研究报告

翅果油树叶性特征的动态变化

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  • 山西师范大学生命科学学院, 临汾 041000

收稿日期: 2011-10-17

  修回日期: 2012-03-02

  网络出版日期: 2012-07-06

基金资助

山西省留学基金项目

Dynamic Changes of Traits of Leaves from Elaeagnus mollis

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  • School of Life Science, Shanxi Normal University, Linfen 041000, China

Received date: 2011-10-17

  Revised date: 2012-03-02

  Online published: 2012-07-06

摘要

以山西翼城翅果油树(Elaeagnus mollis)自然保护区的翅果油树为研究对象, 利用LI-3000A叶面积测定仪测量其单叶面积, 用Li-6400便携式光合作用测定系统测定单位叶面积饱和光合速率(Aarea), 用H2SO4-H2O2消煮法测定叶氮含量, 计算叶性参数比叶面积(SLA)、单位叶重量饱和光合速率(Amass)、光合氮利用率(PNUE)和单位重量叶氮含量(Nmass)的值, 并研究它们与径级之间的关系。结果表明: 随着翅果油树径级的增加, SLANmassAareaAmassPNUE值先下降后上升, 当翅果油树径级为7.5 cm左右时, SLANmassAareaAmassPNUE值均降到最小值, 表明径级为7.5 cm左右的翅果油树其光合能力最弱、光合氮利用率较低且生存压力较大。翅果油树叶性参数是研究翅果油树种群动态变化的有效指标, 可为研究翅果油树种群动态提供更为便捷的方法。

本文引用格式

苗艳明, 吕金枝, 毕润成, 闫桂琴 . 翅果油树叶性特征的动态变化[J]. 植物学报, 2012 , 47(3) : 257 -263 . DOI: 10.3724/SP.J.1259.2012.00257

Abstract

We investigated leaf traits of Elaeagnus mollis in the Elaeagnus mollis Nature Reserve of Yicheng County, Shanxi Province. Leaf areas were estimated with use of a Li-3000A Leaf Area Meter, and the maximum photosynthetic rate per unit area (Aarea) was measured by Li-6400 portable photosynthesis system. N content was measured by the H2SO4-H2O2 method. We also calculated the SLA, the maximum photosynthetic rate per unit mass (Amass), photosynthetic N use efficiency (PNUE) and leaf N content per unit mass (Nmass). As well, we analyzed the interaction between them and size classes. With increasing size of E. mollis, SLA, Aarea, Nmass and PNUE decreased and then increased. With size of about 7.5 cm, SLA, Aarea, Nmass and PNUE reached the minimum value, so the photosynthetic capacity and PNUE were comparatively low under this condition, and the survival pressure became greater. Leaf trait variables of E. mollis are effective targets to study population dynamics changes and are convenient for study.

