Direct Observation of Reversible and Irreversible Stomatal Responses of Attached Sunflower Leaves to SO(2).

The effects of SO(2) on stomatal aperture of attached sunflower leaves were observed with a remote-control light microscope system that permitted continuous observation of stomatal responses over periods of several hours. The relationship between actual stomatal aperture and stomatal conductance, measured with a porometer, also was examined on leaves before and after exposure to SO(2).A distinction between uninjured and injured regions was clearly visible on leaves after exposure to 1.5 microliters per liter SO(2) for less than an hour. During the exposure, the mean value of apertures for many stomata, which indicates stomatal conductance and transpiration rate, tended to decrease simultaneously in the uninjured and injured regions. However, the rate of decrease in the injured region was slower than that in the uninjured region because of a transient opening induced by water-soaking in the injured region. The transient opening was less common in stomata near veins and veinlets.There was a good correlation between pore width and stomatal conductance measured with a porometer before exposure to SO(2). This correlation continued in leaves exposed to SO(2) until visible, irreversible injury occurred, but then it disappeared.The results of these experiments indicate the necessity of continuous observation of individual stomata under the microscope to understand the effects of air pollutants such as SO(2) on stomatal behavior.

[1]  J. Mudd 2 – SULFUR DIOXIDE , 1975 .

[2]  A. C. Hill Vegetation: a sink for atmospheric pollutants. , 1971, Journal of the Air Pollution Control Association.

[3]  P. Bannister,et al.  Pressure and Solute Potentials in Stomatal Cells of Tradescantia virginiana , 1979 .

[4]  G. Taylor,et al.  Sulfur Dioxide Flux into Leaves of Geranium carolinianum L. : Evidence for a Nonstomatal or Residual Resistance. , 1983, Plant physiology.

[5]  V. Black 4 – EFFECTS OF SULPHUR DIOXIDE ON PHYSIOLOGICAL PROCESSES IN PLANTS , 1982 .

[6]  D. Olszyk,et al.  Stomatal Response and Leaf Injury of Pisum sativum L. with SO(2) and O(3) Exposures : I. INFLUENCE OF POLLUTANT LEVEL AND LEAF MATURITY. , 1981, Plant physiology.

[7]  Yasushi Hashimoto,et al.  Observation of Stomatal Movements of Intact Plants Using an Image Instrumentation System with a Light Microscope , 1983 .

[8]  Studies of Air Pollutant Sorption by Plants , 1978 .

[9]  T. Mansfield,et al.  Effects of air pollutants on plants , 1978 .

[10]  R. Heath Initial Events in Injury to Plants by Air Pollutants , 1980 .

[11]  Y. Hashimoto,et al.  A Quantitative Analysis of the Relationships between SO2 or NO2 Sorption and Their Acute Effects on Plant Leaves Using Image Instrumentation , 1981 .

[12]  E. Zeiger,et al.  The biology of stomatal guard cells , 1983 .

[13]  Z. Glinka The Effect of Epidermal Cell Water Potential on Stomatal Response to Illumination of Leaf Discs of Vicia faba , 1971 .

[14]  C. Black,et al.  The Effects of Low Concentrations of Sulphur Dioxide on Stomatal Conductance and Epidermal Cell Survival in Field Bean (Vicia faba L.) , 1979 .

[15]  P. Freer-Smith,et al.  Chapter 10 – The role of stomata in resistance mechanisms , 1984 .

[16]  Kenji Omasa,et al.  Measurement of Stomatal Aperture by Digital Image Processing , 1984 .

[17]  M. Unsworth,et al.  Resistance analysis of sulphur dioxide fluxes to Vicia faba , 1979, Nature.

[18]  I. Rao,et al.  Effects of SO(2) on Stomatal Metabolism in Pisum sativum L. , 1983, Plant Physiology.

[19]  N. Kondo,et al.  Changes in transpiration rate of SO2-resistant and -sensitive plants with SO2 fumigation and the participation of abscisic acid , 1978 .

[20]  国立公害研究所 国立公害研究所 = The National Institute for Environmental Studies , 1981 .

[21]  Y. Hashimoto,et al.  Image Instrumentation of Plants Exposed to Air Pollutants , 1981 .