[1] 张喜英.高梁根系生长发育规律及动态模拟[J].生态学杂志,1999, 18(5):65-67.
[2] 王智权,谢甫绨,王海英.不同年代大豆品种(系)根系生长动态的比较研究[J].辽宁农业科学,2006(4):9-12.
[3] 王彬.基于 L-系统果树根系的计算机模拟[J].安徽农业科学, 2008, 36(33):14820-1482.
[4] 齐波.落叶松根系生长计算模型及模拟研究[D].保定:河北农业大学,2009.
[5] 张喜英,籍贵苏.谷子根系生长发育规律及其在土壤中分布的动态模拟[J]. 华北农学报,1997,12(3):83-87.
[6] 金戈. REPS系统植物根系仿真及其对土壤热湿迁移的影响[D].武汉:华东科技大学,2004.
[7] Borg H, Grimes D W. Depth development of roots with description [J]. Trans. ASAE,1986,29:194-197.
[8] Porter J R, Klepper B, Belford R K. A model (WHTROOT) which synchronizes root growth and development with shoot development for winter wheat[J]. Plant and Soil,1986,92(1):133-145.
[9] 王鹤龄,牛俊义,孙万仓.不同生态区 8种芸芥根系生物量的初步研究[J].干旱地区农业研究,2005,23(5):41-45.
[10] Rose D A. The description of the growth of root system[J]. Plant and Soil,1983,(75):405-415.
[11] 张立桢.基于过程的棉花生长发育模拟模型[D].南京:南京农业大学,2003.
[12] 刘炳成,刘伟,刘俐华.冬小麦根系生长的三维仿真模拟[J].华中科技大学学报(自然科学版).2005,33(9):65-67.
[13] 钟南,罗锡文,秦琴.基于生长函数的大豆根系生长的三维可视化模拟[J].农业工程学报,2008.24(7):151-154.
[14] 刘永霞,岳延滨,刘岩.基于生物量的水稻根系生长动态模型[J].江苏农业学报,2011,27(4):704-709.
[15] 刘秀萍,陈丽华,宋维峰.RootTyP:描述和分析根系结构的一般性模型[J].水土保持学报,2005,6:12-15.
[16] 张聪.甘薯根系模拟及其在生物教学中的运用[D].吉林:东北师范大学,2010.
[17] Gerwitz A, Page E R. An empirical mathematical model to describe plant root system[J]. Journal of Applied Ecology,1974,11:773-782.
[18] 席本野.宽窄行栽植模式下三倍体毛白杨吸水根系的空间分布与模拟[J].浙江林学院学报,2010.27(2):259-265
[19] Zuo Q, Jie F, Zhang R A, et al. A generalized function of wheat’ s root length density distributions[J]. Vados Zone Journal,2004,3:271- 277.
[20] Mandelbrot B B, Ness J W van. Fractal properties of rain, and a fractal model[J]. Tellus,1985,37:20-232.
[21] Lindenmayer A. Mathematical model for cellular interaction in development[J].Journal of theoretical Biology,196818:280-315.
[22] 王美丽,何东健.基于 L系统的小麦根系可视化模拟研究[J]. 农机化研究,2008,3:36-39.
[23] 袁可,于显平,吕伟.基于动态生长模型的植物根系模拟研究[J]. 西南农业大学学报:自然科学版,2006.28(5):868-872.
[24] 张吴平,刘建宁,李保国.结构与功能反馈机制下根系生长向性模拟[J].农业工程学报,2009,25(supp2):110-117.
[25] Lynch J P, Nielsen K L, Davis R D, et al. SimRoot: modeling and visualization of root systems[J]. Plant and Soil,1997,188(1):139- 151.
[26] Diggle A J. Rootmap: A model in three dimensional coordinates of the growth and structure of fibrous root systems[J]. Plant and Soil, 1988,105(9):169-178.
[27] Pages L, Jordan M O, Picard D. A simulation model of the threedimensional architecture of the maize root system[J].Plant and Soil, 1989,119(9):147-154.
[28] Pages L, Vercambre G, Drouet J L, et al. Root Typ: a generic model to depict and analyze the root system architecture[J]. Plant and Soil, 2004,258(1):103-119.
[29] MeMiehael B L, UPchureh D R, Burke J J. Soil temperature derived Prediction of root density in cotton[J]. Environ. ExP. Bot, 1996,36(3):303-312.
[30] Torreano S J, Morris L A. Loblolly Pine root growth and distribution under water stress[J]. soil sci.Soc. Am .J.,1998,62:818- 827.
[31] Burke J J, UPehurch D R. Cotton rooting Patterns in relation to soil temperatures and thermal kinetic windows[J]. Agronomy Journal, 1995,87:1210-1216.
[32] Wanjura D F, Buxton D R. Hypocotyl and radicle elongation of cotton as affected by soil environment[J]. Agron.J., 1972, 64:431- 434.
[33] Ritchie J T, Godwin D C, Otter S. CERES-Wheat: a user oriented wheat yield model[R]. Preliminary documentation. Agrstars Publication No. YM- U3- 044421SC- 18892. Michigan State University, EastLansing, MI.1984.
[34] Hoogeboom G, Huck M G. ROOTSIMUV4.0- A dynamic simulation of root growth, water uptake and biomass partitioning in a soil- plant- atmosphere continuum: update and documentation[R]. Albama Agriculture experiment.station, Agronomy and Soil Dept. Ser., 1986,109.
[35] 廖荣伟,刘晶淼.作物根系形态观测方法研究进展讨论[J].气象科技,2008,36(4):429-435.
[36] 刘晶淼,安顺青,廖荣伟.玉米根系在土壤剖面中的分布研究[J].中国生态农业学报,2009,17(3):517-521.
|