Plant Physiology |
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Page ii
... CHEMISTRY Acids , Bases , and the Chemistry of the Covalent Bond , by Calvin A. Vander- Werf Basic Concepts of Nuclear Chemistry , by Ralph T. Overman Chemical Bonding and the Geometry of Molecules , by George Ryschkewitsch Chemical ...
... CHEMISTRY Acids , Bases , and the Chemistry of the Covalent Bond , by Calvin A. Vander- Werf Basic Concepts of Nuclear Chemistry , by Ralph T. Overman Chemical Bonding and the Geometry of Molecules , by George Ryschkewitsch Chemical ...
Page 218
... chemical energy . As Bentley Glass ( 10 ) has so aptly stated , " life is a photochemical phenomenon . ” The chemical compounds most important in this conversion of light energy to chemical energy are the pigments that exist within the ...
... chemical energy . As Bentley Glass ( 10 ) has so aptly stated , " life is a photochemical phenomenon . ” The chemical compounds most important in this conversion of light energy to chemical energy are the pigments that exist within the ...
Page 263
... chemical process , is affected by the conditions of the environment in which it occurs . The chemical portion of photosynthesis proceeds within the very narrow limits allowed by the enzymes that drive it . The physical portion , while ...
... chemical process , is affected by the conditions of the environment in which it occurs . The chemical portion of photosynthesis proceeds within the very narrow limits allowed by the enzymes that drive it . The physical portion , while ...
Contents
The plant cellstructure and function of its parts | 3 |
of the cytoplasm 10 Cytoplasmic ground substance | 17 |
Diffusion osmosis and imbibition | 41 |
Copyright | |
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Common terms and phrases
absorbed activity amino acids amount auxin Avena Biochem Botan calcium carbohydrates carbon dioxide carotenoids catalyze cause cell wall cellulose CH₂OH Chem chemical chlorophyll chloroplast CO₂ coleoptile colloidal compounds concentration COOH cycle cytoplasm dark deficiency demonstrated diffusion pressure deficit dormancy effect electron elongation energy enzyme example factors Figure flowering formation function germination gibberellin glucose gradient growth regulators hormone hydrogen increase inhibition inhibitors involved ions kinetin Krebs cycle leaf leaves light manganese membrane metabolism mineral molecular molecule movement nitrogen nitrogen fixation occur organic osmotic pressure oxidation oxygen particles phloem phosphate phosphorus photoperiod photosynthesis pigment plant growth Plant Physiol plant physiology present Proc protein radioactive reaction respiration result root salt absorption seeds sieve tube elements soil soluble solution starch stem stomatal structure substances substrate sucrose sugar surface synthesis temperature tion tissue tomato translocation transpiration transport uptake vapor vernalization vitamin xylem