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E-grāmata: Lagrangian Modeling of the Atmosphere

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  • Formāts: PDF+DRM
  • Sērija : Geophysical Monograph Series
  • Izdošanas datums: 28-May-2013
  • Izdevniecība: American Geophysical Union
  • Valoda: eng
  • ISBN-13: 9781118704400
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Lagrangian Modeling of the AtmospherePalielināt
  • Formāts: PDF+DRM
  • Sērija : Geophysical Monograph Series
  • Izdošanas datums: 28-May-2013
  • Izdevniecība: American Geophysical Union
  • Valoda: eng
  • ISBN-13: 9781118704400
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Published by the American Geophysical Union as part of the Geophysical Monograph Series, Volume 200.

Trajectory-based (“Lagrangian”) atmospheric transport and dispersion modeling has gained in popularity and sophistication over the previous several decades. It is common practice now for researchers around the world to apply Lagrangian models to a wide spectrum of issues.

Lagrangian Modeling of the Atmosphere is a comprehensive volume that includes sections on Lagrangian modeling theory, model applications, and tests against observations.

Published by the American Geophysical Union as part of the Geophysical Monograph Series.

  • Comprehensive coverage of trajectory-based atmospheric dispersion modeling
  • Important overview of a widely used modeling tool
  • Sections look at modeling theory, application of models, and tests against observations
Preface vii
John C. Lin
Dominik Brunner
Christoph Gerbig
Lagrangian Modeling of the Atmosphere: An Introduction
1(14)
John C. Lin
Section I Turbulent Dispersion: Theory and Parameterization
Turbulent Dispersion: Theory and Parameterization---Overview
15(4)
Ashok K. Luhar
History of Lagrangian Stochastic Models for Turbulent Dispersion
19(18)
D. J. Thomson
J. D. Wilson
Lagrangian Particle Modeling of Dispersion in Light Winds
37(16)
Ashok K. Luhar
"Rogue Velocities" in a Lagrangian Stochastic Model for Idealized Inhomogeneous Turbulence
53(6)
John D. Wilson
How Can We Satisfy the Well-Mixed Criterion in Highly Inhomogeneous Flows? A Practical Approach
59(14)
John C. Lin
Christoph Gerbig
Section II Transport in Geophysical Fluids
Transport in Geophysical Fluids---Overview
73(4)
Peter Haynes
Out of Flatland: Three-Dimensional Aspects of Lagrangian Transport in Geophysical Fluids
77(8)
Mohamed H. M. Sulman
Helga S. Huntley
B. L. Lipphardt Jr.
A. D. Kirwan Jr.
A Lagrangian Method for Simulating Geophysical Fluids
85(14)
Patrick Haertel
Entropy-Based and Static Stability-Based Lagrangian Model Grids
99(12)
Paul Konopka
Felix Ploeger
Rolf Muller
Moisture Sources and Large-Scale Dynamics Associated With a Flash Flood Event
111(16)
Margarida L. R. Liberato
Alexandre M. Ramos
Ricardo M. Trigo
Isabel F. Trigo
Ana Maria Duran-Quesada
Raquel Nieto
Luis Gimeno
The Association Between the North Atlantic Oscillation and the Interannual Variability of the Tropospheric Transport Pathways in Western Europe
127(18)
I. A. G. Orza
M. Cabello
V. Galiano
A. T. Vermeulen
A. F. Stein
Section III Applications of Lagrangian Modeling: Greenhouse Gases
Applications of Lagrangian Modeling: Greenhouse Gases---Overview
145(4)
Christoph Gerbig
Estimating Surface-Air Gas Fluxes by Inverse Dispersion Using a Backward Lagrangian Stochastic Trajectory Model
149(14)
J. D. Wilson
T. K. Flesch
B. P. Crenna
Linking Carbon Dioxide Variability at Hateruma Station to East Asia Emissions by Bayesian Inversion
163(10)
Jiye Zeng
Hideaki Nakajima
Tsuneo Matsunaga
Hitoshi Mukai
Kaduo Hiraki
Yasuhiro Yokota
The Use of a High-Resolution Emission Data Set in a Global Eulerian-Lagrangian Coupled Model
173(12)
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
S. Maksyutov
Toward Assimilation of Observation-Derived Mixing Heights to Improve Atmospheric Tracer Transport Models
185(22)
Roberto Kretschmer
Frank-Thomas Koch
Dietrich G. Feist
Gionata Biavati
Ute Karstens
Christoph Gerbig
Estimating European Halocarbon Emissions Using Lagrangian Backward Transport Modeling and in Situ Measurements at the Jungfraujoch High-Alpine Site
207(18)
Dominik Brunner
Stephan Henne
Christoph A. Keller
Martin K. Vollmer
Stefan Reimann
Brigitte Buchmann
Section IV Atmospheric Chemistry
Atmospheric Chemistry in Lagrangian Models---Overview
225(10)
Dominik Brunner
Global-Scale Tropospheric Lagrangian Particle Models With Linear Chemistry
235(16)
S. Henne
C. Schnadt Poberaj
S. Reimann
D. Brunner
Quantitative Attribution of Processes Affecting Atmospheric Chemical Concentrations by Combining a Time-Reversed Lagrangian Particle Dispersion Model and a Regression Approach
251(16)
Joshua Benmergui
Sangeeta Sharma
Deyong Wen
John C. Lin
Section V Operational/Emergency Modeling
Operational Emergency Preparedness Modeling---Overview
267(4)
Andreas Stohl
Operational Volcanic Ash Cloud Modeling: Discussion on Model Inputs, Products, and the Application of Real-Time Probabilistic Forecasting
271(28)
P. W. Webley
T. Steensen
A Bayesian Method to Rank Different Model Forecasts of the Same Volcanic Ash Cloud
299(12)
Roger P. Denlinger
Peter Webley
Larry G. Mastin
Hans Schwaiger
Review and Validation of MicroSpray, a Lagrangian Particle Model of Turbulent Dispersion
311(18)
G. Tinarelli
L. Mortarini
S. Trini Castelli
G. Carlino
J. Moussafir
C. Olry
P. Armand
D. Anfossi
Lagrangian Models for Nuclear Studies: Examples and Applications
329(20)
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
A. Vargas
AGU Category Index 349
John Lin gained his qualifications in Biology and Earth & Planetary Sciences at Harvard University. He is currently Associate Professor at the Department of Earth & Environmental Sciences at the University of Waterloo, Canada and is an Editorial Board Member for Scientific Reports. 
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