Stomata and Water Relations in Plants: Papers and Discussions Given July 1 to 12, 1963 as Part of the Advanced Science Seminar on the Physiology and Biochemistry of Leaf StomataIsrael Zelitch Connecticut Agricultural Experimental Station, 1963 - 116 pagina's Participants and contributors; Introductory remarks; Experimental morphology of stomata; The control and mechanisms of stomatal movement; Active and inactive transport across cell membranes; Some considerations on water transport; Across living membranes; Resistance to water flow in the transpiration stream; The effect of environment on gas exchange of leaves; The role of stomata in plant disease. |
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Pagina 9
... osmotic flow of water in guard cells . Transfer of salts between chloroplast and vacuole might have a substantial influence on the osmotic properties of the guard cells . Chloroplasts are not the only organelles found in stomata . Mito ...
... osmotic flow of water in guard cells . Transfer of salts between chloroplast and vacuole might have a substantial influence on the osmotic properties of the guard cells . Chloroplasts are not the only organelles found in stomata . Mito ...
Pagina 59
... osmotic nature . Changes in osmotic pressure in general are far too slow to account for the rapid changes in stomatal aperture fre- quently observed , especially in the closing process ( 14 ) . It may be assumed that the energy required ...
... osmotic nature . Changes in osmotic pressure in general are far too slow to account for the rapid changes in stomatal aperture fre- quently observed , especially in the closing process ( 14 ) . It may be assumed that the energy required ...
Pagina 75
... osmotic potential of the killed tissue ( equivalent to osmotic pressure ) ; and TP , the theoretical turgor pressure ( difference between 4 and 7 ) . Since no water was moving into the lower leaf from the stem , the water potential in ...
... osmotic potential of the killed tissue ( equivalent to osmotic pressure ) ; and TP , the theoretical turgor pressure ( difference between 4 and 7 ) . Since no water was moving into the lower leaf from the stem , the water potential in ...
Inhoudsopgave
The Control and Mechanisms of Stomatal Movement | 18 |
Active and Inactive Transport Across Cell Membranes | 43 |
Some Considerations on Water Transport | 59 |
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Stomata and Water Relations in Plants: Papers and Discussions Given July 1 ... Israel Zelitch Fragmentweergave - 1963 |
Veelvoorkomende woorden en zinsdelen
a-hydroxysulfonates accumulation active transport atmosphere azide biochemical carbon dioxide cell membranes cell walls chamber chemical chlorogenic acid chloroplasts closed stomata CO₂ compounds constant cuticular cytoplasmic dark decrease diffusion disk assay effect of temperature enzyme epidermal cells epidermal tissue equation external concentration factors fleck flow function gibberellin glucose glycolic acid guard cells guttation increase infection inhibit inhibitor ions Kuiper leaf leaf disks leaves light intensity mean stomatal mechanism of stomatal mesophyll metabolism mitochondria molecules open stomata opening and closing osmotic ozone penetrate permease permease system phenylmercuric acetate photosynthesis Phytopathology Plant Physiol plastids pressure protein resistance to water root rust Shimshi soil solution species sprayed stomatal aperture stomatal closure stomatal differentiation stomatal mother cells stomatal movement stomatal opening stomatal width studies suction sugar surface synthesis tion tobacco tomato transpiration rate turgor vacuole water potential water transport water uptake water vapor wilting Zelitch