[1]SUN Dong-yuan,ZHAO Cheng-yi,WANG Li-juan,et al.Progress in the Study on Architecture of Desert Plants[J].Research of Soil and Water Conservation,2011,18(05):281-287.
Copy

Progress in the Study on Architecture of Desert Plants

References:
[1] Godin C.Representing and encoding plant architecture:A review[J].Annales of Forest Sciences,2000,57:413-438.
[2] Sussex L M,Kerk N M.The evolution of plant architecture[J].Current Opinion in Plant Biology,2001,4:33-37.
[3] 杨曙辉,丛者福,魏岩,等.梭梭植冠的构筑型分析[J].新疆农业科学,2006,43(1):6-10.
[4] 何玉惠,赵哈林,赵学勇,等.沙埋对小叶锦鸡儿幼苗生长和生物量分配的影响[J].干旱区地理,2008,31(5):701-706.
[5] 周智彬,李培军.我国旱生植物的形态解剖学研究[J].干旱区研究,2002,19(1):35-40.
[6] 张道远,杨维康,潘伯荣,等.刚毛柽柳群落特征及其生态、生理适应性[J].中国沙漠,2003,23(4):446-451.
[7] 常兆丰,仲生年,韩福贵,等.民勤沙区主要植物群落退化特征及其演替趋势分析[J].干旱区研究,2008,25(3):382-388.
[8] 陶冶,刘彤,贾亚敏,等.古尔班通古特沙漠南缘心叶驼绒藜和梭梭种群空间格局的分形特征[J].干旱区地理,2008,31(3):365-372.
[9] 常杰,陈刚,葛滢.植物结构的分形特征及模拟[M].杭州:杭州大学出版社,1995.
[10] Harper J L.Plant demography and evolutionary theory[J].Oikos,1980,35:244-253.
[11] Harper J L.The concept of population in modular organisms[M]//May R.Theoretical Ecology:Priciples and Applications.2nd Ed.Oxford:Blackwell,1981:53-77.
[12] Harper J L,Bell A D.The population dynamics of growth form in organisms with modular growth[M]//Anderson R M,Turner B D,Taylor L R.Population Dynamics.Oxford:Blackwell Scientific Publications,1979:29-52.
[13] 钟章成.我国植物种群生态研究的成就与展望[J].生态学杂志,1992,11(1):4-8.
[14] Maillette L.Plasticity of modular reiteration in Potentilla anserina[J].J.Ecol.,1992,80:231-239.
[15] 黎云祥,刘玉成,钟章成.植物种群生态学中的构件理论[J].生态学杂志,1995,14(6):35-41.
[16] Bazzaz F A,Harper J L.Demographyic analysis of the growth of Linum usitassimum[J].New Phytol.,1977,78:193-208.
[17] Maillette L.Modular demography and growth patterns of two annual weeds (Chenopodiym album L.and Spergula arvensis L.) in relation to flowering[M]//Haper J L,White J.Studies on plant demography.London:Academic Press,1985:239-255.
[18] McGraw J B,Garbott K.Demographic growth analysis[J].Ecology,1990,71:1190-2004.
[19] 朱志红,王刚.不同放牧强度下矮嵩草(Kobresiahumilis)无性系分株种群的动态与调节[J].生态学报,1994,14(1):40-45.
[20] Lovett D L,Loveet D J.Leaf demography and clonal growth in female and male Rumex acetosella[J].Ecology,1987,68:2056-2058.
[21] Maillette L.Effects of bud demography and elongation patterns on Betula cordifolia near the tree line[J].Ecology,1987,68(5):1251-1261.
[22] Tomlinson P B.Architecture of tropical plants[J].Annual Review of Ecology and Systematic,1987,18:1-21.
[23] Schmid B.Some ecological and evolutionary consequences of modular organization and clonal growth in plants[J].Ecolutonary Trends in Plants,1990,4(1):25-34.
[24] 孙书存,陈灵芝.不同生境中辽东栎的构型差异[J].生态学报,1999,19(3):359-364.
[25] Nitta I,Ohsawa M.Bud structure and shoot architecture of canopy and understory evergreen trees at their northern limit in East Asia[J].Ann.Bot.,1998,81:115-129.
[26] Sprugel D G,Hinckley T M,Schaap W.The theory and practice of branch autonomy[J].Ann.Rev.Ecosyst.,1991,22:309-334.
