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草业学报 2015

中国伞形科当归属及相关类群毛状体和果实结构的系统学价值

DOI: 10.11686/cyxb20150408, PP. 66-75

王宇婷,刘玫,程薪宇

Keywords: 毛状体,果实,当归属,伞形科,系统学

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Abstract:

深入研究了当归属及其相关7属,古当归属,高山芹属,柳叶芹属,独活属,欧当归属,山芹属及前胡属毛状体和果实结构。结果显示毛状体及果实结构(如:毛状体细胞,翅,油管,维管束,中果皮,内果皮,结合面及结晶)可以用于区分当归属及其相关类群。滇南当归及隆萼当归应从当归属移入独活属,其余当归属物种分为结合面宽及结合面窄两组,前者与前胡属较为相似,但与独活属差别较大,后者与古当归属,高山芹属,柳叶芹属,欧当归属有相似之处。支持分子系统学揭示的当归属不是个自然类群,当归属与前胡属共同位于当归分支,而独活属位于独活分支。山芹属果实结构与其他属不同,翅的中果皮无细胞,且伴生油管位于维管束内侧,为分子系统学显示此属与高山芹属,柳叶芹属,及欧当归属亲缘关系较远提供了形态学依据。

References

[1]	Heywood V H, Dakshini K M M. Fruit structure in the Umbelliferae-Caucalideae. Botanical Journal of the Linnean Society, 1971, 64(Suppl. 1): 215-232.
[2]	Li J D, Yang Y F. Structure types of plant species of Ulmuswoodland in China’s Songhua-Nenjiang plains. Acta Agrestia Sinica, 2003, 11(4): 277-182, 300.
[3]	Liu M, Van Wyk B E, Tilney P M. The taxonomic value of fruit structure in the subfamily Saniculoideae and related African genera (Apiaceae). Taxon, 2003, 52(2): 261-270.
[4]	Cheng J M, Wan H E. Solid collocation of water collected shrub-grass and water regulationin semi-arid region of Loess Plateau. Acta Agrestia Sinica, 2000, 8(3): 210-219.
[5]	Li J D, Yang Y F. Analysis on structures of ecological and areal types for plant species in Leymus chinensis meadow in the Songnen plains of China. Acta Prataculturae Sinica, 2002, 11(4): 10-20.
[6]	Liu M, Van Wyk B E, Tilney P M, et al. Evidence from fruit structure supports in general the circumscription of Apiaceae subfamily Azorelloideae. Plant Systematics and Evolution, 2009, 280(1-2): 1-13.
[7]	Li J D, Yang Y F. Combinatorial structures of plant species in saline communities in the Songnen plains of China. Acta Prataculturae Sinica, 2004, 13(1): 32-38.
[8]	Li J D. Explore on basic life forms of herb in Northeastprairie. Journal of Northeast Normal University: Natural Science Edition, 1979, (2): 143-155.
[9]	Liu M, Plunkett G M, Lowry II P P. Fruit anatomy provides structural synapomorphies to help define Myodocarpaceae (Apiales). Systematic Botany, 2010, 35(3): 675-681.
[10]	Liu M, Plunkett G M, Van Wyk B E, et al. The phylogenetic significance of the carpophore in Apiaceae. Annals of Botany, 2012, 110(8): 1531-1543.
[11]	КeДДep B A. Plants and Environment, Ecotype and Life-form. Meadow in Soviet Union. Zhang S.Beijing: Science Press, 1959.
[12]	Mueller-Dombois D, Ellenberg H. Aims and Methods of Vegetation. New York: John Wiley ＆ Sons, 1974: 139-147.
[13]	Zhang Q Y, He X J, Zhang Y C, et al. Anatomical studies on fruits and petioles of 8 species of Angelica L. from Sichuan Province. Journal of Wuhan Botanical Research, 2005, 23(6): 549-554.
[14]	Yang Y F, Li J D. Structure of ramets in clonal population of Carex duriuscula on Songnen plain of China. Acta Prataculturae Sinica, 2001, 10(1): 35-41.
