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Global topics and novel approaches in the study of air pollution, climate change and forest ecosystems

TitoloGlobal topics and novel approaches in the study of air pollution, climate change and forest ecosystems
Tipo di pubblicazioneArticolo su Rivista peer-reviewed
Anno di Pubblicazione2016
AutoriSicard, P., Augustaitis A., Belyazid S., Calfapietra C., De Marco Alessandra, Fenn M., Bytnerowicz A., Grulke N., He S., Matyssek R., Serengil Y., Wieser G., and Paoletti E.
RivistaEnvironmental Pollution
Volume213
Paginazione977-987
ISSN02697491
Parole chiaveAir pollution, Air pollution control, Air quality, Beam plasma interactions, Climate change, Climate models, Climatic stressors, Cost effectiveness, Dose response relationships, Ecology, Ecosystems, Environmental stress, forestry, Hydrological parameters, Interaction networks, Mechanistic effects, Nitrogen, Nitrogen deposition, Ozone, Physiological models, Pollution, Pollution control, Remote sensing, Risk assessment, Urban forests, Volatile organic compounds, Water pollution, Water pollution control
Abstract

Research directions from the 27th conference for Specialists in Air Pollution and Climate Change Effects on Forest Ecosystems (2015) reflect knowledge advancements about (i) Mechanistic bases of tree responses to multiple climate and pollution stressors, in particular the interaction of ozone (O3) with nitrogen (N) deposition and drought; (ii) Linking genetic control with physiological whole-tree activity; (iii) Epigenetic responses to climate change and air pollution; (iv) Embedding individual tree performance into the multi-factorial stand-level interaction network; (v) Interactions of biogenic and anthropogenic volatile compounds (molecular, functional and ecological bases); (vi) Estimating the potential for carbon/pollution mitigation and cost effectiveness of urban and peri-urban forests; (vii) Selection of trees adapted to the urban environment; (viii) Trophic, competitive and host/parasite relationships under changing pollution and climate; (ix) Atmosphere–biosphere–pedosphere interactions as affected by anthropospheric changes; (x) Statistical analyses for epidemiological investigations; (xi) Use of monitoring for the validation of models; (xii) Holistic view for linking the climate, carbon, N and O3 modelling; (xiii) Inclusion of multiple environmental stresses (biotic and abiotic) in critical load determinations; (xiv) Ecological impacts of N deposition in the under-investigated areas; (xv) Empirical models for mechanistic effects at the local scale; (xvi) Broad-scale N and sulphur deposition input and their effects on forest ecosystem services; (xvii) Measurements of dry deposition of N; (xviii) Assessment of evapotranspiration; (xix) Remote sensing assessment of hydrological parameters; and (xx) Forest management for maximizing water provision and overall forest ecosystem services. Ground-level O3 is still the phytotoxic air pollutant of major concern to forest health. Specific issues about O3 are: (xxi) Developing dose–response relationships and stomatal O3 flux parameterizations for risk assessment, especially, in under-investigated regions; (xxii) Defining biologically based O3 standards for protection thresholds and critical levels; (xxiii) Use of free-air exposure facilities; (xxiv) Assessing O3 impacts on forest ecosystem services. © 2016 Elsevier Ltd

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URLhttps://www.scopus.com/inward/record.uri?eid=2-s2.0-84957927990&doi=10.1016%2fj.envpol.2016.01.075&partnerID=40&md5=61cb39807a42cafacc4bedc16dd818d8
DOI10.1016/j.envpol.2016.01.075
Citation KeySicard2016977