Center, National Institute of Crop Science, RDA)
Suh, Sae-Jung (Bioenergy Crop Reseach Center, National Institute of Crop Science, RDA)
Kim, Sun-Hyung (Department of Environmental Horticulture, The University of Seoul)
Publication Information
Journal of Plant Biotechnology / v.36, no.4, 2009 , pp. 320-326 More about this Journal
Abstract
The carbon dioxide concentration of the atmosphere is projected to increase by almost 50% over the first 50 years of this century. The major cause of this increase is continued combustion of fossil fuels. As a result, the significant changes in climate that have already occurred will be amplified, in particular a global temperature increase. Renewable energy production has a central role to play in abating net $CO_2$ emissions to a level that will arrest the development of global warming. Especially, biomass crops are becoming increasingly important as concerns grow about climate change and the need to replace carbon dioxideproducing fossil fuels with carbon-neutral renewable sources of energy. To succeed in this role, biomass crop has to grow rapidly and yield a reliable, regular harvest. A prime candidate is Miscanthus, or Asian elephant grass, a perennial species that produces over 3 metres of bamboo-like stems in a year. Miscanthus species are typically diploid or tetraploid. Hybrids between species with different ploidy levels result in the highly productive triploid hybrids, M. ${\times}$ giganteus. Here we will detail the Miscanthus characteristics desired of a biomass fuel crop.
Keywords
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  • Reference
1 Brummer EC, Burras CL, Duffy MD, Moore KJ (2000) Switchgrass production in Iowa: economic analysis, soil suitability, and varietal performance. Iowa State University, Ames, Iowa. Prepared for Bioenergy Feedstock Development Program, Oak Ridge National Laboratory, Oak ridge, TN.
2 Brummer EC, Burras CL, Duffy MD, Moore KJ (2000) Switchgrass production in Iowa: economic analysis, soil suitability, and varietal performance. Iowa State University, Ames, Iowa. Prepared for Bioenergy Feedstock Development Program, Oak Ridge National Laboratory, Oak ridge, TN.
3 BTAC (2002) Roadmap for biomass technologies in the United States, biomass research and development technical advisory committee.
4 BTAC (2002) Roadmap for biomass technologies in the United States, biomass research and development technical advisory committee.
5 Christian DG, Haase E. Agronomy of miscanthus. In: Jones MB, Walsh M, editors (2001) Miscanthus for energy and fibre London: James and James (science Publishers) Ltd.; 2001 P.33-38
6 DEFRA (2001) A review of the potential of giant grasses for UK agriculture. Research and development-final project report NF0419; 2001.
7 De La Torre Ugarte DG (2003) The economic impacts of bioenergy crop production on U.S. agriculture, U.S.Department of Agriculture and Department of Energy, Agricultural Economic Report No. 816 www.Usda.gov/oce/reports/ energy/AER816Bi.pdf
8 EERE(2003)Biomass program multi-year technical plan. U.S.DOE, Energy efficiency and Renewable Energy.
9 Farrell AE, Plevin JR, Turner TB, Jones DA, O'Hare M, Kammen MD (2006) Ethanol can contribute to energy and environmental goals. Science 311:506-508   DOI   ScienceOn
10 Heaton EA, Long SP, Voigt TB, Jones MB, Clifton-Brown J (2004) Miscanthus for renewable energy generation: European Union experience and projections for Illinois. Mitigation and Adaptation Strategies for Global Change 9(4):433-51   DOI   ScienceOn
11 Heaton EA, Voigt TB, Long SP (2004) A quantitative review comparing the yields of two candidate C4 perennial biomass crops in relation to nitrogen, temperature and water. Biomass and Bioenergy 27(1):21-30   DOI   ScienceOn
12 Heaton EA, Voigt TB, Long SP (2006) Miscanthus×giganteus:the results of trials alongside switchgrass (Panicum virgatum) in Illinois. University of Illinois at Urbana-Champaign:Department of Plant Biology
13 Hodkinson TR, Renvoize S (2001) Nomenclature of Miscanthus × giganteus (Poaceae). Kew Bulletin 56:759-760   DOI   ScienceOn
14 Mclaughlin SB, Walsh ME (1998) Evaluating environmental consequences of producing herbaceous crops for bioenergy.Biomass and Bioenergy 14(4):317-324   DOI   ScienceOn
15 Perlack RD, Wright LL, Turhollow AF, Graham RL, Stokes BJ,Erbach DC, OAK RIDGE NATIONAL LAB TN (2005). Biomass as feedstock for a bioenergy and bioproducts industry:the technical feasibility of a billion-ton annual supply, DOE/GO-102005-2135,Oak Ridge National Laboratory, Oak Ridge,Tennessee.
16 McLaughlin SB. Forage (1997) Crops as bioenergy fuels: evaluating the status and potential. In: XVIII international grassland congress
17 Petrulis M, Sommer J, Hines F (1993) Ethanol production and employment. Agriculture information bulletin No.678, U.S.Department of Agriculture Economic Research Service
18 U.S. Congress (2000) Biomass Research and Development Act of 2000, Pub. L.106-224, Sections 301-310
19 Clifton-Brown JC, Stampfl PF, Jones MB (2004) Miscanthus biomass production for energy in Europe and its potential contribution to decreasing fossil fuel carbon emissions. Global Change Biology 10(4):509-518   DOI   ScienceOn
20 Lewandowski I, Scurlock JMO, Lindvall E, Christou M (2003)The development and current status of potential rhizomatous grasses as energy crops in the US and Europe. Biomass and Bioenergy 25(4):335-361   DOI   ScienceOn
21 McLaughlin SB, Kszos LA (2005) Development of switchgrass (Panicum virgatum) as a bioenergy feedstock in the United States. Biomass and Bioenergy 28:515-535   DOI   ScienceOn
22 American Society of Plant Biologists (2005) President Bush cites importance of plant-based biofuels. ASPB News 32(4):16-17
23 Lewandowski I, Clifton-Brown JC, Scurlock JMO, Huisman W(2000) Miscanthus: European experience with a novel energy crop. Biomass and Bioenergy 19(4):209-227   DOI   ScienceOn
24 Bothast RJ, Schlicher MA (2005) Biotechnological processes for conversion of corn into ethanol. Appl Microbiol Biotechnol 67:19-25   DOI   ScienceOn