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《北方园艺》[ISSN:1001-0009/CN:23-1247/S]

Issue:

2017年08

Page:

70-75

Research Field:

Publishing date:

Info

Title:

Anatomical Structure and Drought Adaptability of  the Syringa villosa Vahl of Genus Syringa

Author(s):

QIAN Xue; ZHANG Youmin; ZHANG Dawei; ZHENG Chong; BAO Wenhui; LIU Liyan

(College of Horticulture，Jilin Agricultural University，Changchun，Jilin 130118)

Keywords:

Syringa villosa Vahl; structural anatomy; drought resistance

PACS:

-

DOI:

10.11937/bfyy.201708017

Abstract:

Taking root，stems and leaves of Syringa villosa Vahl as material，using paraffin section and method of segregation catheter wood，on the Syringa villosa Vahl anatomical structure and drought resistance of contact，in order to reveal the structure characteristics and mechanism of botanical drought adaptability.The results showed that the root of Syringa villosa Vahl had the water storage capacity was very strong，horizontal and vertical water capacity was also guaranteed，stem water in the water storage，water and water loss，strengthen protection after had strong adaptation mechanism.The special structure of leaves not only to ensure that the Syringa villosa Vahl photosynthetic efficiency，guarantee for assimilation of plants，could also prevent heat damage and excessive water loss.The structure of the root，stem and leaf of Syringa villosa Vahl lanatomy had obvious drought resistance characteristics，indicating that the Syringa villosa Vahl had strong drought resistance.

References:

 

[1]中国科学院中国植物志编辑委员会.中国植物志：第61卷[M].北京:科学出版社,1985:53-82.

[2]崔洪霞,蒋高明,减淑英.丁香属植物的地理分布及其起源演化[J].植物研究,2004,24(2):141.

[3]陈俊愉.中国名花品种分类学[M].北京:中国林业出版社,2001.

[4]臧淑英,刘更喜.丁香[M].北京:中国林业出版社,1990.

[5]臧淑英,刘更喜.丁香花[M].上海:上海科技出版社,2000.

[6]李颖慧.丁香4种属植物茎和叶的比较解剖学研究[D].长春:吉林农业大学,2016.

[7]KRIBS D A.Salient lines of structural specialization in the wood rays of dicotyledons[J].Botanical Gazette,1935,96:547-557.

[8]郭淑晶.内蒙野丁香形态解剖学及胚胎学研究[D].呼和浩特:内蒙古农业大学,2007.

[9]潘映红.论植物表型组和植物表型组学的概念与范畴[J].作物学报,2015(2):175-186.

[10]张红霞,刘果厚,崔秀萍.干旱对浑善达克沙地榆叶片解剖结构的影响[J].植物研究,2005,25(1):39-44.

[11]高强.17种荒漠植物形态结构与环境的适应性研究[D].呼和浩特:内蒙古农业大学,2008.

[12]孟庆辉,潘青华,鲁韧强,等.4个品种扶芳藤茎叶解剖结构及其与抗旱性的关系[J].中国农学通报,2006(4):138-142.

[13]胡云,燕玲,李红.14种荒漠植物茎的解剖结构特征分析[J].干旱区资源与环境,2006(1):202-208.

[14]NOBEL P S.Anatomy of the Dicotyledons[M]//Ornamental Plant Physiology.San Diego:Academic Press,1991:251-254.

[15]RIEGER M,DUEMMEL M J.Comparison of drought resistance among Prunus species from divergent habitats[J].Tree Physiology,1992,11(4):369-380.

[16]MARTIN V,STEPHAN G,STURZEL T.Morphology and anatomy of anomalous short shoots in Pinus (Pinaceae) and the revolutionary meaning[J].Feddes Repert,1996,121:3-4.

[17]PALTA J P.Frost hardening and freezing stress in tuber bearing Solanum specises[M].New York:Academic Press,1978:49-71.

[18]李正理,李荣赦.我国甘肃九种旱生植物同化枝解剖结构观察[J].植物学报,1981,23(3):181-185.

[19]白重炎,高巨营,张朝.13种核桃茎的解剖结构与其抗寒抗旱性研究[J].安徽农业科学,2011(27):16496-16498,16502.

[20]李志,吕春霞,段黄金.胡杨和灰叶胡杨营养器官的解剖学研究[J].塔里木农垦大学学报,1996,8(2):22-24.

[21]白重炎,高尚风,张颖,等.2个核桃品种叶片解剖结构及其抗旱性研究[J].西北农业学报,2010(7):125-128.

[22]李代琼.半干早黄土区沙棘的水分生理生态与形态解剖学特性研究[J].沙棘,1999,12(3):11-16.

[23]肖静,杨洪强.植物导管分子分化和形成的生理生化机制[J].植物生理学通讯,2004,40(2):141-142.

[24]METCALFE C R,CHALK L.Anatomy of the dicotyledons[M].Oxford:Clarevdan Press,1959:502-535.

[25]JACKSON L W R.Effect of shade in leaf structure of deciduous tree species[J].Ecology,1967,48:498-499.

[26]韩刚,李少雄,徐鹏,等.6种灌木叶片解剖结构的抗旱性分析[J].西北林学院学报,2006,21(4):43-46.

[27]王勋陵,王静.植物形态结构与环境[M].兰州:兰州大学出版社,1989:105-138．

[28]荣丽,刘宁,王世杰.喀斯特山区先锋植物叶片解剖特征及其生态适应性评价[J].河北林业科技,2005(5):45-46.

[29]燕玲,李红,贺晓,等.阿拉善地区9种珍稀濒危植物营养器官生态解剖观察[J].内蒙古农业大学学报,2000,21(3):65-71.

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Last Update: 2017-05-02