Review: Untangling the influence of air-mass history in interpreting observed atmospheric compositionReview ArticleVolumes 104–105, February 2012, Pages 1-39Zoë L. Fleming, Paul S. Monks, Alistair J. ManningAbstractClose graphical abstractPDF (6367 K)► Understanding air mass origin is essential to interpreting composition measurements. ► The use of wind measurements, trajectories and dispersion models are explained. ► Methods to link meteorological measurements with composition are explored. ► An historical and practical perspective on the various methods is given. ► A case study using the NAME dispersion model illustrates one such method.Open AccessOpen Access ArticleInvestigation of the 3-D actinic flux field in mountainous terrain
Is wind direction an adequate marker of air mass history? This review looks at the evolution of methods for assessing the effect of the origin and pathway of air masses on composition change and trends. The composition of air masses and how they evolve and the changing contribution of sources and receptors are key elements in atmospheric science. Source–receptor relationships of atmospheric composition can be investigated with back trajectory techniques, tracing forward from a defined geographical origin to arrive at measurement sites where the composition may have altered during transport.The distinction between the use of wind sector analysis, trajectory models and dispersion models to interpret composition measurements is explained and the advantages and disadvantages of each are illustrated with examples. Historical uses of wind roses, back trajectories and dispersion models are explained as well as the methods for grouping and clustering air masses. The interface of these methods to the corresponding chemistry measured at the receptor sites is explored. The review does not detail the meteorological derivation of trajectories or the complexity of the models but focus on their application and the statistical analyses used to compare them with in situ composition measurements. A newly developed methodology for analysing atmospheric observatory composition data according to air mass pathways calculated with the NAME dispersion model is given as a detailed case study. The steps in this methodology are explained with relevance to the Weybourne Atmospheric Observatory in the UK.
National Centre for Atmospheric Science (NCAS), Department of Chemistry, University of Leicester, Leicester, LE1 7RH, UK; Department of Chemistry, University of Leicester, Leicester, LE1 7RH, UK;Met Office, Exeter, EX1 3PB, UK
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Zoë,L. Fleminga,,等. Review: Untangling the influence of air-mass history in interpreting observed atmospheric compositionReview ArticleVolumes 104–105, February 2012, Pages 1-39Zoë L. Fleming, Paul S. Monks, Alistair J. ManningAbstractClose graphical abstractPDF (6367 K)► Understanding air mass origin is essential to interpreting composition measurements. ► The use of wind measurements, trajectories and dispersion models are explained. ► Methods to link meteorological measurements with composition are explored. ► An historical and practical perspective on the various methods is given. ► A case study using the NAME dispersion model illustrates one such method.Open AccessOpen Access ArticleInvestigation of the 3-D actinic flux field in mountainous terrain[J]. Atmospheric Research,2011-01-01,Volume 102