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  • Amalraj V.A. & Balasundaram N. (2006) On the taxonomy of the members of ‘saccharum complex’. Genetic Resources and Crop Evolution, 53, 35-41.
  • Beale C.V., Bint D.A. & Long S.P. (1996) Leaf photosynthesis in the c-4-grass miscanthus x giganteus, growing in the cool temperate climate of southern england. Journal of Experimental Botany, 47, 267-273.
  • Burner D.M., Tew T.L., Harvey J.J. & Belesky D.P. (2009) Dry matter partitioning and quality of miscanthus, panicum, and saccharum genotypes in arkansas, USA. Biomass and Bioenergy, 33, 610-619.
  • Christian D.G., Riche A.B. & Yates N.E. (2008) Growth, yield and mineral content of miscanthus x giganteus grown as a biofuel for 14 successive harvests. Industrial Crops and Products, 28, 320-327.
  • Clifton-Brown J.C., Breuer J. & Jones M.B. (2007) Carbon mitigation by the energy crop, miscanthus. Global Change Biology, 13, 2296-2307.
  • Clifton-Brown J.C., Lewandowski I., Andersson B., Basch G., Christian D.G., Kjeldsen J.B., Jorgensen U., Mortensen J.V., Riche A.B., Schwarz K.-U., Tayebi K. & Teixeira F. (2001) Performance of 15 miscanthus genotypes at five sites in europe. Agron Journal, 93, 1013-1019.
  • Cosentino S.L., Patane C., Sanzone E., Copani V. & Foti S. (2007) Effects of soil water content and nitrogen supply on the productivity of miscanthus x giganteus greef et deu. In a mediterranean environment. Industrial Crops and Products, 25, 75-88.
  • DOE (2006) Breaking the biological barriers to cellulosic ethanol: A joint research agenda (DOE/SC-0095)U.S. Department of Energy Rockville Maryland.
  • Heaton E.A. (2006) The comparative agronomic potential of miscanthus x giganteus and panicum virgatum as energy crops in illinois, University of Illinois.
  • Heaton E.A., Clifton-Brown J., Voigt T.B., Jones M.B. & Long S.P. (2004) Miscanthus for renewable energy generation: European union experience and projections for illinois. Mitigation and Adaptation Strategies for Global Change, 9, 433-451.
  • Heaton E.A., Dohleman F.G. & Long S.P. (2008a) Meeting us biofuel goals with less land: The potential of miscanthus. Global Change Biology, 14, 2000-2014.
  • Heaton E.A., Dohleman F.G. & Long S.P. (2009) Seasonal nitrogen dynamics of miscanthus×giganteus and panicum virgatum. Global Change Biology Bioenergy, 1, 297-307.
  • Heaton E.A., Flavell R.B., Mascia P.N., Thomas S.R., Dohleman F.G. & Long S.P. (2008b) Herbaceous energy crop development: Recent progress and future prospects. Current Opinion in Biotechnology, 19, 202-209.
  • Hodkinson T.R., Chase M.W., Takahashi C., Leitch I.J., Bennett M.D. & Renvoize S.A. (2002) The use of DNA sequencing (its and trnl-f), aflp, and fluorescent in situ hybridization to study allopolyploid miscanthus (poaceae). American Journal of Botany, 89, 279-286.
  • Jensen E., Thomas-Jones S., Farrar K., Clifton-Brown J. & Donnison I. (2008) Unravelling the genetic control of flowering time in the bioenergy grass miscanthus. Comparative Biochemistry and Physiology a-Molecular & Integrative Physiology, 150, S181-S181.
  • Jones M.B. & Walsh M. (2001) Miscanthus for energy and fibre. James and James Ltd., London.
  • Khanna M., Dhungana B. & Clifton-Brown J. (2008) Costs of producing miscanthus and switchgrass for bioenergy in illinois. Biomass and Bioenergy, 32, 482-493.
  • Lewandowski I., Clifton-Brown J.C., Andersson B., Basch G., Christian D.G., Jorgensen U., Jones M.B., Riche A.B., Schwarz K.U., Tayebi K. & Teixeira F. (2003) Environment and harvest time affects the combustion qualities of miscanthus genotypes. Agronomy Journal, 95, 1274-1280.
  • Lewandowski I., Clifton B.J.C., Scurlock J.M.O. & Huisman W. (2000) Miscanthus: European experience with a novel energy crop. Biomass and Bioenergy, 19, 209-227.
  • Long S.P. (1999) Environmental responses. In: C4 plant biology (eds R. Sage & r.k. monson), pp. 215-242. Kluwer Academic Press.
  • Pyter R., Voigt T.B., Heaton E.A., Dohleman F.G. & Long S.P. (2007) Giant miscanthus: Biomass crop for illinois. In: Issues in new crops and new uses (eds J. Janick & A. Whipkey), pp. 39-42. ASHS Press, Alexandria, VA.
  • Scally L., Hodkinson T.R. & Jones M.B. (2001) Origins and taxonomy of miscanthus. In: Miscanthus for energy and fibre (eds M.B. Jones & M. Walsh). James & James, London.
  • Stewart R.J., Toma Y., Fernandez F.G., Nishiwaki A., Yamada T. & Bollero G.A. (2009) The ecology and agronomy of miscanthus sinensis, a species important to bioenergy crop development, in its native range in japan: A review. GCB Bioenergy, 1, 126-153.
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