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CHEN Jie, LI Yu-Shuang, PANG Li-Li, WANG Qing-Ya. Comparative Studies on Leaf Anatomical Characteristics of Setaria viridis in Different Populations in Jiangsu[J]. Plant Science Journal, 2015, 33(4): 448-457. DOI: 10.11913/PSJ.2095-0837.2015.40448
Citation: CHEN Jie, LI Yu-Shuang, PANG Li-Li, WANG Qing-Ya. Comparative Studies on Leaf Anatomical Characteristics of Setaria viridis in Different Populations in Jiangsu[J]. Plant Science Journal, 2015, 33(4): 448-457. DOI: 10.11913/PSJ.2095-0837.2015.40448

Comparative Studies on Leaf Anatomical Characteristics of Setaria viridis in Different Populations in Jiangsu

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  • Received Date: December 08, 2014
  • Published Date: August 27, 2015
  • We investigated leaf variations under different environments to reveal the differences in leaf anatomical characteristics of Setaria viridis (L.) Beauv. among 15 populations from Jiangsu Province. Using paraffin sections and improved methods, microscopic observation and measurement were performed to determine the characteristics of the epidermis and transverse section of S. viridis leaves. Coefficient of variation, principal component analysis and cluster analysis showed that 17 anatomical characteristics in the leaf epidermis and transverse section from the different populations exhibited marked variations. Among these characteristics, thickness of midrib and abaxial epidermis showed the largest coefficient of variation. Principal component analysis indicated that thickness of leaf, height and width of parallel bundles, thickness of midrib, and height and width of midrib bundle were prominent in phenotypic variations. These structural characteristics showed the transporting and supporting capacity, features of stomata and anti-adversity ability of leaves. Cluster analysis demonstrated that the 15 different populations could be classified into three groups, which matched with the population distributions. Thickness of leaf, height and width of vascular bundles, thickness of bulliform cells and stomata density increased gradually among populations on the waterside and in alkaline land, wasteland and mountainous regions with decreasing stomata size, while drought resistance increased in order. These results suggested different variations under different environments, which is of great importance to the ecological adaptability of S. viridis.
  • [1]
    何玉惠,赵哈林,刘新平,张铜会,岳广阳. 不同类型沙地狗尾草的生长特征及生物量分配[J]. 生态学杂志,2008,27(4):504-508.
    [2]
    Christos AD. Pyrithiobac reduces control of green foxtail (Setaria viridis) and bristly foxtail (Setaria verticillata) by propaquizafop[J]. Crop Prot, 2009,7(28): 616-618.
    [3]
    贾风勤,张娜,努尔买买提,纳森巴特,赖卓彦. 狗尾草和金色狗尾草种群生殖分株生物量结构及生长[J]. 生态学杂志,2014,33(1):48-52.
    [4]
    张爱武,罗素琴,刘乐乐,吴宁远,王来兵,于姝燕,张国萍. 狗尾草果实中总鞣质的提取和含量测定[J]. 内蒙古医学院学报,2012,34(1):26-29.
    [5]
    李亚男,罗丽娟.不同居群狗牙根的叶片解剖结构比较研究[J]. 草业学报,2010,19(4):149-158.
    [6]
    陆静梅,李建东. 同种不同生态环境植物解剖结构比较研究[J]. 东北师范大学学报:自然科学版,1994(3): 100-103.
    [7]
    白史且,苟文龙,张新全,泽柏,何光武,高荣,刘世贵. 不同居群假俭草叶片比较解剖学的研究[J]. 北京林业大学学报,2003,25(2):36-41.
    [8]
    王海清,徐柱,祁娟. 禾本科植物叶片比较解剖的研究进展[J]. 草原与草坪,2009(2):93-97.
    [9]
    Massimo M. Chemotaxonomic significance of leaf wax alkanes in the Gramineae[J].Biochem Syst Ecol,1996,24(1):53-64.
    [10]
    赵惠如. 国产30属禾草的叶片解剖与观察[J]. 南京师大学报,1992,15(1): 68-80.
    [11]
    Paul NP. Sequential application of soil-incorporated and post-emergence herbicides for controlling wild coat(Avena fatua L.) and green foxtail (Setaria viridis (L.) Beauv.) in spring wheat[J]. Crop Prot,1986,5(3): 209-213.
    [12]
    陈守良,金岳杏,吴竹君,盛国英.叶表皮细胞结构在国产狗尾草属(Setaria Beauv.)分组水平上的应用[J].植物研究,1958,2(5): 105-112.
    [13]
    李正理. 植物制片技术[M]. 北京:科学出版社,1987:10-15.
    [14]
    师长海,李玉欣,董宝娣,乔匀周,刘孟雨.禾本科植物叶片表皮气孔观察的样品制备方法改良[J].植物生理学通讯,2010,46(4):395-398.
    [15]
    陈守良,金岳杏,吴竹君. 禾本科叶片表皮微形态图谱[M]. 南京:江苏科学技术出版社,1988:25-48.
    [16]
    李晶,常娜宁. 植物表皮毛形态比较辨析[J]. 绿色科技,2014,5(5):68-71.
    [17]
    常雪刚,徐柱,易津,闫伟红. 6种鹅观草属植物叶片形态解剖特征比较[J]. 草地学报,2011,19(3):443-450.
    [18]
    Katia G,Maurice J. Discriminative flavonoid patterns within a preliminary collection of the Setaria italica specific complex[J]. Biochem Syst Ecol,1987,15(5):581-586.
    [19]
    李扬汉.禾本科作物的形态与解剖[M].上海:上海科技出版社,1979.
    [20]
    曹生奎,冯起,司建华,常宗强,卓玛错,席海洋,苏永红. 植物叶片水分利用效率研究综述[J].生态学报,2009,29(7):3882-3892.
    [21]
    孟庆杰,王光全,董绍锋,张丽,龚正道. 桃叶片组织解剖结构特征与其抗旱性关系的研究[J]. 干旱地区农业研究,2004,22(3):123-126.
    [22]
    李真真,张莉,李思,董鹤,王巧燕,刘西平,姚雅琴. 玉米叶片气孔及花环和维管束结构对水分胁迫的响应[J]. 应用生态学报,2014,25(10):2944-2950.
    [23]
    王晖,周守标,史国芹. 假俭草和结缕草营养器官结构对抗逆性的影响[J]. 植物研究,2007,27(6):701-707.
    [24]
    Zheng WJ, Chen GC, Zhang CL, Hu YX, Li LH, Lin JX. Physiological adaptation of habitat by Ion distribution in the leaves of four ecotypes of reed Phragmites australis[J]. Acta Botanica Sinica, 2002,44(1): 85-90.
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