高级检索+

百部科植物叶表皮特征及其分类学意义

秦燕, 王跃华, 孙卫邦, 陈高

秦燕, 王跃华, 孙卫邦, 陈高. 百部科植物叶表皮特征及其分类学意义[J]. 植物科学学报, 2018, 36(4): 487-500. DOI: 10.11913/PSJ.2095-0837.2018.40487
引用本文: 秦燕, 王跃华, 孙卫邦, 陈高. 百部科植物叶表皮特征及其分类学意义[J]. 植物科学学报, 2018, 36(4): 487-500. DOI: 10.11913/PSJ.2095-0837.2018.40487
Qin Yan, Wang Yue-Hua, Sun Wei-Bang, Chen Gao. Characters of the leaf epidermis of Stemonaceae and their taxonomical significance[J]. Plant Science Journal, 2018, 36(4): 487-500. DOI: 10.11913/PSJ.2095-0837.2018.40487
Citation: Qin Yan, Wang Yue-Hua, Sun Wei-Bang, Chen Gao. Characters of the leaf epidermis of Stemonaceae and their taxonomical significance[J]. Plant Science Journal, 2018, 36(4): 487-500. DOI: 10.11913/PSJ.2095-0837.2018.40487
秦燕, 王跃华, 孙卫邦, 陈高. 百部科植物叶表皮特征及其分类学意义[J]. 植物科学学报, 2018, 36(4): 487-500. CSTR: 32231.14.PSJ.2095-0837.2018.40487
引用本文: 秦燕, 王跃华, 孙卫邦, 陈高. 百部科植物叶表皮特征及其分类学意义[J]. 植物科学学报, 2018, 36(4): 487-500. CSTR: 32231.14.PSJ.2095-0837.2018.40487
Qin Yan, Wang Yue-Hua, Sun Wei-Bang, Chen Gao. Characters of the leaf epidermis of Stemonaceae and their taxonomical significance[J]. Plant Science Journal, 2018, 36(4): 487-500. CSTR: 32231.14.PSJ.2095-0837.2018.40487
Citation: Qin Yan, Wang Yue-Hua, Sun Wei-Bang, Chen Gao. Characters of the leaf epidermis of Stemonaceae and their taxonomical significance[J]. Plant Science Journal, 2018, 36(4): 487-500. CSTR: 32231.14.PSJ.2095-0837.2018.40487

百部科植物叶表皮特征及其分类学意义

基金项目: 

国家自然科学基金-云南省联合基金(U1602264);国家自然科学基金(31670322);云南省中青年学术和技术带头人后备人才计划(2015HB091)。

详细信息
    作者简介:

    秦燕(1989-),女,硕士研究生,主要从事保护生物学研究(E-mail:qinyan0410@outlook.com)。

    通讯作者:

    陈高,E-mail:chen_gao@mail.kib.ac.cn

  • 中图分类号: Q949.71+8.22

Characters of the leaf epidermis of Stemonaceae and their taxonomical significance

Funds: 

This work was supported by grants from the NSFC-Yunnan Joint Fund on Key Projects (U1602264), National Natural Science Foundation of China (31670322), and Young Academic and Technical Leader Raising Foundation of Yunnan Province (2015HB091).

