Ameliorating effect of UV‐B radiation on the response of Norway spruce and Scots pine to ambient ozone concentrations
Autor: | Jörg-Peter Schnitzler, Michael Lippert, Thorsten Döhring, Günther Bahnweg, Werner Heller, Jinchen Liu, Christian Langebartels, Heinrich Sandermann |
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Přispěvatelé: | Publica |
Rok vydání: | 1999 |
Předmět: |
Stomatal conductance
Ozone Growing season Photosynthesis UV-B radiation chemistry.chemical_compound simulated alpine climate Botany Environmental Chemistry General Environmental Science Global and Planetary Change climate chambers Ecology biology Picea abies RuBisCO Scots pine biology.organism_classification Photosynthetic capacity ozone Horticulture chemistry pinus sylvestries biology.protein Environmental science |
Zdroj: | Global Change Biology. 5:83-94 |
ISSN: | 1365-2486 1354-1013 |
Popis: | Elevated levels of both ozone and UV-B radiation are typical for high-altitude sites. Few studies have investigated their possible interaction on plants. This study reports interactive effects of O3 and UV-B radiation in four-year-old Norway spruce and Scots pine trees. The trees were cultivated in controlled environmental facilities under simulated climatic conditions recorded on Mt Wank, an Alpine mountain in Bavaria, and were exposed for one growing season to simulated ambient or twice-ambient ozone regimes at either near ambient or near zero UV-B radiation levels. Chlorotic mottling and yellowing of current year needles became obvious under twice-ambient O3 in both species at the onset of a high ozone episode in July. Development of chlorotic mottling in relation to accumulated ozone concentrations over a threshold of 40 nL L–1 was more pronounced with near zero rather than ambient UV-B radiation levels. In Norway spruce, photosynthetic parameters at ambient CO2 concentration, measured at the end of the experiment, were reduced in trees cultivated under twice-ambient O3, irrespective of the UV-B treatment. Effects on photosynthetic capacity and carboxylation efficiency were restricted to trees exposed to near zero levels of UV-B radiation, and twice-ambient O3. The data indicate that UV-B radiation, applied together with O3, ameliorates the detrimental effects of O3. The data also demonstrate that foliar symptoms develop more rapidly in Scots pine than in Norway spruce at higher accumulated ozone concentrations. Symbols and abbreviations: LSD, least significant difference; PAS300, UV-B irradiance weighted according to the plant action spectrum of Green et al. (1974) normalized at 300 (nm); AOT40, (AOT = accumulated over threshold) reflects the sum of hourly ozone concentrations above 40 nL L–1 during daylight hours (> 50 Wm–2) ( Karenlampi & Skarby 1996); A350, net photosynthesis at ambient CO2; G350, stomatal conductance for water vapour at ambient CO2; A2500, net photosynthesis at saturating CO2 (maximal potential photosynthetic activity); CE, carboxylation efficiency; ROS, reactive oxygen species; RuBP, ribulose 1,5-bisphosphate; Rubisco, ribulose 1,5-bisphosphate carboxylase/oxygenase; GLM, general linear model. |
Databáze: | OpenAIRE |
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