Plant Physiology |
From inside the book
Results 1-3 of 89
Page 115
... energy of the A molecules is higher than the average kinetic energy of the B molecules . However , only the energy - rich A molecules are able to react and thus be converted to B molecules . Therefore , only a few molecules at any one ...
... energy of the A molecules is higher than the average kinetic energy of the B molecules . However , only the energy - rich A molecules are able to react and thus be converted to B molecules . Therefore , only a few molecules at any one ...
Page 157
... energy- consuming reactions . However , energy - yielding reactions of the cell occur in many instances in the absence of energy - consuming reactions . The energy re- leased in such a situation would be in the form of heat and lost to ...
... energy- consuming reactions . However , energy - yielding reactions of the cell occur in many instances in the absence of energy - consuming reactions . The energy re- leased in such a situation would be in the form of heat and lost to ...
Page 252
... energy absorbed by one pigment molecule is thought to be transferred through many other pigment molecules before reaching its site of action . This transfer of light energy may be from one chlorophyll a molecule to another , from ...
... energy absorbed by one pigment molecule is thought to be transferred through many other pigment molecules before reaching its site of action . This transfer of light energy may be from one chlorophyll a molecule to another , from ...
Contents
The Plant CellStructure and Function of its Parts | 3 |
Cytoplasmic Ground Substance 20 References | 21 |
Diffusion Osmosis and Imbibition | 43 |
Copyright | |
21 other sections not shown
Other editions - View all
Common terms and phrases
abscission absorption activity amino acids amount auxin Avena Biochem Biol Botan calcium carbohydrates carbon dioxide carotenoids catalyze cause cell wall cellulose Chem chemical chlorophyll chloroplasts coleoptile colloidal compounds concentration COOH cycle cytokinins cytoplasm deficiency demonstrated diffusion dormancy effect electron elongation energy enzyme ethylene example factors ferredoxin Figure flowering formation germination gibberellin glucose gradient higher plants hormone hydrogen increase inhibition inhibitor ions isolated kinetin leaf leaves light membrane metabolism mineral molecular molecule movement nitrate nitrogen nitrogen fixation occur organic osmotic potential oxidation oxygen particles phloem phosphate phosphorus photoperiod photosynthesis pigment plant growth Plant Physiol plant physiology present pressure protein radioactive reaction reduced reductase respiration root salt seedlings seeds sieve tube elements soil solution starch stem stomates structure substances substrate sucrose sugar synthesis temperature tion tissue translocation transpiration transport uptake vapor vernalization water potential xylem