StomataIntroduction. The distribution of stomata. The structure and development of stomata. The mechanics of stomatal environments. The theory of gas diffusion through stomata. Stomatal responses to environmental factors. The influence of hormones and other naturally occurring compounds on stomatal behaviour. Ionic relations of stomatal movements and signal transduction by guard cells. Guard cell metabolism. Recent developments and future research. |
Contents
Introduction | 1 |
The distribution of stomata | 12 |
The structure and development of stomata | 36 |
Copyright | |
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abscisic acid activity Allium anion channel apoplast Assmann atal auxin Biol Blatt blue light Ca² Ca2+ calcium Calvin cycle carbon carboxylase cell types cell wall changes chlorophyll chloroplasts closed stomata CO₂ CO₂ concentrations Commelina communis cytoplasm decrease diffusion effects efflux enzyme epidermal cells epidermal strips fluorescence flux fusicoccin GCPs guard cell chloroplasts guard cell protoplasts guard cells Hedrich humidity increase inhibition intact leaves levels MacRobbie malate Mansfield Meidner mesophyll mesophyll cells metabolism microtubules occur osmotic pressure Outlaw Palevitz pathway photosynthesis Plant Cell Environ Plant Physiol plasma membrane pore potassium protein protoplasts Raschke Schnabl Schroeder Shimazaki species starch stom stomatal aperture stomatal behaviour stomatal closure stomatal complex stomatal conductance stomatal frequency stomatal movements stomatal opening stomatal responses subsidiary cells temperature tion tonoplast transpiration turgor uptake vacuole Vicia faba water potential water stress water vapour Weyers Willmer Zeiger