Overview
Published by the American Geophysical Union as part of theGeophysical Monograph Series, Volume 200. Trajectory-based ( Lagrangian ) atmospheric transportand dispersion modeling has gained in popularity and sophisticationover the previous several decades. It is common practice now forresearchers around the world to apply Lagrangian models to a widespectrum of issues. Lagrangian Modeling of the Atmosphere is a comprehensivevolume that includes sections on Lagrangian modeling theory, modelapplications, and tests against observations. Published by the American Geophysical Union as part of theGeophysical Monograph Series. Comprehensive coverage of trajectory-based atmosphericdispersion modeling Important overview of a widely used modeling tool Sections look at modeling theory, application of models, andtests against observations
Full Product Details
Author: John Lin , Dominik Brunner , Christoph Gerbig , Andreas Stohl
Publisher: American Geophysical Union
Imprint: American Geophysical Union
Volume: 200
ISBN: 9781118704400
ISBN 10: 1118704401
Pages: 349
Publication Date: 28 May 2013
Audience:
Professional and scholarly
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Professional & Vocational
Format: Electronic book text
Publisher's Status: Active
Availability: Available To Order 
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Table of Contents
Preface John C. Lin, Dominik Brunner, and Christoph Gerbig vii Lagrangian Modeling of the Atmosphere: An Introduction John C. Lin 1 Section I: Turbulent Dispersion: Theory andParameterization Turbulent Dispersion: Theory andParameterization-Overview Ashok K. Luhar 15 History of Lagrangian Stochastic Models for TurbulentDispersion D. J. Thomson and J. D. Wilson 19 Lagrangian Particle Modeling of Dispersion in Light Winds Ashok K. Luhar 37 Rogue Velocities in a Lagrangian Stochastic Model forIdealized Inhomogeneous Turbulence John D. Wilson 53 How Can We Satisfy the Well-Mixed Criterion in HighlyInhomogeneous Flows? A Practical Approach John C. Lin and Christoph Gerbig 59 Section II: Transport in Geophysical Fluids Transport in Geophysical Fluids-Overview Peter Haynes 73 Out of Flatland: Three-Dimensional Aspects of LagrangianTransport in Geophysical Fluids Mohamed H. M. Sulman, Helga S. Huntley, B. L. Lipphardt Jr., andA. D. Kirwan Jr 77 A Lagrangian Method for Simulating Geophysical Fluids Patrick Haertel 85 Entropy-Based and Static Stability-Based Lagrangian ModelGrids Paul Konopka, Felix Ploeger, and Rolf Muller 99 Moisture Sources and Large-Scale Dynamics Associated With aFlash Flood Event Margarida L. R. Liberato, Alexandre M. Ramos, Ricardo M. Trigo,Isabel F. Trigo, Ana Maria Duran-Quesada, Raquel Nieto,and Luis Gimeno 111 The Association Between the North Atlantic Oscillation and theInterannual Variability of the Tropospheric Transport Pathways inWestern Europe J. A. G. Orza, M. Cabello, V. Galiano, A. T. Vermeulen, and A.F. Stein 127 Section III: Applications of Lagrangian Modeling: GreenhouseGases Applications of Lagrangian Modeling: GreenhouseGases-Overview Christoph Gerbig 145 Estimating Surface-Air Gas Fluxes by Inverse Dispersion Using aBackward Lagrangian Stochastic Trajectory Model J. D. Wilson, T. K. Flesch, and B. P. Crenna 149 Linking Carbon Dioxide Variability at Hateruma Station to EastAsia Emissions by Bayesian Inversion Jiye Zeng, Hideaki Nakajima, Tsuneo Matsunaga, Hitoshi Mukai,Kaduo Hiraki, and Yasuhiro Yokota 163 The Use of a High-Resolution Emission Data Set in a GlobalEulerian-Lagrangian Coupled Model T. Oda, A. Ganshin, M. Saito, R. J. Andres, R. Zhuravlev, Y.Sawa, R. E. Fisher, M. Rigby, D. Lowry, K. Tsuboi, H. Matsueda, E.G. Nisbet, R. Toumi, A. Lukyanov, and S. Maksyutov 173 Toward Assimilation of Observation-Derived Mixing Heights toImprove Atmospheric Tracer Transport Models Roberto Kretschmer, Frank-Thomas Koch, Dietrich G. Feist,Gionata Biavati, Ute Karstens, and Christoph Gerbig 185 Estimating European Halocarbon Emissions Using LagrangianBackward Transport Modeling and in Situ Measurements at theJungfraujoch High-Alpine Site Dominik Brunner, Stephan Henne, Christoph A. Keller, Martin K.Vollmer, Stefan Reimann, and Brigitte Buchmann 207 Section IV: Atmospheric Chemistry Atmospheric Chemistry in Lagrangian Models-Overview Dominik Brunner 225 Global-Scale Tropospheric Lagrangian Particle Models With LinearChemistry S. Henne, C. Schnadt Poberaj, S. Reimann, and D. Brunner235 Quantitative Attribution of Processes Affecting AtmosphericChemical Concentrations by Combining a Time-Reversed LagrangianParticle Dispersion Model and a Regression Approach Joshua Benmergui, Sangeeta Sharma, Deyong Wen, and John C.Lin 251 Section V: Operational/Emergency Modeling Operational Emergency Preparedness Modeling-Overview Andreas Stohl 267 Operational Volcanic Ash Cloud Modeling: Discussion on ModelInputs, Products, and the Application of Real-Time ProbabilisticForecasting P. W. Webley and T. Steensen 271 A Bayesian Method to Rank Different Model Forecasts of the SameVolcanic Ash Cloud Roger P. Denlinger, Peter Webley, Larry G. Mastin, and HansSchwaiger 299 Review and Validation of MicroSpray, a Lagrangian Particle Modelof Turbulent Dispersion G. Tinarelli, L. Mortarini, S. Trini Castelli, G. Carlino, J.Moussafir, C. Olry, P. Armand, and D. Anfossi 311 Lagrangian Models for Nuclear Studies: Examples andApplications D. Arnold, P. Seibert, H. Nagai, G. Wotawa, P. Skomorowski, K.Baumann-Stanzer, E. Polreich, M. Langer, A. Jones, M. Hort, S.Andronopoulos, J. G. Bartzis, E. Davakis, P. Kaufmann, and A.Vargas 329 AGU Category Index 349
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Author Information
John Lin gained his qualifications in Biology and Earth& Planetary Sciences at Harvard University. He is currently Associate Professor at the Department ofEarth & Environmental Sciences at the University of Waterloo, Canada and is an Editorial Board Member for ScientificReports.
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