张琳琳(1988-),女,江苏丰县人,硕士研究生,主要从事植物生态学研究. E-mail: 536879053@139.com
收稿日期: 2013-05-30
修回日期: 2013-10-30
网络出版日期: 2013-12-10
基金资助
国家自然科学基金项目#cod#x0201c;达坂城长期大风区霸王的植冠种子库时空格局#cod#x0201d;(编号:31260101);新疆师范大学研究生科技创新基金项目(编号:20121209)资助.
Advances in the Effects of Wind on Plants
Received date: 2013-05-30
Revised date: 2013-10-30
Online published: 2013-12-10
风是一种重要的生态因子,对植物有直接和间接的影响,随着全球变暖以及未来大风频率增多,风对农林业的危害将更加严重。长期生活在风环境中的植物会形成减缓和防止风危害的特殊机制,植物与风相互关系的研究是与植物进化有关的生态学问题。总结了该领域的发展历史及特点,综述了风对植物形态结构、解剖结构、根系构型的作用以及生理响应,植物对风的适应策略包括回避性策略和抵抗性策略。分析了目前研究存在的问题,指出未来需要将植物作为综合系统从多个层面开展研究,同时开展风与温度、干旱等因子综合交叉作用下植物响应的研究。要认识不同植物种的普适性机理,需要对不同环境的不同植物进行研究,生物信息、分子、生理层面上的研究将会促进跨学科的研究,以期搞清植物对风响应的复杂机理。
张琳琳 , 赵晓英 , 原慧 . 风对植物的作用及植物适应对策研究进展[J]. 地球科学进展, 2013 , 28(12) : 1349 -1353 . DOI: 10.11867/j.issn.1001-8166.2013.12.1349
Wind is a important factor. It can strongly affect development, growth and reproduction of terrestrial plants. The plant in wind environment can adapt to wind by special mechanism to decrease damage. This paper reviews the effects of wind on plant in phenotype, anatomy and root archetecture. Some plant species show a resistance strategy, but other species show an avoidance strategy. After the analysis of the restriction of current research in this area, the authors suggest that studies in the area should be extended to taking the wholeplant as an integrated system rather than focusing on specific tissue level. Furthermore to understand the general mechanism across species, it is required to study different species from different environmental conditions. Advances in bioinformatics, molecular and physiological research will facilitate crossdisciplinary studies to understand the complicated responses of plants to wind.
Key words: Wind; Plants; Morphology; Physiological regulation; Adaptive strategy.
| [1] | Hughes L. Climate change and Australia:Trends,projections and impacts[J]. Austral Ecology, 2003, 28(4): 423-443. |
| [2] | Grace J. Plant Response to Wind[M]. California: Academic Press, 1977. |
| [3] | Coutts M P, Grace J. Wind and Trees[M]. Cambridge: Cambridge University Press, 1995. |
| [4] | Onoda Y, Anten N P R. Challenges to understand plant responses to wind[J]. Plant Signaling & Behavior, 2011, 6(7) : 1057-1059 |
| [5] | Ennos A R. Wind as an ecological factor[J]. Trends in Ecology and Evolution, 1997, 12 : 108-111. |
| [6] | Vogel S. Leaves in the lowest and highest winds:Temperature,force and shape[J]. New Phytologist, 2009, 183: 13-26. |
| [7] | Cordero R A, Fetcher N, Voltzow J. Effects of wind on the allometry of two species of plants in an elfin cloud forest[J]. Biotropica, 2007, 39(2): 117-185. |
| [8] | Nan Jiang, Zhao Xiaoying, Yu Baofeng. The effect of simulated chronic high wind on the phenotype of Salsola arbuscula[J]. Acta Ecologica Sinica, 2012, 32(20): 6 354-6 360. |
| [8] | [南江, 赵晓英, 余保峰. 模拟长期大风对木本猪毛菜表观特征的影响[J]. 生态学报, 2012, 32(20): 6 354-6 360.] |
| [9] | Wang Y H, He W M, Dong M, et al. Effects of shaking on the growth and mechanical properties of Hedysarum leave may be independent of water regimes[J]. International Journal of Plant Sciences, 2008, 169(4): 503-508. |
| [10] | Li S L, Werger M J A, Zuidema P A, et al. Seedlings of the semi-shrub Artemisia ordosica are resistant to moderate wind denudation and sand burial in Mu Us sandland,China[J]. Trees, 2010, 24: 515-521. |
| [11] | Smith V C, Ennos A R. The effects of air flow and stem flexure on the mechanical and hydraulic properties of the stems of sunflowers Helianthus annuus L. [J]. Journal of Experimental Botany, 2003, 383(54): 845-849. |
| [12] | Liu Y. Differential response to wind and shade in mother leaf of Potentilla reptans[J]. Acta Ecologica Sinica, 2007, 27(7): 2 756-2 764. |
| [13] | Vogel S. Drag and reconfiguration of broad leaves in high wind[J]. Journal of Experimental Botany, 1989, 40: 941-948. |
| [14] | Riedere M, Schreiber L. Protecting against water loss:Analysis of the barrier properties of plant cuticles[J]. Journal of Experimental Botany, 2001, 52(363): 2 023-2 032. |
| [15] | Bosabalidis A M, Kofidis G. Comparative effects of drought stress on leaf anatomy of two olive cultivars[J]. Plant Science, 2002, 163(2): 375-379. |
| [16] | Wirthensohn M G, Sedgley M. Epicuticular wax structure and regeneration on developing Juvenile Eucalyptus leaves[J]. Australian Journal of Botany, 1996, 44(6): 691-704. |
| [17] | Niels P R A, Rafael A H. Wind and mechanical stimuli differentially affect leaf traits in Plantago major[J]. New Phytologist, 2010, 188: 554-564. |
