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  • Baskaran LM, Jager HI, Schweizer PE, Srinivasan R (2009) Use of the SWAT model to evaluate the sustainability of bioenergy production at a National scale. Proceedings of the 2009 5th International SWAT Conference, August 5–7, 2009, Boulder, Colorado.
  • Berdahl JD, Frank AB, Krupinsky JM, Carr PM, Hanson JD, Johnson HA (2005) Biomass yield, phenology and survival of diverse cultivars and experimental strains in western North Dakota. Agronomy Journal, 97, 549555.
  • Bouton JH (2002) Bioenergy crop breeding and production research in the southeast. Final report for 1996 to 2001. ORNL/SUB-02-19XSV810C/01. Available at http://www.osti.gov/bridge/ (accessed 7 January 2010).
  • Burnham KP, Anderson DR (2002) Model Selection and Multi-Model Inference: A Practical Information-Theoretic Approach, 2nd edn. Springer-Verlag, New York, NY, USA.
  • Brown RA, Rosenberg NJ, Hays CJ, Easterling WE, Mearns LO (2000) Potential production and environmental effects of switchgrass and traditional crops under current and greenhouse-altered climate in the central United States: a simulation study. Agricultural Ecosystems and Environment, 78, 3147.
  • Casler MD, Boe AR (2003) Cultivar × environment interactions in switchgrass. Crop Science, 43, 22262233.
  • Casler MD, Vogel KP, Taliaferro CM, Wynia RL (2004) Latitudinal adaptation of switchgrass populations. Crop Science, 44, 293303.
  • Cassida KA, Muir JP, Hussey MA, Read JC, Venuto BC, Ocumpaugh WR (2005) Biomass yield and stand characteristics of switchgrass in south central U.S. environments. Crop Science, 45, 673681.
  • Daly C, Neilson RP, Phillips DL (1994) A statistical-topographic model for mapping climatological precipitation over mountanious terrain. Journal of Applied Meteorology, 33, 140158.
  • Davis E (2007) Evaluating potential U.S. cellulosic feedstocks and ethanol production as a substitute for petroleum and gasoline. Master of Science Thesis. Sustainable Energy Planning and Management, Aalborg University, Denmark.
  • Evers EW, Parsons MJ (2003) Soil type and moisture level influence on Alamo switchgrass emergence and seedling growth. Crop Science, 43, 288294.
  • Fike JH, Parrish DJ, Wolf DD, Balasko JA, Green JT, Rasnake M, Reynolds JH (2006) Switchgrass production for the upper southeastern USA: influence of cultivar and cutting frequency on biomass yields. Biomass and Bioenergy, 30, 207213.
  • Fuentes RC, Taliaferro CM (2002) Biomass yield stability of switchgrass cultivars. In: Trends in New Crops and New Uses (eds JanickJ, WhipkeyA), pp. 276282. American Society for Horticultural Sciences (ASHS) Press, Alexandria, VA. Available at http://www.hort.purdue.edu/newcrop/ncnu02/v5-toc.html#biomass
  • Graham RL, English BC, Noon CE (2000) A geographic information system-based modeling system for evaluating the cost of delivered energy crop feedstock. Biomass and Bioenergy, 18, 309329.
  • Grassini P, Hunt E, Mitchell RB, Weiss A (2009) Simulating switchgrass growth and development under potential and water-limiting conditions. Journal of Agronomy, 101, 564571.
  • Gunderson CA, Davis EB, Jager HI et al. (2008) Exploring potential U.S. switchgrass production for cellulosic ethanol, ORNL/TM-2007/183. Available at OSTI #936551.
  • Heaton E, Voigt T, Long SP (2004) A quantitative review comparing the yields of two candidates C-4 perennial biomass crops in relation to nitrogen, temperature and water. Biomass and Bioenergy, 27, 2130.
  • Heaton EA, Dohleman FG, Long SP (2008) Meeting US biofuel goals with less land: the potential of Miscanthus. Global Change Biology, 14, 20002014.
  • Hitchcock AS (1971) Manual of Grasses of the United States, Vol. II. Dover Publications Inc., New York, NY.
  • Jager H, Hargrove WW, King AW, Olson RJ, Brandt CC, Scurlock JMO, Rose KA (2000) Constructive contrasts between modeled and measured climate responses over a regional scale. Ecosystems, 3, 396411.
  • Kheshgi H.S, Princes RC, Marland G (2000) The potential of biomass fuels in the context of global climate change: focus on transportation fuels. Annual Review of Energy and the Environment, 25, 199244.
  • Kiniry JR, Cassida KA, Hussey MA (2005) Switchgrass simulation by the ALMANAC model at diverse sites in the southern US. Biomass and Bioenergy, 29, 419425.
  • Kiniry JR, Sanderson MA, Williams JR (1996) Simulating Alamo switchgrass with the ALMANAC model. Agronomy Journal, 88, 602606.
