Reduction in growth of hybrid poplar following field exposure to low levels of O3 and (or) SO2

Abstract

A field fumigation system was modified from one described elsewhere, and used to expose unenclosed hybrid poplar plants (Populus deltoides × trichocarpa) to low levels of O₃ and (or) SO₂. A 3 × 3 factorial design was employed, allowing for analysis of individual effects and potential interactions between the two pollutants. Two experiments were conducted during the summer of 1980. During the experiments, levels of ambient SO₂ and O₃ were near zero (3 and SO₂ for 5–6 h/day. Fumigations with O₃ and SO₂ were made on 17 of 27 (first experiment) and 13 of 20 (second experiment) days, respectively. Exposure to two greater than ambient levels of O₃ (mean concentrations, 0.06 or 0.08 ppm) and (or) SO₂ (mean concentrations, 0.06 or 0.11 ppm) resulted in reductions in growth, dry matter accumulation, and leaf longevity. No significant interactions between the pollutants were observed and O₃ had approximately a three times greater negative effect than SO₂ on either a concentration or dose basis. All significant pollutant effects were linear with respect to total dose or average exposure concentration. The negative impact of low doses of O₃ suggests a need for concern, since low level O₃ pollution is chronic during the growing season in much of eastern North America.