  • 摘要: 利用光学显微镜和扫描电子显微镜,对百部科4属30种植物的叶表皮微形态特征进行了观察研究。结果显示,叶表皮细胞形状仅有无规则形和多边形2种,垂周壁式样有深波状、浅波状和平直-弓形3种;表皮角质层纹饰微形态多样化,绝大多数物种的叶片表面不具有毛被,仅少数植物叶片表面具单细胞毛;气孔器主要分布在下表皮,仅Stemona prostrata I.R.H.Telford、S.cochinchinensis Gagnep、S.rupestris Inthachub、S.pierrei Gagnep和S.involuta Inthachub 5个种上下表皮均有气孔器;气孔形状均为椭圆形,而气孔器类型均为无规则型。百部科叶表皮微形态特征在属间有一定差异,但在属内各种间没有明确规律,表明该类群应该是一个自然的单系类群。由于百部科植物采样困难,在缺乏系统进化树数据的情况下,这些微形态特征可为探讨百部科不同种类的分类学、生物地理及其生态适应性提供部分新证据。
    Abstract: The micromorphology of the leaf epidermal surfaces of 30 Stemonaceae species from four genera were observed using light microscopy and scanning electron microscopy. Results showed that both the adaxial and abaxial epidermal cells were polygonal or irregular in shape, with undulate, straight, or arched anticlinal walls. The leaf epidermal characteristics of most species were amphistomatic, though some were hypostomatic or hyperstomatic. The micromorphology of the epidermal cuticle sculpture ornamentation was diversified. Most species had no hairs covering the leaf surface, though some species had unicellular hairs on both the upper and under epidermis. The stomatal apparatus was mainly distributed on the under epidermis of the leaves, except for Stemona prostrata I. R. H. Telford, S. cochinchinensis Gagnep, S. rupestris Inthachub, S. pierrei Gagnep, and S. involuta Inthachub, which had stomatal apparatus on both the upper and under epidermis. The stomata type was anomocytic in all observed species and the stoma were oval in shape. Definite evolution regularity was found in the micromorphological characteristics of the epidermis of the leaves of Stemonaceae among genera, but no clear regularity was detected within genus, implying that the family might be a natural monophyletic group. Considering the difficulty of sampling, and in the absence of a phylogenetic tree, these micromorphological characteristics may provide new evidence for the taxonomy, biogeography, and ecological adaptability of Stemonaceae.
  • [1]

    Tsi ZH, Duyfjes BEE. Stemonaceae[M]//Wu ZY, Raven P eds. Flora of China. Beijing:Science Press, 2000, 24:70-72.

    [2] 朱建育, 燕惠芬. 百部生物碱的研究进展及其药理作用[J]. 上海应用技术学院学报:自然科学版, 2010, 10(1):26-33.

    Zhu JY, Yan HF. Research status of Stemona alkaloid and its pharmacological function[J]. Journal of Shanghai Institute of Technology:Natural Science, 2010, 10(1):26-33.

    [3] 姜登钊, 吴家忠, 刘红兵, 管华诗. 百部药材的生物碱类成分及生物活性研究进展[J]. 安徽农业科学, 2011, 39(31):19097-19099, 19102.

    Jiang DZ, Wu JZ, Liu HB, Guan HS.Advances in alkaloids constituents and bioactivities of Stemona medicinal materials[J]. Journal of Anhui Agricultural Sciences, 2011, 39(31):19097-19099, 19102.

    [4]

    Chen G, Brecker L, Felsinger S, Cai XH, Kongkia-tpaiboon S, Schinnerl J. Morphological and chemical variation of Stemona tuberosa from southern China -evidences for the heterogeneity of this medicinal plant species[J]. Plant Biology, 2017, 19(5). DOI: 10.1111/plb.12587.

    [5]

    Dong JL, Yang ZD, Zhou SY, Yu HT, Yao XJ, Xue HY, Shu ZM. Two Stemona alkaloids from Stemona sessilifolia (Miq.) Miq.[J]. Phytochem Lett, 2017, 19:259-262.

    [6]

    Palee J, Dheeranupattana S. Influence of sodium acetate on Stemona alkaloid oroduction in hydroponic culture of Stemona curtisii Hook. f.[J]. International Journal of Science, 2017, 14(2):1-8.

    [7]

    Chen G, Jürgens A, Shao L, Liu Y, Sun W, Xia C. Semen-like floral scents and pollination biology of a sapromyophilous plant Stemona japonica (Stemonaceae)[J]. J Chem Ecol, 2015, 41(3):244-252.

    [8] 丛晓东, 徐国钧. 中国百部属花粉形态研究[J]. 中国药科大学学报, 1989, 20(6):325-329.