| [18] | Grace J. Plant response to wind[J]. Agriculture,Ecosystems and Environment,1988, 22/23: 71-88. |
| [19] | Gulimire, Zhao Xiaoying, Yuan Hui. Leaf anatomical structure of Zygophyllum xanthoxylum under chronic high wind[J]. Acta Botanica Boreali-Occidentalia Sinica, 2012, 32(10): 2 047-2 052. |
| [19] | [古力米热#cod#x000b7;热孜, 赵晓英, 原慧. 模拟长期大风胁迫对霸王叶解剖结构特征的影响[J]. 西北植物学报, 2012, 32(10): 2 047-2 052. ] |
| [20] | White D O, Turner N C, Galbraith J H. Leaf water relations and stomatal behavior of four allopatric Eucalyptus species planted in Mediterranean southwestern Australia[J]. Tree Physiology, 2000, 20: 1 157-1 165. |
| [21] | Telewski F W, Jaffe M J. Thigmomorphogenesis:Anatomical,morphological and mechanical analysis of genetically different sibs of Pinus taeda in response to mechanical perturbation[J]. Physiologia Plantarum, 1986, 66(2): 219-226. |
| [22] | Ennos A R. The scaling of root anchorage[J]. Journal of Theoretical Biology, 1993, 161(1): 61-75. |
| [23] | Stokes A, Fitter A H, Coutts M P. Responses of young trees to wind and shading-effects on root architecture[J]. Journal of Experimental Botany, 1995, 46(290): 1 139-1 146. |
| [24] | Tamasi E, Stokes A, Lasserre B, et al. Influence of wind loading on root system development and architecture I in oak(Quercus robur L.)seedlings[J]. Trees-Structure and Function, 2005, 19(4): 374-384. |
| [25] | Danjon F, Fourcaud T, Bert D. Root architecture and wind firmness of mature Pinus pinaster(Ait. )[J]. New Phytologist, 2005, 168: 387-400. |
| [26] | Liu Guojun, Zhang Ximing, Li Xiaorong, et al. Adaptive growth of Tamarix taklamakanensis root systems in response to wind action[J]. Chinese Science Bulletin, 2008, 53: 147-150. |
| [27] | Dupuy L X, Fourcaud T, Lac P, et al. A generic 3D finite element model of tree anchorage integrating soil mechanics and real root system architecture[J]. American Journal of Botany, 2007, 94(9): 1 506-1 514. |
| [28] | Khuder H, Stokes A, Danjon F, et al. Is it possible to manipulate root anchorage in young trees?[J]. Plant and Soil, 2007, 294(1/2): 87-102. |
| [29] | Nicoll B C, Ray D. Adaptive growth of tree root systems in response to wind action and site conditions[J]. Tree Physiology, 1996, 16(11/12): 891-898. |
| [30] | Yu Yunjiang, Shi Peijun, Lu Chunxia, et al. Response of the eco-physiological characteristics of some plants under blown sand[J]. Acta Phytoecologica Sinica, 2003, 27(1): 53-58. |
| [30] | [于云江, 史培军, 鲁春霞, 等. 不同风沙条件对几种植物生态生理特征的影响[J]. 植物生态学报, 2003, 27(1): 53-58.] |
| [31] | Qu Hao, Zhao Xueyong, Yue Guangyang, et al. Physiological response to wind of some common plants in Horqin Sand Land[J]. Journal of Desert Research, 2009, 29(4): 668-673. |
| [31] | [曲浩, 赵学勇, 岳广阳, 等. 科尔沁沙地几种常见植物对风胁迫的生理响应[J]. 中国沙漠, 2009, 29(4): 668-673.] |
| [32] | Zhao Halin, He Yuhui, Yue Guangyang, et al. Effects of wind blow and sand burial on the seedling growth and photosynthetic and transpiration rates of desert plants[J]. Chinese Journal of Ecology, 2010,(3): 413-419. |
| [32] | [赵哈林, 何玉惠, 岳广阳, 等. 风吹、沙埋对沙地植物幼苗生长和光合蒸腾特性的影响[J]. 生态学杂志, 2010,(3): 413-419.] |
| [33] | White D O, Turner N C, Galbraith J H. Leaf water relations and stomatal behavior of four allopatric Eucalyptus species planted in Mediterranean southwestern Australia[J]. Tree Physiology, 2000, 20: 1 157-1 165. |
| [34] | Niklas K J. Differences between Acer saccharum leaves from open and wind-protected sites[J]. Annals of Botany, 1996, 78(1): 61-66. |
| [35] | Ibrahim S, Mustapha S, Randjbaran E, et al. Comparison of daily and monthly results of three evapotranspiration models in tropical zone:A case study[J]. American Journal of Environmental Sciences, 2009, 5(6): 698-705. |
| [36] | Anten N P R, Alcal#cod#x000e1;-Herrera R, Schieving F, et al. Wind and mechanical stimuli differentially affect leaf traits in Plantago major[J]. New Phytologist, 2010, 188(2): 554-564. |
| [37] | James J C, Grace J, Hoad S P. Growth and photosynthesis of Pinus sylvestris at its altitudinal limit in Scotland[J]. Journal of Ecology, 1994, 82: 297-306. |
| [38] | Grant S A, Hunter R F. The effects of frequency and season of clipping on the morphology,productivity and chemical composition of Calluna vulgaris(L.)Hull[J]. New Phytologist, 1966, 65: 125-133. |
| [39] | Coutand C. Mechanosensing and thigmomorphogenesis,a physiological and biomechanical point of view[J]. Plant Science, 2010, 179: 168-182. |
| [40] | Braam J. In touch:Plant responses to mechanical stimuli[J]. New Phytologist, 2005, 165: 373-389. |
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