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Physiological responses of soybean (Glycine max L. Merr) to simulated acid rain and ambient ozone in the field
1987
Takemoto, B.K. (Bowling Green State Univ., Bowling Green, OH (USA). Dept. of Biological Sciences) | Shriner, D.S. | Johnston, J.W.
Air pollution stress in forest-physiological perspective
1995
Bytnerowicz, A. (USDA Forest Service, Riverside (USA))
Mechanisms of air pollution toxicity are very complex and depend on various physiological and biochemical properties of plants. These mechanisms (including formation of free radicals) are still poorly understood. In addition, physiological responses of forest plants to air pollution stress can be modified by various biotic (e.g., insects, pathogens, mycorrhizae associations, genetic variation) and abiotic (e.g., increasing CO2 concentrations, ultraviolet-B radiation, nitrogen desposition, nutrient deficiencies, drought) factors. An example of air pollution effects on forest trees may be responses of ponderosa pine seedlings to elevated concentrations of ozone: various physiological changes in trees (lowered net photosynthesis, altered carbon allocation, deterioration of photosynthetic pigments, etc.) have led to reduced growth and biomass of plants.
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