    Cong XD, Xu GJ. Pollen morphology in Chinese species of Stemona[J]. Journal of China Pharmaceutical University, 1989, 20(6):325-329.

    [9]

    Van der Ham R. Pollen morphology of the Stemonaceae[J]. Blumea, 1991, 36(1):127-159.

    [10]

    Chen G, Huang SZ, Chen SC, Chen YH, Liu X, Sun WB. Chemical composition of diaspores of the myrmecochorous plant Stemona tuberosa Lour[J]. Biochem Syst Ecol, 2016, 64:31-37.

    [11]

    Chen G, Wang ZW, Qin Y, Sun WB. Seed dispersal by hornets:an unusual insect-plant mutualism[J]. JIPB, 2017, 59:792-796.

    [12]

    Li EX, Yi S, Qiu YX, Guo JT, Comes HP, Fu CX. Phylogeography of two East Asian species in Croomia (Stemonaceae) inferred from chloroplast DNA and ISSR fingerprinting variation[J]. Mol Phylogenet Evol, 2008, 49(3):702-714.

    [13] 付晨熙, 方明, 朱友林, 方罡, 李恩香. 直立百部遗传多样性的ISSR分析[J]. 西北植物学报, 2012, 32(8):1553-1559.

    Fu CX, Fang M, Zhu YL, Fang G, Li EX. Genetic diversity of Stemona sessilifolia (Miq.) Miq. revealed by ISSR[J]. Acta Botanica Boreali-Occidentalia Sinica, 2012, 32(8):1553-1559.

    [14]

    Zhang L, Ma Y, Zang DK. Genetic diversity of Stemona shandongensis populations[J]. Botanical Research, 2013(2):1-5.

    [15]

    Zhang X, Ge J, Yang J, Dunn B, Chen G. Genetic diversity of Stemona parviflora:a threatened myrmecochorous medicinal plant in China[J]. Biochem Syst Ecol, 2017, 71:193-199.

    [16]

    Inthachub P, Vajrodaya S, Duyfjes BEE. Review of the genus Stichoneuron (Stemonaceae)[J]. Edinburgh Journal of Botany, 2009, 66(2):213-228.

    [17] 蔡磊, 秦燕, 陈高. 金沙江河谷特有药用植物——云南百部的分类学处理[J]. 植物科学学报, 2017, 35(5):647-652.

    Cai L, Qin Y, Chen G. Recognition of the status of Stemona mairei (H. Lév.) K. Krause (Stemonaceae), an endemic species in the valley of the Jinsha River, China[J]. Plant Science Journal, 2017, 35(5):647-652.

    [18]

    Van Heel WA. Floral morphology of Stemonaceae and Pentastemonaceae[J]. Blumea, 1992, 36(2):481-499.

    [19]

    Bouman F, Devente N. A comparison of the structure of ovules and seeds in Stemona (Stemonaceae) and Pentastemona (Pentastemonaceae)[J]. Blumea, 1992, 36(2):501-514.

    [20]

    Cutler DF. Leaf surface studies in Aloe and Haworthia species (Liliaceae):taxonomic implications[J]. Kew Bull, 1979(28):1-29.

    [21]

    Cutler DF, Brandham PE. Experimental evidence for the genetic control of leaf surface characters in hybrid Aloineae (Liliaceae)[J]. Kew Bull, 1977, 32(1):23-32.

    [22]

    Payne WW. Stomatal patterns in embryophytes:their evolution, ontogeny and interpretation[J]. Taxon, 1979, 28(1/3):117-132.

    [23]

    Baranova MA. Historical development of the present classification of morphological types of stomates[J]. Bot Rev, 1987, 53(1):53-79.

    [24]

    Ichie T, Inoue Y, Takahashi N, Kamiya K, Kenzo T. Ecological distribution of leaf stomata and trichomes among tree species in a Malaysian lowland tropical rain forest[J]. J Plant Res, 2016, 129(4):625-635.

