CO2 EXCHANGE RATES AND STOMATAL DIFFUSIVE RESISTANCE IN SOYBEAN EXPOSED TO O3 AND SO2

Abstract

Soybean (Glycine max (L.) Merr. ’Essex’) plants, 21–24 days old, were exposed to 400 μg/m³ (0.20 μL/L) ozone (O₃) and 1865 μg/m³ (0.70 μL/L) sulfur dioxide (SO₂) in various combinations. Fumigation was administered for 2 h either as single pollutants (O₃ and SO₂), simultaneously (O₃ + SO₂), or in overlapping pollutant combinations (O₃ for 1 h followed by O₃ + SO₂ or SO₂ for 1 h followed by SO₂ + O₃). Carbon dioxide exchange rates (CER) of trifoliolate leaves were measured during the fumigations, and stomatal resistance to H₂O was determined immediately before and after pollutant exposure. At the end of a 2-h exposure, O₃ and SO₂, administered separately, did not significantly affect CER. Exposure to O₃ followed by O₃ + SO₂, SO₂ followed by SO₂ + O₃, and continuous O₃ + SO₂ significantly reduced CER to 62, 41 and 33% of preexposure rates, respectively. Stomatal resistance was not significantly altered by pollutant fumigation except in the simultaneous application of O₃ + SO₂ where an 11% decrease occurred. Reductions in CER in response to fumigation were not attributed to changes in stomatal resistance, but appeared to result from changes in mesophyll resistance. A proposed mechanism for pollutant-induced reduction in CER is discussed.Key words: Air pollution, net photosynthesis, pollutant mixtures