  • Lee DK, Boe A (2005) Biomass production of switchgrass in central South Dakota. Crop Science, 45, 25832590.
  • Lemus R, Brummer EC, Moore KJ, Molstad NE, Burras CL, Barker MF (2002) Biomass yield and quality of 20 switchgrass populations in southern Iowa, USA. Biomass and Bioenergy, 23, 433442.
  • Lewandowski I, Scurlock JMO, Lindvall E, Christou M (2003) The development and current status of perennial rhizomatous grasses as energy crops in the US and Europe. Biomass and Bioenergy, 25, 335361.
  • Littell RC, Milliken GA, Stroup WW, Wolfinger RD (1996) SAS System for Mixed Models. SAS Institute Inc., Cary, NC.
  • Madakadze IC, Coulman BE, Peterson P, Stewart KA, Samson R, Smith DL (1998) Leaf area development, light interception, and yield among switchgrass populations in a short-season area. Crop Science, 38, 827834.
  • Madakadze IC, Stewart KA, Peterson PR, Coulman BE, Smith DL (1999) Cutting frequency and nitrogen fertilization effects on yield and nitrogen concentration of switchgrass in a short season area. Crop Science, 39, 552557.
  • McLaughlin SB, Kszos LA (2005) Development of switchgrass (Panicum virgatum) as a bioenergy feedstock in the United States. Biomass and Bioenergy, 28, 515535.
  • McLaughlin SB, Walsh ME (1998) Evaluating environmental consequences of producing herbaceous crops for bioenergy. Biomass and Bioenergy, 14, 317324.
  • Muir JP, Sanderson MA, Ocumpaugh WR, Jones RM, Reed RL (2001) Biomass production of ‘Alamo’ switchgrass in response to nitrogen, phosphorus, and row spacing. Agronomy Journal, 93, 896901.
  • Nelson RG, Ascough JC, Langemeier MR (2006) Environmental and economic analysis of switchgrass production for water quality improvement in northeast Kansas. Journal of Environmental Management, 79, 336347.
  • Parrish DJ, Fike JH (2005) The biology and agronomy of switchgrass for biofuels. Critical Reviews in Plant Sciences, 24, 423459.
  • Peters RH (1980) Useful concepts for predictive ecology. Synthese, 43, 257269.
  • Pinheiro JC, Bates DM (2000) Mixed-Effect Models in S and S-PLUS. Springer-Verlag, New York, NY.
  • Ragauskas AJ, Williams CK, Davidson BH (2006) The path forward for biofuels and biomaterials. Science, 311, 484489.
  • Sanderson MA, Read JC, Reed RL (1999a) Harvest management of switchgrass for biomass feedstock and forage production. Agronomy Journal, 91, 510.
  • Sanderson MA, Reed RL, McLaughlin SB (1996) Switchgrass as a sustainable bioenergy crop. Bioresource Technology, 56, 8393.
  • Sanderson MA, Reed RL, Ocumpaugh WR (1999b) Switchgrass cultivars and germplasm for biomass feedstock production in Texas. Bioresource Technology, 67, 209219.
  • Sanderson MA, Reed RL (2000) Switchgrass growth and development: water, nitrogen, and plant density effects. Journal of Range Management, 53, 221227.
  • Sanderson MA, Schnabel RR, Curran WS, Stout WL, Genito D, Tracy B F (2004) Switchgrass and big bluestem hay, biomass, and seed yield response to fire and glyphosate treatment. Agronomy Journal, 96, 16881692.
  • Sladden SE, Bransby DI, Aiken GE (1991) Biomass yield, composition and production costs for 8 switchgrass varieties in Alabama. Biomass and Bioenergy, 1, 119122.
  • Smith P, Powlson DS, Smith JU, Falloon P, Coleman K (2000) Meeting Europe's climate change commitments: quantitative estimates of the potential for carbon mitigation by agriculture. Global Change Biology, 6, 525539.
  • Thomason WE, Raun WR, Johnson GV, Taliaferro CM, Freeman KW, Wynn KJ, Mullen RW (2004) Switchgrass response to harvest frequency and time and rate of applied nitrogen. Journal of Plant Nutrition, 27, 11991226.
  • Thomson AM, Izarrualde RC, West TO, Parrish DJ, Tyler DD, Williams JR (2009) Simulating potential switchgrass production in the United States, PNNL-19072, 20 pp.
  • USDA (United States Department of Agriculture, soil conservation service) (1992), STATSGO-State Soils Geographic Database, Soil Conservation Service, Washington, DC.
  • Wullschleger SD, Davis EB, Borsuk ME, Gunderson CA, Lynd LR (2010) Biomass production in switchgrass across the United States: database description and determinants of yield. Agronomy Journal, 102, 11581168.