    [25]

    Aguoru CU, Ajah P, Olasan JO. Taxonomic investigation of four varieties of Mangifera using microanatomical features[J]. European Centre for Research Training and Development UK, 2016, 4(1):20-27.

    [26]

    Zamani A, Attar F, Civeyrel L. Leaf epidermis characters of Iranian Pyrus L.(Rosaceae) and their taxonomic implications[J]. Genetic Resour Crop Ev, 2017, 64(1):159-176.

    [27] 张建茹. 小檗科植物种子和叶表皮微观形态及其分类学意义[D]. 杨凌:西北农林科技大学, 2016.

    Zhang JR. Microscopic morphology of seed and leaf epidermis of Berberis and its taxonomic significance[D]. Yangling:Northwest A & F University, 2016.

    [28] 申仕康, 张新军, 吴富勤, 杨冠松, 王跃华, 孙卫邦, 蔺汝涛. 极小种群野生植物大树杜鹃的解剖结构研究[J]. 植物科学学报, 2016, 34(1):1-8.

    Shen SK, Zhang XJ, Wu FQ, Yang GS, Wang YH, Sun WB, Nin RT. Study on the anatomical structures of Rhododendron protistum var. giganteum with an extremely small population[J]. Plant Science Journal, 2016, 34(1):1-8.

    [29] 张越, 申仕康, 张新军, 刘芳黎, 苏应雄, 张雪, 王跃华. 云南10种杜鹃属植物的叶片覆被物特征及其系统学意义[J]. 西北植物学报, 2016, 36(11):2198-2206.

    Zhang Y, Shen SK, Zhang XJ, Liu FL, Su YX, Zhang X, Wang YH. Leaf abxial surface scale and indumentum characteristics and theit systematic significance of 10Rhododendron species in Yunnan Province[J]. Acta Botanica Boreali-Occidentalia Sinica, 2016, 36(11):2198-2206.

    [30] 曾妮, 张建茹, 常朝阳. 中国蔷薇属植物叶表皮微形态特征及其系统学意义[J]. 广西植物, 2017, 37(2):169-185.

    Zeng N, Zhang JR, Chang CY. Micromorphological cha-racteristics of leaf epidemis and systematic significance of Rosa L. from China[J]. Guihaia, 2017, 37(2):169-185.

    [31]

    Stebbins GL, Khush GS. Variation in the organization of the stomatal complex in the leaf epidermis of monocotyledons and its bearing on their phylogeny[J]. Am J Bot, 1961, 48(1):51-59.

    [32]

    Maslova NP, Herman AB. Approach to identification of fossil angiosperm leaves:applicability and significance of Krassilov's morphological system[J]. Botanica Pacifica:A Journal of Plant Science and Conservation, 2015, 4(2):103-108.

    [33]

    Urban MA, Barclay RS, Sivaguru M, Sivaguru M, Punyasena SW. Cuticle and subsurface ornamentation of intact plant leaf epidermis under confocal and superresolution microscopy[J]. Microsc Res Tech, 2018, 81(2):129-140.

    [34]

    Florin R. Evolution in cordaites and conifers[J]. Acta Horti Berg, 1951, 15:285-388.

    [35]

    Upchurch Jr GR. Cuticle evolution in early cretaceous angiosperms from the Potomac group of Virginia and Maryland[J]. Ann Mo Bot Gard, 1984, 71(2):522-550.

    [36]

    Upchurch Jr GR. Cuticular anatomy of angiosperm leaves from the lower cretaceous Potomac group.Ⅰ. Zone Ⅰ leaves[J]. Am J Bot, 1984, 71(2):192-202.

    [37]

    Carpenter KJ. Stomatal architecture and evolution in basal angiosperms[J]. Am J Bot, 2005, 92(10):1595-1615.

    [38]

    Kongkiatpaiboon S, Schinnerl J, Felsinger S, Keeratinijakal V, Vajrodaya S, Gritsanapan W, Greger H. Structural relationships of Stemona alkaloids:assessment of species-specific accumulation trends for exploiting their biological activities[J]. J Nat Prod, 2011, 74(9):1931-1938.