[27] 黎云祥,陈利,杜道林,等.四川大头茶的分枝率和顶芽动态[J].生态学报,1998,18(3):309-314.
[28] Glimskar A.Estimates of root system topology of five plant species grown at steady-state nutrition[J].Plant and Soil,2000,227:249-256.
[29] Dannowski M,Block A.Fractal geometry and root system structures of heterogeneous plant communities[J].Plant and Soil,2005,272:61-76.
[30] 蒋礼学,李彦.三种荒漠灌木根系的构形特征与叶性因子对干旱生境的适应性比较[J].中国沙漠,2008,26(6):1118-1124.
[31] 杨小林,张希明,李义玲,等.塔克拉玛干沙漠腹地3种植物根系构型及其生境适应策略[J].植物生态学报,2008,32(6):1268-127.
[32] Ohsawa M,Nitta I.Patterning of subtropical temperature evergreen broad-leaved forest in Asian mountains with special reference to shoot ecology[J].Tropical,1997,6(4):317-334.
[33] 胡包钢.Plant growth modeling and applications[M].北京:清华大学出版社,2003.
[34] 陈波,宋永昌,达良俊.木本植物的构型及其在植物生态学研究的进展[J].生态学杂志,2002,21(3):52-56.
[35] Halle F,Oldeman R A,Tomlinson P B.Tropic Trees and Forestry,an Architecture Analysis[M].Berlin:Springer-Verlag,1978.
[36] 钟章成,曾波.植物种群生态研究进展[J].西南师范大学学报:自然科学版,2001,26(2):230-236.
[37] 王本楠,谢海生,顾连宏.植物生长模型与形态的数理研究方法[M].北京:学术书刊出版社,1990.
[38] 孙书存,陈灵芝.辽东栎枝冠的构型分析[J].植物生态学报,1999,23(5):433-440.
[39] 徐程扬.不同光环境下紫椴幼树植冠结构的可塑性响应[J].应用生态学报,2001,13(3):339-343.
[40] 李俊清,臧润国,蒋有绪.欧洲水青冈(Fagus sylvatical L.)构筑型与形态多样性研究[J].生态学报,2001,21(1):151-155.
[41] 张道远,王红玲.荒漠区几种克隆植物生长构型的初步研究[J].干旱区研究,2005,22(2):219-224.
[42] 徐莉,王丽,岳明,等.新疆阜康荒漠红砂种群构件结构与环境因子的灰色关联度分析[J].植物生态学报,2003,27(6):742-748.
[43] 何明珠,王辉,张景光.民勤荒漠植物枝系构型的分类研究[J].西北植物学报,2005,25(9):1827-1832.
[44] 何明珠,张景光,王辉.荒漠植物枝系构型影响因素分析[J].中国沙漠,2006,26(4):625-630.
[45] Suzuki T.A representation method for todo-fir shapes using computer graphics[J].J.Jpn.For.Soc.,1992,74(6):504-508.
[46] 刘艳艳.樟子松人工林树冠结构的研究[D].哈尔滨:东北林业大学,2005.
[47] 马克明,祖元刚.兴安落叶松分枝格局的分形特征[J].植物研究,2000,20(2):236-240.
[48] Cornelissen J H C.Aboveground morphology of shade-tolerant Castanopsis fargesii saplings in response to light environment [J].Int.J.Plant Sci.,1993,154(4):481-495.
[49] Kuppers,M.Ecological significance of aboveground architectural patterns in woody plants:a question of cost-benefit relationships[J].Trends.Ecol.Evol.,1989,4(12):375-379.
[50] Maillette L.Structure dynamics of silver birch:I.the fate of buds[J].J.Appl.Ecol.,1982,19:203-218.
[51] 郭焱,李保国.虚拟植物的研究进展[J].科学通报,2001,46(4):273-280.
[52] 赵星,Philippe de Reffye,熊范纶,等.虚拟植物生长的双尺度自动机模型[J].计算机学报,2001,24(6):608-615.
[53] 康孟珍,Philippe de Reffye,胡包钢.快速构造植物几何结构的子结构算法[J].中国图象图形学报,2004,9(1):79-86.
[54] 姚桃峰,王润元,王燕,等.中国小麦生长模拟模型研究概述[J].干旱气象,2009,27(1):66-72.
[55] 徐寿军,顾小莉,王志刚,等.我国主要作物生长模拟模型研究进展[J].内蒙古民族大学学报:自然科学版,2005,20(4):414-420.
Similar References:

Memo

-

Last Update: 1900-01-01

Online:823       Total Traffic Statistics:27498854

Website Copyright: Research of Soil and Water Conservation Shaanxi ICP No.11014090-10
Tel: 029-87012705 Address: Editorial Department of Research of Soil and Water Conservation, No. 26, Xinong Road, Yangling, Shaanxi Postcode: 712100