参考文献

[1]毕晓丽, 洪伟, 吴承祯, 闫淑君, 蓝斌.黄山松种群统计分析[J].林业科学, 2002,38(1):61-69
[2]蔡飞.杭州西湖山区青冈种群结构和动态的研究[J].林业科学, 2002,36(3):67-72
[3]李玉霖, 崔建垣, 苏永中. 不同沙丘生境主要植物比叶面积和叶干物质含量的比较[J].生态学报,2005,25(2):304-311
[4]李永华, 罗天祥, 卢 琦, 田晓娅, 吴 波, 杨恒华. 青海省沙珠玉治沙站17种主要植物叶性因子的比较 [J].生态学报,2005,25(5):995-999
[5]李轩然, 刘琪璟, 蔡哲, 马泽清.千烟洲针叶林的SLA及叶面积指数[J].植物生态学报,2007,31(1):93-101
[6]刘任涛, 毕润成, 闫桂琴. 山西南部翅果油树种群动态与谱分析[J].植物研究,2001,27(5):550-555
[7]南京农业大学主编. 土壤农化分析[J].农业出版社,1992,:-
[8]秦永燕, 王祎玲, 张钦弟, 毕润成, 闫桂琴. 濒危植物翅果油树种群的遗传多样性和遗传分化研究. 28(4), 466-472.[J].武汉植物学研究,2010,28(4):466-472
[9]任国臣,闫桂琴, 张直峰.3种生态型翅果油树种子贮藏蛋白分析[J].西北植物学报,2010,30(6):1253-1258
[10]上官铁梁, 张峰, 毕润成.山西翅果油树灌丛的生态地理分布和群落学特征[J].植物生态学与地植物学学报,1992,16(3):283-291
[11]上官铁梁, 张峰 . 我国特有珍稀植物翅果油树濒危原因分析[J].生态学报,2001,21(3):502-505
[12]谢树莲, 凌元洁, 黄淑萍, 谢苏蜻, 李绍清, 张菊莲. 翅果油树体内矿质元素的初步研究[J].植物研究,1994,14(1):94-97
[13]
[14]闫桂琴, 赵桂仿, 胡正海,岳明. 秦岭太白红杉种群结构与动态的研究[J].应用生态学报,2001,12(6):824-828
[15]袁丽环,闫桂琴, 朱志敏. 丛枝菌根(AM) 真菌对翅果油树幼苗根系的影响[J].西北植物学报,2009,29(3):0580-0585
[16]郑淑霞,上官周平 .不同功能型植物光合特性及其与叶氮含量、比叶重的关系.[J].生态学报,2007,27(1):0171-0181
[17]张林, 罗天祥. 植物叶寿命及其相关叶性状的生态学研究进展[J].植物生态学报,2004,28(6):844-852
[18]张峰. 山西翅果油树分布区种子植物区系分析[J].植物研究,2003,23(4):478-484
[19]
[20]张峰, 上官铁梁, 李素珍.关于灌丛建模方法的改进[J].生态学杂志12,1993,12(6):67-69
[21]张峰, 上官铁梁. 翅果油树群落的数量分类[J].生态学报增刊,1994,:138-140
[22]张峰,上官铁梁.逐步聚类及其应用[J].植物生态学报,1996,20(6):561-567
[23]张峰, 上官铁梁.山西翅果油树群落的多样性研究[J].植物生态学报,1999,23(5):471-474
[24]张峰, 上官铁梁 .山西翅果油树群种间关系的数量分析[J].植物生态学报,2000,24(5):351-355
[25]张峰, 上官铁梁.山西翅果油树群落优势种群分布格局研究[J].植物生态学报,2000,24(5):590-594
[26]张峰, 韩书权, 上官铁梁 .翅果油树地理分布与生态环境关系分析. [J].山西大学学报(自然科学版),2001,24(1):86-88
[27]Flexas J, Medrano H .Drought-inhibition of photosynthesis in C3 plants:stomatal and non-stomatal limitations revisited[J].Annals of Botany,2002,89:183-189
[28]Hikosaka K, Nagamatsu D, Hiroshi SI, Hirose T . Photosynthesis–nitrogen relationships in species at different altitudes on Mount Kinabalu,Malaysia[J].Ecological Research,2002,17:305-313
[29]Luo TX, Luo J, Pan YD . Leaf traits and associated ecosystem characteristics across subtropical and timberline forests in the Gongga Mountains, Eastern Tibetan Plateau[J].Oecologia,2005,142:261-273
[30]Knowles P, Grant MC . Age and size structure analysis of engelmann spruce, population pine,loadgepole pine,and limber pine in Cororado[J].Ecology,1983,64:1-9
[31]Onoda Y, Hikosaka K, Hirose T. Allocation of nitrogen to cell walls decreases photosynthetic nitrogen-use efficiency[J].Functional Ecology,2004,18:419-425
[32]
[33]Parker A J, Peet RK.Size and age structure of conifer forest[J].Ecology,1984,65:1685-1689
[34]Poorter H, Evans JR . Photosyn thetic nitrogen-use efficiency of species that differ inherently in specific area[J].Oecologia,1998,116:26-37
[35]Takashima T, Hikosake K, Himse T.Photosynthesis or persistence: nitrogen allocation in leaves of evergreen and deciduous Quercus species[J].Plant Cell and Environment,2004,27:1047-1054
[36]Vendramini F, Diaz S, Gurvich D . Leaf traits as indicators of resource-use strategy in floras with succulent species[J].New Phytologist,,2002,154:147-157
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