    [39]

    Stace CA. Cuticular studies as an aid to plant taxonomy[J]. Bull Br Mus (Nat Hist) Bot, 1965, 4(1):3-78.

    [40]

    Caddick LR, Rudall PJ, Wilkin P, Chase MW. Yams and their allies:systematics of Dioscoreales[M]//Wilson KJ, Morrison DA eds. Monocots:Systematics and Evolution. Melbourne:CSIRO Publishing, 2000, 1:475-487.

    [41]

    Angiosperm Phylogeny Group (APG). A. An update of the angiosperm phylogeny group classification for the orders and families of flowering plants:APGⅡ[J]. Botanical Journal of the Linnean Society, 2003, 141(4):399-436.

    [42]

    Duyfjes BEE. Stemonaceae and Pentastemonaceae; with miscellaneous notes on members of both families[J]. Blumea-Biodiversity, Evolution and Biogeography of Plants, 1991, 36(1):239-252.

    [43]

    Duyfjes BEE. Stemonaceae:Flora Malesiana:Series 1:Spermatophyta[M]//Nijhoff M ed.Flora Malesiana.Rijksherbarium/Hortus Botanicus, 1993, 11(2):399-409.

    [44]

    van Steenis CGGJ. Pentastemona, a new 5-merous genus of monocotyledons from North Sumatra (Stemonaceae)[J]. Blumea-Biodiversity, Evolution and Biogeography of Plants, 1982, 28(1):151-163.

    [45] 李恩香. 黄精叶钩吻属的亲缘地理学及其近缘类群的系统进化研究[D]. 杭州:浙江大学, 2006.
    [46]

    Peat HJ, Fitter AH. A comparative study of the distribution and density of stomata in the British flora[J]. Biol J Linn Soc, 1994, 52(4):377-393.

    [47] 陈之端, 张志耘. 桦木科植物叶表皮的研究[J]. 植物分类学报, 1991, 29(2):156-163.

    Chen ZD, Zhang ZY. A study on floliar epidermis in Betulaceae[J]. Acta Phytotaxonomica Sinica, 1991, 29(2):156-163.

    [48] 陆嘉惠, 李学禹, 周玲玲, 吴玲. 甘草属植物叶表皮特征及其系统学意义[J]. 云南植物研究, 2005, 27(5):525-533.

    Lu JH, Li XY, Zhou LL, Wu L. Characters of leaf epidermis and their systematic significance in Glycyrrhiza[J]. Acta Botanka Yunnanica, 2005, 27(5):525-533.

  • 期刊类型引用(4)

    1. 韩俊艳,林楚航,杨诗博,王敬言,何进. 百部乙醇提取物对黄瓜和黄豆幼苗光合能力的影响. 沈阳大学学报(自然科学版). 2022(04): 268-273 . 百度学术
    2. 张本厚,胡燕花,牛志韬,李超,欧江涛,薛庆云,刘薇,陈集双,丁小余. 基于表型性状的金钗石斛种质资源多样性评价. 中国生物工程杂志. 2022(11): 5-17 . 百度学术
    3. 郗连连,李嘉宝,朱凯琳,祁奇,陈昕. 花楸属3种植物的基因组大小与叶气孔特征分析. 植物科学学报. 2020(01): 32-38 . 本站查看
    4. 白蕊珠,苏源,赵昌佑,殷根深. 轿子山六种杜鹃花属植物中气孔群的发现. 湖北农业科学. 2020(20): 112-115 . 百度学术

    其他类型引用(2)

计量
  • 文章访问数:  1101
  • HTML全文浏览量:  10
  • PDF下载量:  770
  • 被引次数: 6
出版历程
  • 收稿日期:  2018-01-14
  • 网络出版日期:  2022-10-31
  • 发布日期:  2018-08-27

目录

    /

    返回文章
    返回