Complex interplay of future climate levels of CO2, ozone and temperature on susceptibility to fungal diseases in barley |
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| Authors: | B L Mikkelsen R B Jørgensen M F Lyngkjær |
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| Affiliation: | 1. Department of Plant and Environmental Sciences, University of Copenhagen, Frederiksberg C, Denmark;2. Department of Chemical and Biochemical Engineering, Technical University of Denmark, Roskilde, Denmark |
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| Abstract: | Barley (Hordeum vulgare) was grown in different climatic environments with elevated CO2] (700 vs 385 ppm), O3] (60/90 vs 20 ppb) and temperature (24/19 vs 19/12°C day/night) as single factors and in combinations, to evaluate the impact of these climatic factors on photosynthesis and susceptibility to powdery mildew and spot blotch disease. No significant increase in net CO2 assimilation rate was observed in barley grown under elevated CO2] at ambient temperature. However, this rate was positively stimulated under elevated temperature together with a slightly higher potential quantum efficiency of PSII, both at ambient and elevated CO2], suggesting that photosynthesis was not limited by CO2] at ambient temperature. When growing under elevated temperature or O3], infection by the biotrophic powdery mildew fungus decreased, whereas disease symptoms and growth of the toxin‐secreting hemibiotrophic spot blotch fungus increased compared to ambient conditions, implying that climate‐induced changes in disease severity could be linked to the trophic lifestyle of the pathogens. Elevated CO2] decreased powdery mildew infection but had no effect on spot blotch disease compared to ambient condition. However, the effect of elevated CO2], O3] and temperature did not act in an additive manner when combined. This led to a surprising disease development in the combination treatments, where powdery mildew infection increased despite the individual reducing effect of the climatic factors, and spot blotch disease decreased despite the individual promoting effect of temperature and ozone, emphasizing the importance of conducting multifactorial experiments when evaluating the potential effects of climate change. |
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| Keywords: | climate change
CO
2
ozone photosynthesis powdery mildew spot blotch |
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