The offline Lagrangian particle model FLEXPART-NorESM/CAM (v1): model description and comparisons with the online NorESM transport scheme and with the reference FLEXPART model
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Andreas Stohl | Massimo Cassiani | Dirk Olivié | Øyvind Seland | Ingo Bethke | Ignacio Pisso | Trond Iversen | I. Pisso | A. Stohl | T. Iversen | I. Bethke | Ø. Seland | M. Cassiani | D. Oliviè
[1] Stephen B. Pope,et al. Consistency conditions for random‐walk models of turbulent dispersion , 1987 .
[2] A. Kirkevåg,et al. Aerosol-climate interactions in the CAM-Oslo atmospheric GCM and investigation of associated basic shortcomings , 2008 .
[3] D. Thomson. Criteria for the selection of stochastic models of particle trajectories in turbulent flows , 1987, Journal of Fluid Mechanics.
[4] Paul F. Dubois,et al. Software for Portable Scientific Data Management , 1993 .
[5] D. Thomson,et al. A Density Correction for Lagrangian Particle Dispersion Models , 1999 .
[6] Michael Schulz,et al. Aerosol–climate interactions in the Norwegian Earth System Model – NorESM1-M , 2012 .
[7] Mark Lawrence,et al. Supplementary material to : Uncertainties in atmospheric chemistry modelling due to convection parameterisations and subsequent scavenging , 2010 .
[8] Ivar A. Seierstad,et al. The Norwegian Earth System Model, NorESM1-M – Part 2: Climate response and scenario projections , 2012 .
[9] Ariel F. Stein,et al. Inline Coupling of WRF–HYSPLIT: Model Development and Evaluation Using Tracer Experiments , 2015 .
[10] A. Stohl,et al. Validation of the lagrangian particle dispersion model FLEXPART against large-scale tracer experiment data , 1998 .
[11] Petra Seibert,et al. Source-receptor matrix calculation with a Lagrangian particle dispersion model in backward mode , 2004 .
[12] Eugene Genikhovich,et al. Construction of the SILAM Eulerian atmospheric dispersion model based on the advection algorithm of Michael Galperin , 2015 .
[13] Stephen B. Pope,et al. Implicit and explicit schemes for mass consistency preservation in hybrid particle/finite-volume algorithms for turbulent reactive flows , 2014, J. Comput. Phys..
[14] Harald Sodemann,et al. Source identification of short-lived air pollutants in the Arctic using statistical analysis of measurement data and particle dispersion model output , 2010 .
[15] J. Thepaut,et al. The ERA‐Interim reanalysis: configuration and performance of the data assimilation system , 2011 .
[16] A. Stohl,et al. Technical note: The Lagrangian particle dispersion model FLEXPART version 6.2 , 2005 .
[17] Marika M. Holland,et al. Improved sea ice shortwave radiation physics in CCSM4: The impact of melt ponds and aerosols on Arctic Sea ice , 2012 .
[18] Robert Sausen,et al. ATTILA: atmospheric tracer transport in a Lagrangian model , 2002 .
[19] Elizabeth C. Kent,et al. Global analyses of sea surface temperature , 2003 .
[20] David J. Thomson. THE PARAMETRIZATION OF THE VERTICAL DISPERSION OF A SCALAR IN THE ATMOSPHERIC BOUNDARY LAYER BY VENKATRAM A. (1993) ATMOSPHERIC ENVIRONMENT 27A, 1963- 1966 , 1995 .
[21] R. Neale,et al. The Impact of Convection on ENSO: From a Delayed Oscillator to a Series of Events , 2008 .
[22] Shian‐Jiann Lin. A “Vertically Lagrangian” Finite-Volume Dynamical Core for Global Models , 2004 .
[23] Philip J. Rasch,et al. A Comparison of the CCM3 Model Climate Using Diagnosed and Predicted Condensate Parameterizations , 1998 .
[24] N. McFarlane,et al. Sensitivity of Climate Simulations to the Parameterization of Cumulus Convection in the Canadian Climate Centre General Circulation Model , 1995, Data, Models and Analysis.
[25] Alberto Maurizi,et al. IL-GLOBO (1.0) - integrated Lagrangian particle model and Eulerian general circulation model GLOBO: development of the vertical diffusion module , 2014 .
[26] John C. Lin,et al. Toward constraining regional‐scale fluxes of CO2 with atmospheric observations over a continent: 2. Analysis of COBRA data using a receptor‐oriented framework , 2003 .
[27] Trude Storelvmo,et al. Aerosol-climate interactions in the CAM-Oslo atmospheric GCM and investigation of associated basic shortcomings , 2008 .
[28] D. Lawrence,et al. Parameterization improvements and functional and structural advances in Version 4 of the Community Land Model , 2011 .
[29] J. Hack. Parameterization of moist convection in the National Center for Atmospheric Research community climate model (CCM2) , 1994 .
[30] G. Danabasoglu,et al. The Community Climate System Model Version 4 , 2011 .
[31] G. Campbell,et al. An Introduction to Environmental Biophysics , 1977 .
[32] A. Kirkevåg,et al. The Norwegian Earth System Model, NorESM1-M – Part 1: Description and basic evaluation of the physical climate , 2013 .
[33] W. Verkley. The statistical mechanics of turbulent flows , 2010 .
[34] Andreas Stohl,et al. The dispersion characteristics of air pollution from the world's megacities , 2012 .