[15]	Walter. Vegetation of the Earth and Ecological Systemsof the Geo-biosphere (2nd). New York: SpringerVerlag, 1979.
[16]	Qin H Z, Li B Y, Wu Z J, et al. On the fruit anatomy of Angelica L. (S.L.) of East Asia and North America and ITS evolution. Acta Botanica Boreali-Occidentalia Sinica, 1995, 15(1): 48-54.
[17]	An S Q, Zhao R L. Analysis of characteristics of secondary forest vegetation in the North subtropical zone of China. Journal of Nanjing University: Natural Science Edition, 1991, 27(2): 323-331.
[18]	Liu F, Liu Q X. Comparative anatomical study on structural features of mericarp of 5 type species introduced into China in Apiaceae. Journal of Plant Resources and Environment, 2006, 15(4): 9-16.
[19]	Xiao L, Jiang J X, Yi Z L, et al. A study on phenotypic diversity of Miscanthus sinensis natural population in Guangxi province. Acta Prataculturae Sinica, 2013, 22(4): 43-50.
[20]	Feder N, O’Brien T P. Plant micro technique: some principles and new methods. American Journal of Botany, 1968, 55(1): 123-142.
[21]	Nie G, Zhang X Q, Huang L K, et al. Phenotypic variation of wild Miscanthus sinensis population from southestern China. Acta Prataculturae Sinica, 2013, 22(5): 52-61.
[22]	Xue H J, Yan M H, Lu C M, et al. Taxonomic study of Angelica from East Asia: Inferences from ITS sequences of nuclear ribosomal DNA. Acta Phytotaxonomica Sinica, 2007, 45(6): 783-795.
[23]	Su S P, Li Y, Zhong P F, et al. Correlation analysis of phenotypic traits of Reaumuria soongorica seed in different natural population in the Gansu Corridor. Acta Prataculturae Sinica, 2013, 22(1): 87-94.
[24]	Zhao G P, Niizeki Minoru, Ishigawa Liuni, et al. ITS sequence analysis of Chinese and Japanese medicinal plants of Angelica L. Chinese Traditional and Herbal Drugs, 2006, 37(7): 1072-1076.
[25]	Yu H B, Zhang S N, Xiao R L, et al. Utilization of harvested aquatic plants as a mulch. Acta Prataculturae Sinica, 2013, 22(6): 143-149.
[26]	Sheh M L, Su P, Pan Z H. The comparative study of pollen morphology of Angelica L. between East Asia and North America. Journal of Plant Resources and Environment, 1997, 6(1): 41-47.
[27]	中国科学院中国植物志编辑委员会. 中国植物志(第55卷,第3分册). 北京: 科学出版社, 1992.
[28]	Jia F Q, Yang X R. Composite structure of plant components on the aits in the Kunes river, Ili, Xinjiang. Arid Zone Research, 2009, 26(5): 681-685.
[29]	袁昌奇, 单人华. 中国当归属(Angelica L)和山芹属(Ostericum Hoffm.)植物的分类学研究. 南京:南京中山植物园研究论文集, 1983.
[30]	赵国平, 新关稔, 石川隆二, 等. 中日当归属药用植物ITS序列分析. 中草药, 2006, 37(7): 1072-1076.
[31]	佘孟兰, 舒璞, 潘泽惠. 东亚与北美当归属花粉形态的比较研究. 植物资源与环境, 1997, 6(1): 41-47.
[32]	张桥英, 何兴金, 张运春, 等. 四川当归属8种植物果实和叶柄解剖学研究. 武汉植物学研究, 2005, 23(6): 549-554.
[33]	秦慧贞, 李碧媛, 吴竹君, 等. 东亚和北美当归属(广义)的果实解剖和演化. 西北植物学报, 1995, 15(1): 48-54.
[34]	刘芳, 刘启新. 中国伞形科5个引种栽培的模式种果实比较解剖学研究. 植物资源与环境学报, 2006, 15(4): 9-16.
[35]	薛华杰, 闫茂华, 陆长梅, 等. 基于ITS序列的东亚当归属植物的分类学研究. 植物分类学报, 2007, 45(6): 783-795.

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