Journal
JOURNAL OF AGRICULTURAL SCIENCE
Volume 151, Issue 6, Pages 813-835Publisher
CAMBRIDGE UNIV PRESS
DOI: 10.1017/S0021859612000779
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Funding
- Scientific and Technological Research Council of Turkey [108O567]
- Academy of Finland [127329, 140806]
- German Ministry of Education and Research
- LANDCARE project
- CzechGlobe - Center for Global Climate Change Impacts Studies, Belidla, Brno, Czech Republic
- Academy of Finland (AKA) [140806, 140806, 127329, 127329] Funding Source: Academy of Finland (AKA)
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The objective of the present study was to compare the performance of seven different, widely applied crop models in predicting heat and drought stress effects. The study was part of a recent suite of model inter-comparisons initiated at European level and constitutes a component that has been lacking in the analysis of sources of uncertainties in crop models used to study the impacts of climate change. There was a specific focus on the sensitivity of models for winter wheat and maize to extreme weather conditions (heat and drought) during the short but critical period of 2 weeks after the start of flowering. Two locations in Austria, representing different agro-climatic zones and soil conditions, were included in the simulations over 2 years, 2003 and 2004, exhibiting contrasting weather conditions. In addition, soil management was modified at both sites by following either ploughing or minimum tillage. Since no comprehensive field experimental data sets were available, a relative comparison of simulated grain yields and soil moisture contents under defined weather scenarios with modified temperatures and precipitation was performed for a 2-week period after flowering. The results may help to reduce the uncertainty of simulated crop yields to extreme weather conditions through better understanding of the models' behaviour. Although the crop models considered (DSSAT, EPIC, WOFOST, AQUACROP, FASSET, HERMES and CROPSYST) mostly showed similar trends in simulated grain yields for the different weather scenarios, it was obvious that heat and drought stress caused by changes in temperature and/or precipitation for a short period of 2 weeks resulted in different grain yields simulated by different models. The present study also revealed that the models responded differently to changes in soil tillage practices, which affected soil water storage capacity.
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