Differential stress responses of antioxidative systems to drought in pendunculate oak (Quercus robur) and maritime pine (Pinus pinaster) grown under high CO2 concentrations

doi:10.1093/jexbot/52.354.133

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Journal of Experimental Botany, Vol. 52, No. 354, pp. 133-143, January 2001
© 2001 Oxford University Press

Original Papers

Differential stress responses of antioxidative systems to drought in pendunculate oak (Quercus robur) and maritime pine (Pinus pinaster) grown under high CO₂ concentrations

Peter Schwanz¹ and Andrea Polle²^,3

¹ Albert-Ludwigs-Universität Freiburg, Institut für Forstbotanik und Baumphysiologie, Am Flughafen 17, D-79085 Freiburg, Germany
² Georg-August-Universität Göttingen, Forstbotanisches Institut, Büsgenweg 2, D-37077 Göttingen, Germany

Maritime pine (Pinus pinaster), a drought-avoiding species,contained 2–4-fold lower activities of superoxide dismutase,ascorbate peroxidase, catalase, dehydroascorbate reductase,and glutathione reductase than pendunculate oak (Quercus robur),a drought-tolerant species. The levels of ascorbate, monodehydroascorbateradical reductase activity, and glutathione in pine needleswere similar to those in oak leaves. In both species the developmentof drought stress, characterized by decreasing predawn waterpotentials, caused gradual reductions in antioxidant protection,increased lipid peroxidation, increased oxidation of ascorbateand glutathione and in pine also significant loss in solubleproteins and carotenoids. These results support the idea thatincreased drought-tolerance in oak as compared with pine isrelated to increased biochemical protection at the tissue level.To test the hypothesis that elevated CO₂ ameliorated drought-inducedinjury, young oak and pine trees acclimated to high CO₂ weresubjected to drought stress. Analysis of plots of enzymaticactivities and metabolites against predawn water potentialsrevealed that the drought stress-induced decreases in antioxidantprotection and increases in lipid peroxidation were dampenedat high CO₂. In pine, protein and pigment degradation were alsoslowed down. At high CO₂, superoxide dismutase activities increasedtransiently in drought-stressed trees, but collapsed in pinefaster than in oak. These observations suggest that the alleviationof drought-induced injury under elevated CO₂ is related to ahigher stability of antioxidative enzymes and an increased responsivenessof SOD to stressful conditions. This ameliorating mechanismexisted independently from the effects of elevated CO₂ on plantwater relations and is limited within a species-specific metabolicwindow.

Key words: Ascorbate, antioxidants, glutathione, drought stress, climate change, oxidative stress.

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