Agriculture Reference
In-Depth Information
16. van Ouweker EN, James DE, Richard TL, Liebman M (2003) A multi-model approach for
sustainable agriculture in the US corn belt. In: Proceedings of the 2003 ASAE annual inter-
national meeting, July, Las Vegas, NV
17. Shastri YN, Hansen AC, Rodriguez LF, Ting KC (2011) Development and application of
BioFeed model for optimization of herbaceous biomass feedstock production. Biomass
Bioenergy 35(7):2961-2974
18. Shim JP, Warkentin M, Courtney JF, Power DJ, Sharda R, Carlsson C (2002) Past, present,
and future of decision support technology. Decis Support Syst 33(2):111-126
19. Fabbi KP (1998) A methodology for supporting decision making in integrated coastal zone
management. J Ocean Coast Manag 39(1-2):51-62
20. van Ouweker EN (ed) (2008) I-FARM—a tool for farmers and decision-makers. Iowa State
University, Ames, IA
21. Humphris S, Long S (1995) WIMOVAC: a software package for modeling the dynamics of
plant leaf and canopy photosynthesis. Comput Appl Biosci 11(4):361-371
22. Cushman JH, Easterly JL, Erbach DC et al (eds) (2003) Roadmap for agriculture biomass
feedstock supply in the United States. U.S. Department of Energy, Energy Effi ciency and
Renewable Energy. U.S. Department of Energy Offi ce of Energy Effi ciency and Renewable
Energy Biomass Program, Washington, DC
23. Lowrance R, Hendrix PF, Odum EP (1984) A hierarchical approach to sustainable agricul-
ture. Am J Altern Agric 1(4):169-173
24. Kropff MJ, Bouma J, Jones JW (2001) Systems approaches for the design of sustainable
agro-ecosystems. Agric Syst 70(2-3):369-393
25. Surendran Nair S, Kang S, Zhang X, Miguez FE, Izaurralde RC, Post WM et al (2012)
Bioenergy crop models: descriptions, data requirements, and future challenges. GCB
Bioenergy 4(6):620-633
26. Miguez F, Dietze M, Kemanian A (2011) Modeling tools and strategies for developing sus-
tainable feedstock supplies. Sustainable feedstocks for advanced biofuels: sustainable alter-
native fuel feedstock opportunities, challenges and roadmaps for six U.S. regions. Soil and
Water Conservation Society, Ankeny, IA
27. Grassini P, Hunt E, Mitchell RB, Weiss A (2009) Simulating switchgrass growth and devel-
opment under potential and water-limiting conditions. Agron J 101:564-571
28. Jager HI, Baskaran LM, Brandt CC, Davis EB, Gunderson CA, Wullschleger SD (2010)
Empirical geographic modeling of switchgrass yields in the United States. GCB Bioenergy
2(5):248-257
29. Williams JR (1990) The erosion-productivity impact calculator (EPIC) model: a case history.
Philos Trans Biol Sci 329(1255):421-428
30. 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. Agric Ecosyst Environ 78(1):31-47
31. Kang S, Nair SS, Kline KL, Nichols JA, Wang D, Post WM et al (2014) Global simulation of
bioenergy crop productivity: analytical framework and case study for switchgrass. GCB
Bioenergy 6(1):14-25
32. Kiniry J, Williams J, Gassman P, Debaeke P (1992) A general, process-oriented model for
two competing plant species. Trans ASAE 35(3):801-810
33. Williams J, Jones C, Kiniry J, Spanel DA (1989) The EPIC crop growth model. Trans ASAE
32(2):497-511
34. Kiniry J, Sanderson M, Williams JR, Tischler C, Hussey M, Ocumpaugh W et al (1996)
Simulating Alamo Switchgrass with the ALMANAC model. Agron J 88(4):602-606
35. Kiniry JR, Tischler CR, Van Esbroeck GA (1999) Radiation use effi ciency and leaf CO
2
exchange for diverse C
4
grasses. Biomass Bioenergy 17:95-112
36. Kiniry JR, Cassida KA, Hussey MA, Muir JP, Ocumpaugh WR, Read JC et al (2005)
Switchgrass simulation by the ALMANAC model at diverse sites in the southern US.
Biomass Bioenergy 29(6):419-425
Search WWH ::
Custom Search