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Free keywords:
CHLOROPHYLL FLUORESCENCE; XANTHOPHYLL CYCLE; MIDDAY DEPRESSION; PLANT
DIVERSITY; ELEVATED CO2; PHOTOSYNTHESIS; TEMPERATURE; PRODUCTIVITY;
BIODIVERSITY; PHOTOPROTECTION
Abstract:
In view of the projected climatic changes and the global decrease in plant species diversity, it is critical to understand the effects of elevated air temperature (T-air) and species richness (S) on physiological processes in plant communities. Therefore, an experiment of artificially assembled grassland ecosystems, with different S (one, three or nine species), growing in sunlit climate-controlled chambers at ambient T-air and ambient T-air + 3 degrees C was established. We investigated whether grassland species would be more affected by midday high-temperature stress during summer in a warmer climate scenario. The effect of elevated T-air was expected to differ with S. This was tested in the second and third experimental years by means of chlorophyll a fluorescence. Because acclimation to elevated T-air would affect the plant's stress response, the hypothesis of photosynthetic acclimation to elevated T-air was tested in the third year by gas exchange measurements in the monocultures. Plants in the elevated T-air chambers suffered more from midday stress on warm summer days than those in ambient chambers. In absence of severe drought, the quantum yield of PSII was not affected by elevated T-air. Our results further indicate that species had not photosynthetically acclimated to a temperature increase of 3 degrees C after 3 years exposure to a warmer climate. Although effects of S and T-air x S interactions were mostly not significant in our study, we expect that combined effects of T-air and S would be important in conditions of severe drought events.
