[1]曹宏鑫, 石春林, 金之庆. 植物形态结构模拟与可视化研究进展. 中国农业科学, 2008, 41(3): 669-677.Cao H X, Shi C L, Jin Z Q. Advances in researches on plant morphological structure simulation and visualization. Scientia Agricultura Sinica, 2008, 41(3): 669-677. (in Chinese) [2]Fournier C, Andrieu B, Ljutovac S, Saint-Jean S. ADEL-wheat: a 3D architectural model of wheat development//International Symposium on Plant Growth Modeling, Simulation, Visualization and Their Applications, 2003: 54-63.[3]雷晓俊, 汤 亮, 张永会, 姜海燕, 曹卫星, 朱 艳. 小麦麦穗三维几何模型构建与可视化研究. 农业工程学报, 2011, 27(3): 179-184.Lei X J, Tang L, Zhang Y H, Jiang H Y, Cao W X, Zhu Y. 3D geometric model and visualization of wheat spike. Transactions of the CSAE, 2011, 27(3): 179-184. (in Chinese)[4]Fournier C, Andrieu B. A 3D model of maize development. Annals of Botany, 1998, 81: 233-250.[5]杨 娟, 赵 明, 潘学标. 基于NURBS和VC++6.0的棉花生长可视化研究. 农业工程学报, 2006, 22(10): 159-162.Yang J, Zhao M, Pan X B. Visualization of cotton growth based on NURBS and VC++ 6.0. Transactions of the CSAE, 2006, 22(10): 159-162. (in Chinese)[6]Hanan J S, Hearn A B. Linking physiological and architectural models of cotton. Agricultural System, 2003, 75: 47-77.[7]Watanabe T, Hanan J S, Room P M, Hasegawa T, Nakagawa H, Takahashi W. Rice morphogenesis, plant architecture and 3d modeling. Annals of Botany, 2005, 95(7): 1131-1143. [8]石春林, 朱 艳, 曹卫星. 水稻叶曲线特征的机理模型. 作物学报, 2006, 32(5): 656-660.Shi C L, Zhu Y, Cao W X. Mechanism model for rice leaf curve character. Acta Agronomica Sinica, 2006, 32(5): 656-660. (in Chinese)[9]杨红云, 罗 威, 何火娇, 谢信楠. 水稻叶片形态三维建模与计算机模拟. 农机化研究, 2008(12): 33-36.Yang H Y, Luo W, He H J, Xie X N. Rice leaf blade 3D morphology modeling and computer simulation. Journal of Agricultural Mechanization Research, 2008(12): 33-36. (in Chinese)[10]刘宏伟, 吴 斌, 张红英, 李 芳, 邵延华. 水稻叶片几何模型及其可视化研究. 计算机工程, 2009, 35(23): 263-265.Liu H W, Wu B, Zhang H Y, Li F, Shao Y H. Research on rice leaf geometric model and its visualization. Computer Engineering, 2009, 35(23): 263-265. (in Chinese)[11]李云梅, 王人潮, 王秀珍, 沈掌泉. 椭圆分布函数模拟水稻冠层叶倾角分布. 生物数学学报, 2003, 18(1): 105-108.Li Y M, Wang R C, Wang X Z, Shen Z Q. Simulating rice leaf angle inclination distribution by elliptical distribution function. Journal of Biomathematics, 2003, 18(1): 105-108. (in Chinese)[12]常丽英. 水稻植株形态建成的模拟模型研究[D]. 南京: 南京农业大学, 2007: 69-80.Chang L Y. Studies on simulation model of morphological development in rice plant [D]. Nanjing: Nanjing Agricultural University, 2007: 69-80. (in Chinese)[13]Zhu Y, Chang L Y, Tang L, Jiang H Y, Zhang W Y, Cao W X. Modeling leaf shape dynamics in rice. NJAS - Wageningen Journal of Life Sciences, 2009, 57(1): 73-81.[14]刘 岩, 陆建飞, 曹宏鑫, 石春林, 刘永霞, 朱大威, 孙金英, 岳延滨, 魏秀芳, 田平平, 包太林. 基于生物量的水稻叶片主要几何属性模型研究. 