[35] Albert A. M. Holtslag,et al. Local Versus Nonlocal Boundary-Layer Diffusion in a Global Climate Model , 1993 .
[36] Karl E. Taylor,et al. An overview of CMIP5 and the experiment design , 2012 .
[37] John C. Lin,et al. A near-field tool for simulating the upstream influence of atmospheric observations: The Stochastic Time-Inverted Lagrangian Transport (STILT) model , 2003 .
[38] Gerhard Wotawa,et al. The Lagrangian particle dispersion model FLEXPART-WRF version 3.1 , 2013 .
[39] Volker Grewe,et al. On the theory of mass conserving transformations for Lagrangian methods in 3D atmosphere-chemistry models , 2014 .
[40] Daewon W. Byun,et al. Dynamically Consistent Formulations in Meteorological and Air Quality Models for Multiscale Atmospheric Studies. Part II: Mass Conservation Issues , 1999 .
[41] P. Hurley,et al. Evaluation of TAPM, a prognostic meteorological and air pollution model, using urban and rural point-source data , 2003 .
[42] D. Stevenson,et al. Tropospheric Ozone in a Global-Scale Three-Dimensional Lagrangian Model and Its Response to NOX Emission Controls , 1997 .
[43] David S. Lee,et al. Historical (1850–2000) gridded anthropogenic and biomass burning emissions of reactive gases and aerosols: methodology and application , 2010 .
[44] A. Simmons,et al. An Energy and Angular-Momentum Conserving Vertical Finite-Difference Scheme and Hybrid Vertical Coordinates , 1981 .
[45] Mariano Hortal,et al. A finite‐element scheme for the vertical discretization of the semi‐Lagrangian version of the ECMWF forecast model , 2004 .
[46] Peter E. Thornton,et al. Preindustrial-Control and Twentieth-Century Carbon Cycle Experiments with the Earth System Model CESM1(BGC) , 2014 .
[47] T. Berntsen,et al. Evaluating the climate and air quality impacts of short-lived pollutants , 2015 .
[48] Eugene Yee,et al. Backward-Time Lagrangian Stochastic Dispersion Models and Their Application to Estimate Gaseous Emissions , 1995 .
[49] Frank Arnold,et al. A Backward Modeling Study of Intercontinental Pollution Transport using Aircraft Measurements , 2003 .
[50] Nils Gunnar Kvamstø,et al. Simulated pre-industrial climate in Bergen Climate Model (version 2): model description and large-scale circulation features , 2009 .
[51] Christoph Heinze,et al. An isopycnic ocean carbon cycle model , 2009 .
[52] Andreas Stohl,et al. Lagrangian Stochastic Modelling of Dispersion in the Convective Boundary Layer with Skewed Turbulence Conditions and a Vertical Density Gradient: Formulation and Implementation in the FLEXPART Model , 2014, Boundary-Layer Meteorology.
[53] Jahrul M. Alam,et al. Toward a Fully Lagrangian Atmospheric Modeling System , 2008 .
[54] J. Ottino. The Kinematics of Mixing: Stretching, Chaos, and Transport , 1989 .
[55] Charles S. Zender,et al. Linking snowpack microphysics and albedo evolution , 2006 .
[56] Andreas Stohl,et al. FLEXINVERT: an atmospheric Bayesian inversion framework for determining surface fluxes of trace species using an optimized grid , 2014 .
[57] Daewon W. Byun,et al. Dynamically Consistent Formulations in Meteorological and Air Quality Models for Multiscale Atmospheric Studies. Part I: Governing Equations in a Generalized Coordinate System , 1999 .
[58] Michael P. Brenner,et al. Resolving intercontinental pollution plumes in global models of atmospheric transport , 2010 .
[59] A. Holtslag,et al. Evaluation and model impacts of alternative boundary-layer height formulations , 1996 .
[60] Michael Schulz,et al. The Community Climate System Model (version 2.0.1) on the HLRN supercomputer: Adjustment, accelerated integration, and present-day control run , 2006 .
[61] Petra Seibert,et al. Parameterization of Convective Transport in a Lagrangian Particle Dispersion Model and Its Evaluation , 2007 .
[62] Kerry Emanuel,et al. Development and Evaluation of a Convection Scheme for Use in Climate Models , 1999 .
[63] Rainer Bleck,et al. Salinity-driven Thermocline Transients in a Wind- and Thermohaline-forced Isopycnic Coordinate Model of the North Atlantic , 1992 .
[64] John D. Albertson,et al. An efficient algorithm for scalar PDF modelling in incompressible turbulent flow; numerical analysis with evaluation of IEM and IECM micro-mixing models , 2007, J. Comput. Phys..
[65] Dominik Brunner,et al. Validation of the Swiss methane emission inventory by atmospheric observations and inverse modelling , 2015 .
[66] Volker Grewe,et al. Implications of Lagrangian transport for simulations with a coupled chemistry-climate model , 2009 .
[67] Philip J. Rasch,et al. Characteristics of Atmospheric Transport Using Three Numerical Formulations for Atmospheric Dynamics in a Single GCM Framework , 2006 .
[68] Stephen B. Pope,et al. The hybrid method for the PDF equations of turbulent reactive flows: consistency conditions and correction algorithms , 2001 .
[69] Philip J. Rasch,et al. Effects of Convective Momentum Transport on the Atmospheric Circulation in the Community Atmosphere Model, Version 3 , 2008 .