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斑驳气孔特点及形成机理 被引量:1

Characteristics and Formation Mechanism of Patchy Stomata
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摘要 气孔是植物叶片内外气体交换的场所。斑驳气孔在形态结构、动态变化、光合气体交换机制等方面都与常见的普通气孔不同,是植物体响应环境变化而形成的特殊气孔形式。本文介绍了斑驳气孔的特点及其形成机理。 Stomata are the places for gas exchange on plant leaves. Patchy stomata, a special form of stomata responding to environmental change, are different with normal stomata in structure, dynamic change, gas exchange for photosynthesis and so on. Here we introduced the characteristics and formation mechanism of patchy stomata.
作者 肖梦远 张学琴
机构地区 中国农业大学与生物技术学院 中闫农业大学生物学院
出处 《植物生理学报》 CAS CSCD 北大核心 2013年第10期981-988,共8页 Plant Physiology Journal
基金 2013年“中国农业大学生物学院植物生理学课程档案建设”项目
关键词 斑驳气孔 气孔导度 光合作用 patchy stomata stomatal conductance photosynthesis
分类号 Q944 [生物学—植物学]
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参考文献34

  • 1孟庆伟,邹琦,许长成,赵世杰.小麦和大豆叶片的气孔不均匀关闭现象[J].植物生理学报(0257-4829),1997,23(1):53-60. 被引量:17
  • 2许大全.气孔的不均匀关闭与光合作用的非气孔限制[J].植物生理学通讯,1995,31(4):246-252. 被引量:142
  • 3Beyschlag W, Pfanz H (1990). A fast method to detect the occurrence of nonhomogenous distribution of stomatal aperture in heterobaric plant leaves. Oecologia, 82:52-55.
  • 4Buckley TN, Farquhar GD, Mott KA (1999). Carbon-water balance and patchy stomatal conductance. Oecologia, 118:132-143.
  • 5Buckley TN, Mott KA (2000). Stomatal responses to non-local changes in PFD: evidence for long-distance hydraulic interactions. Plant Cell Environ, 23:301-309.
  • 6Caemmerer Sv, Farquhar GD (1981). Some relationships between the biochemistry of photosynthesis and the gas exchange of leaves. Planta, 153:376-387.
  • 7Cardon ZG, Mort KA, Berry JA (1994). Dynamics of patchy stomatal movements, and their contribution to steady-state and oscillating stomatal conductance calculated using gas-exchange techniques. Plant Cell Environ, 17:995-1007.
  • 8Doughty CE, Goulden ML, Miller SD, da Rocha HR (2006). Circadian rhythms constrain leaf and canopy gas exchange in an Amazonian forest. Geophys Res Let-t, 33:L15404.
  • 9Downton WJS, Loveys BR, Grant W JR (1988). Non-uniform stomatal closure induced by water stress causes putative non-stomatal inhibition of photosynthesis. New Phytol, 110:503-509.
  • 10Eckstein J, Artsaenko O, Conrad U, Peisker M, Beyschlag W (1998). Abscisic acid is not necessarily required for the induction of patchy stomatal closure. J Exp Bot, 49:611-616.

二级参考文献11

  • 1许大全,植物生理学报,1992年,18卷,279页
  • 2薛崧,植物生理学报,1992年,18卷,1页
  • 3Hsiao T C,Ann Rev Plant Physiol,1973年,24卷,519页
  • 4Ichiro Terashima. Anatomy of non-uniform leaf photosynthesis[J] 1992,Photosynthesis Research(3):195~212
  • 5James R. Frederick,David M. Alm,John D. Hesketh,Frederick E. Below. Overcoming drought-induced decreases in soybean leaf photosynthesis by measuring with CO2-enriched air[J] 1990,Photosynthesis Research(1):49~57
  • 6W. Beyschlag,H. Pfanz. A fast method to detect the occurrence of nonhomogeneous distribution of stomatal aperture in heterobaric plant leaves[J] 1990,Oecologia(1):52~55
  • 7K. Raschke,A. Resemann. The midday depression of CO2 assimilation in leaves of Arbutus unedo L.: diurnal changes in photosynthetic capacity related to changes in temperature and humidity[J] 1986,Planta(4):546~558
  • 8Klaus Raschke,Rainer Hedrich. Simultaneous and independent effects of abscisic acid on stomata and the photosynthetic apparatus in whole leaves[J] 1985,Planta(1):105~118
  • 9J. D. Tenhunen,O. L. Lange,D. Jahner. The control by atmospheric factors and water stress of midday stomatal closure in Arbutus unedo growing in a natural macchia[J] 1982,Oecologia(2):165~169
  • 10J. D. Tenhunen,O. L. Lange,M. Braun. Midday stomatal closure in Mediterranean type sclerophylls under simulated habitat conditions in an environmental chamber[J] 1981,Oecologia(1):5~11

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植物生理学报
2013年 第10期

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