Editorial(s)
págs. 153-154
The European Stress Physiology and Climate Experiment-project - 1: wheat (ESPACE-wheat): introduction, aims and methodology
págs. 155-162
Climatic conditions and concentrations of carbon dioxide and air pollutants during 'ESPACE-wheat' experiments
págs. 163-169
Phenological development, leaf emergence, tillering and leaf area index, and duration of spring wheat across Europe in response to CO"2 and ozone
págs. 171-184
Growth and yield responses of spring wheat to increasing carbon dioxide, ozone and physiological stresses: a statistical analysis of 'ESPACE-wheat' results
págs. 185-195
Chlorophyll content of spring wheat flag leaves grown under elevated CO"2 concentrations and other environmental stresses within the 'ESPACE-wheat' project
págs. 197-203
Photosynthetic responses in spring wheat grown under elevated CO"2 concentrations and stress conditions in the European, multiple-site experiment 'ESPACE-wheat'
págs. 205-214
Effects on nutrients and on grain quality in spring wheat crops grown under elevated CO"2 concentrations and stress conditions in the European, multiple-site experiment 'ESPACE-wheat'
págs. 215-229
Simulation of growth and development processes of spring wheat in response to CO"2 and ozone for different sites and years in Europe using mechanistic crop simulation models
págs. 231-247
The effects of climatic variation in Europe on the yield response of spring wheat cv. Minaret to elevated CO"2 and O"3: an analysis of open-top chamber experiments by means of two crop growth simulation models
págs. 249-264
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