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Measuring, modelling and testing ozone exposure, flux and effects on vegetation in southern European conditions-What does not work? A review from Italy

TitleMeasuring, modelling and testing ozone exposure, flux and effects on vegetation in southern European conditions-What does not work? A review from Italy
Publication TypeArticolo su Rivista peer-reviewed
Year of Publication2007
AuthorsFerretti, M., Fagnano M., Amoriello T., Badiani M., Ballarin-Denti A., Buffoni A., Bussotti F., Castagna A., Cieslik S., Costantini A., De Marco Alessandra, Gerosa G., Lorenzini G., Manes F., Merola G., Nali C., Paoletti E., Petriccione B., Racalbuto S., Rana G., Ranieri A., Tagliaferri A., Vialetto G., and Vitale M.
JournalEnvironmental Pollution
Volume146
Pagination648-658
ISSN02697491
KeywordsAgricultural, article, atmospheric modeling, atmospheric pollution, Biological, concentration (parameters), Critical levels, Crop, Crops, environmental exposure, environmental factor, Environmental impact, Environmental monitoring, Environmental parameters, Eurasia, Europe, Fluxes, forest, Italy, limiting factor, Mathematical models, Measurement theory, Mediterranean environment, Mediterranean region, Models, nonhuman, Oxidants, oxygen diffusion, Ozone, Ozone flux, Photochemical, Plant leaves, plant model, Plant response, Pollution control, pollution effect, pollution exposure, Risk assessment, Southern Europe, Stomatal conductance, Stomatal flux, Trees, Uncertainty, Vegetation
Abstract

Ozone (O3) exposure at Italian background sites exceeds UN/ECE concentration-based critical levels (CLec), if expressed in terms of AOT40. Yet the occurrence of adverse effects of O3 on forests and crops is controversial. Possible reasons include (i) ability of response indicators to provide an unbiased estimate of O3 effects, (ii) setting of current CLec in terms of cut-off value and accumulation level, (iii) response functions adopted to infer a critical level, (iv) environmental limitation to O3 uptake and (v) inherent characteristics of Mediterranean vegetation. In particular, the two latter points suggest that critical levels based on accumulated stomatal flux (CLef) can be a better predictor of O3 risk than CLec. While this concept is largely acknowledged, a number of factors may limit its applicability for routine monitoring. This paper reviews levels, uptake and vegetation response to O3 in Italy over recent years to discuss value, uncertainty and feasibility of different approaches to risk assessment. © 2006 Elsevier Ltd. All rights reserved.

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URLhttps://www.scopus.com/inward/record.uri?eid=2-s2.0-33847099394&doi=10.1016%2fj.envpol.2006.05.012&partnerID=40&md5=dcfa1b69b755f9f020fc83248f4a9546
DOI10.1016/j.envpol.2006.05.012
Citation KeyFerretti2007648