期刊
GLOBAL CHANGE BIOLOGY
卷 17, 期 7, 页码 2342-2359出版社
WILEY
DOI: 10.1111/j.1365-2486.2010.02387.x
关键词
biogenic emissions; chemistry transport model; leaf area index; ozone; photosynthesis; terrestrial ecosystem model
资金
- CIRCE-EU
The impact of ozone (O-3) on European vegetation is largely under-investigated, despite huge areas of Europe are exposed to high O-3 levels and which are expected to increase in the next future. We studied the potential effects of O-3 on photosynthesis and leaf area index (LAI) as well as the feedback between vegetation and atmospheric chemistry using a land surface model (ORCHIDEE) at high spatial resolution (30 km) coupled with a chemistry transport model (CHIMERE) for the whole year 2002. Our results show that the effect of tropospheric O-3 on vegetation leads to a reduction in yearly gross primary production (GPP) of about 22% and a reduction in LAI of 15-20%. Larger impacts have been found during summer, when O-3 reaches higher concentrations. During these months the maximum GPP decrease is up to 4 g C m-2 day-1, and the maximum LAI reduction is up to 0.7 m2 m-2. Since CHIMERE uses the LAI computed by ORCHIDEE to estimate the biogenic emissions, a LAI reduction may have severe implications on the simulated atmospheric chemistry. We found a large change in O-3 precursors that however leads to small changes in tropospheric O-3 concentration, while larger changes have been found for surface NO2 concentrations.
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