| Abstract: | The effects of separately or simultaneously induced dark chilling and drought stress were evaluated in two Glycine max (L.) Merrill cultivars. For the separately induced dark chilling treatment (C), plants were incubated at 8 °C during 9 consecutive dark periods. During the days, plants were kept at normal growth temperatures. For the separately induced drought treatment (D), plants were maintained at normal growth temperatures without irrigation. For the simultaneously induced dark chilling and drought stress treatment (CD), plants were dark chilled without irrigation. All treatments caused similar decreases in pre-dawn leaf water potential, but resulted in distinct physiological and biochemical effects on photosynthesis. In Maple Arrow, where C had the smallest effect on photosynthesis, prolonged CD caused less inhibition of photosynthesis compared to D. Compared to Fiskeby V, the photosynthetic apparatus of Maple Arrow appears to possess superior dark chilling tolerance, a property which probably also conveyed enhanced protection against CD. Proline accumulation was prevented by CD at the ψPD where D already resulted in considerable accumulation. The superior capacity for proline accumulation in Maple Arrow would seem to be an important factor in its stress tolerance. Antioxidant activity evoked by CD and D was higher than for C alone. In Fiskeby V, the small increase in ascorbate peroxidase (EC 1.11.1.7) activity, which was in most cases not accompanied by increased gluthatione reductase (EC 1.6.4.2) activity, could impact negatively on its stress tolerance. These results demonstrate large genotypic differences in response to chilling and drought stress, even between soybean cultivars regarded as chilling tolerant. |