中国农业科学, 2009, 42(11): 4093-4099.Liu Y, Lu J F, Cao H X, Shi C L, Liu Y X, Zhu D W, Sun J Y, Yue Y B, Wei X F, Tian P P, Bao T L. Main geometrical parameter models of rice blade based on biomass. Scientia Agricultura Sinica, 2009, 42(11): 4093-4099. (in Chinese)[15]Tivet F, Pinheiro B D S, Raissac M D, Dinggkuhn M. Leaf dimensions of rice tillers. Annals of Botany, 2001, 88: 507-511. [16]Rinaldi M, Losavio N, Flagella Z. Evaluation and application of the OILCROP-SUN model for sunflower in southern Italy. Agricultural Systems, 2003, 78: 17-30. [17]Confalonieri R, Debellini C, Pirondini M, Possenti P, Bergamini L, Barlassina G, Bartoli A, Agostoni E G, Appiani M. A new approach for determining rice critical nitrogen concentration. Journal of Agricultural Science, 2011, 149: 633-638.[18]孟亚利. 基于过程的水稻生长模拟模型研究[D]. 南京: 南京农业大学, 2002: 34-64.Meng Y L. A process-based simulation model for rice growth[D]. Nanjing: Nanjing Agricultural University, 2002: 34-64. (in Chinese)[19]Hirose T. Development of the Monsi-Saeki theory on canopy structure and function. Annals of Botany, 2005, 95: 483-494.[20]Campbell C S, Heilman J L, Mclnnes K J, Wilson L T, Medley J C, Wu G W, Cobos D R. Seasonal variation in radiation use efficiency of irrigated rice. Agricultural and Forest Meteorology, 2001, 110: 45-54.[21]Zhang L, van der Werf W, Bastiaans L, Zhang S, Li B, Spiertz J H J. Light interception and utilization in relay intercrops of wheat and cotton. Field Crops Research, 2008, 107: 29-42.[22]Ruiz R A, Bertero H D. Light interception and radiation use efficiency in temperate quinoa (Chenopodium quinoa Willd) cultivars. European Journal of Agronomy, 2008, 29: 144-152.[23]Acreche M M, Briceno-Felix G, Martin Sanchez J A, Slafer G A. Radiation interception and use efficiency as affected by breeding in Mediterranean wheat. Field Crops Research, 2009, 110: 91-97.[24]Maddonni G A, Otegui M E. Leaf area, light interception, and crop development in maize. Field Crops Research, 1996, 48: 81-87.[25]Stewart D W, Costa C, Dwyer L M, Smith D L, Hamilton R I, Ma B L. Canopy structure, light interception, and photosynthesis in maize. Agronomy Journal, 2003, 95: 1465-1474.[26]李艳大, 汤 亮, 张玉屏, 朱相成, 曹卫星, 朱 艳. 水稻冠层光截获与叶面积和产量的关系. 中国农业科学, 2010, 43(16): 3296-3305.Li Y D, Tang L, Zhang Y P, Zhu X C, Cao W X, Zhu Y. Relationship of par interception of canopy to leaf. Scientia Agricultura Sinica, 2010, 43(16): 3296-3305. (in Chinese)[27]朱相成, 汤 亮, 张文宇, 曹梦莹, 曹卫星, 朱 艳. 不同品种和栽培条件下水稻冠层光合有效辐射传输特征. 中国农业科学, 2012, 45(1): 34-43.Zhu X C, Tang L, Zhang W Y, Cao M Y, Cao W X, Zhu Y. Transfer characteristics of canopy photo-synthetically active radiation in different rice cultivars under different cultural conditions. Scientia Agricultura Sinica, 2012, 45(1): 34-43. (in Chinese) |