1 杨京平.1995.作物种植制度计算机模型与系统分析的研究动态与现状.生态学杂志,14(6):57~62.2 杨京平等.1993.江苏丹阳市作物及种植制度气候产量潜力的计算机模拟与分析.南京农业大学学报, 1(1):7~12.3 沈思渊.1990.作物产量的模拟模型.应用生态学报,1(3):270~276.4 郑志明等.1994.水稻氮肥管理的ORYZA-0模型之理论及验证.浙江农业大学学报,20(6):611~616.5 高亮之、金之庆等.1992.水稻栽培计算机模拟优化决策系统.北京:中国农业科技出版社.124~134.6 戚昌翰等.1989.水稻生长日历模拟模型与应用研究.江西农业大学学报,增刊:8~15.7 潘德云等.1991.早籼稻生长发育和分蘖动态与潜在产量的模拟及其应用.浙江农业大学学报,增刊7:1~10.8 潘学标等.1991.春播中棉生长与潜在产量模拟研究简报.浙江农业大学学报,增刊7:95~97.9 潘德云等.1991.华东迟熟晚粳稻感光性与生育期和潜在生产量的模拟.浙江农业大学学报,增刊7:30~36.10 潘德云等.1991.用计算机模拟模型制定水稻栽培农艺措施的研究.浙江农业大学学报,增刊7:97~99.11 J.法朗士、J.H.M.索恩利著(金之庆等译).1991.农业中的数学模型.北京:农业出版社.12 F.W.T.彭宁德弗里斯等著(王馥棠等译).1988.植物生长与作物生产的模拟.北京:科学出版社.10~45.13 Aggarwal,P.K.& Penning de Vries.F.W.T. 1989. Potential and water-limited wheat yields in rice based cropping systems in southeast Asia. Agric. Syst., 30:49~69.14 Aggarwal, P.K. & Kropff, M.J. 1996. The challenge of integrating systems approach in plant breeding: opportunity, accomplishments and limitations. In: Kropff,M.J. et al. eds.Application of Systems Approaches at the Field Levels. Kluwer Academic Publisher. 1~24.15 Baker, C.H. & Curry,R.B. 1976. Structure of agricultural simulation: a philosophic view. Agric. Syst., 1:201~218.16 Bouman,B.A.M. & van Keulen, H. et al. 1996. The‘School of de Wit' crop growth simulation models: A pedigree and historical overview. Agric. Syst.,52(2-3):171~198.17 Carberry, P.S., Muchow, R.C. et al. 1993. A simulation model of kenaf for assisting fibre industry planning in northern Australia. IV. Analysis of climatic risk. Austr. J. Agri. Res., 44: 713~730.18 Dash, R.N. & Rao, K.S. 1996. Optimization of nitrogen fertilizer application to irrigated rice. In:Kropff,M.J. et al. Application of Systems Approaches at the Field Level. Kluwer Academic Publishers. 259~270.19 de Wit, C.T. 1965. Photosynthesis of leaf canopies. Agricultural research report 663. PUDOC, Wageningen, The Netherlands, 57p.20 de Wit, C.T. et al.1978. Simulation of assimilation, respiration and transpiration of crops. Wageningen: Pudoc.21 Dent, J. B. 1993. Potential for systems simulation in farming systems research. In:Systems Approaches for Agricultural Development. Kluwer Academic Publishers. 325~339.22 Dingkukn, M., Penning de Vries,F.W.T. et al. 1991. Concept for a new plant type for direct seeded flooded tropical rice. In: Direct Seeded Flooded Rice in the Tropics. Selected papers from the International Rice Research Institute, P.O. Box 933, Manila, Philippines. 17~38.23 Dingkuhn, M., Penning de Vries, F.W.T. et al. 1993. Improvement of rice plant type concepts: System research enables interaction of physiology and breeding. In: Penning de Vries,F.W.T. Teng,P. et al.eds. System Approaches for Sustainable Agricultural Development. Kluwer Academic Publishers.19~35.24 Keating, B.A. et al. 1993. Adjustment of nitrogen inputs in response to a seasonal forecast in a region of high climatic risk. In: Penning de Vries,F.W.T. et al.eds. Systems Approaches for Sustainable Agricultural Development. Kluwer Academic Publishers, The Netherlands. 233~252.25 Keulen, H. van.1976. Evaluation of model. In: Arnold,G.W. & de Wit.C.T. eds. Critical Evaluation of Systems Analysis in Ecosystems Research and Management. Wageningen. 22~29.26 Kropff,M.J. 1993. Modelling crop-weed interactions. CAB international, Wallingford, Oxon, UK.20~66.27 Kropff,M.J. & Peng, S. et al.1994. Quantitative understanding of rice yield potential. In: Breaking the Yield Barrier. eds. Cassman. IRRI, Philippines.5~20.28 Mattews, R.B. & Kropff, M.J. 1995. Modeling the impact of climate change on rice production in Asia. CAB International. Wallingford, UK. 304p.29 Penning de Vries, F.W.T. 1977. Evaluation of simulation models in agriculture and biology: conclusions of workshop. Agric. Syst., 2:99~107.30 Penning de Vries, F.W.T. et al. 1989. Simulation of ecophysiological processes in several annual crops. Simulation Monographs, PUDOC, Wageningen, The Netherlands.31 Penning de Vries, F.W.T. et al. 1991. Improving yield: Designing and testing VHYVs. In:Systems Simulation at IRRI. IRRI Res. Pap. Ser. 151, P.O. Box 933, Manila, Philippines.32 Riethoven, J.J. M. 1994. The SARP-SHELL, A crop growth simulation environment. Research Institute for Agrobiology and Soil Fertility(AB-DLO). Wageningen,The Netherlands.33 Rubia, E.G. & Penning de Vries.F.W.T. 1990. Simulaton of yield reduction caused by stem borers in rice. J. Plant Protec.in the Tropics,7(2):87~102.34 Steiner, J.L. et al. 1987. Evaluation of the EPIC simulation model using a dryland-sorghum-fallow crop rotation. Agron. J., 79:732~738.35 Tasi, T.T. 1987. Optimizing multiple cropping systems: simulation studies. Agric. Syst., 25:165~176.36 ten Berge, H.F.M. et al.1994. The ORYZA-0 Model applied to optimize nitrogen use in rice. In: ten Berge,H.F.M. et al. eds. Nitrogen Economy of Irrigated Rice: Field and Simulation Studies. Wageningen, The Netherlands.37 Timsina, J.,Singh,U. and Singh, Y.1996. Addressing sustainability of rice-wheat systems: analysis of long-term experimentation and simulation. In:Kropff, M.J. et al.eds. Application of Systems Approaches at the Field Level. London: Kluwer Academic Publisher. 335~356.38 Ungar, E. D. 1990. Management of agropastoral systems in a semiarid region. Simulation Monographs. PUDOC. Wageningen, The Netherlands. |