Project Description

Modelling Tools & Demonstration

UCLALES-SALSA – University of California, Los Angeles Large Eddy Simulations Model coupled to Sectional Aerosol Module for Large Scale Applications (Juha Tonttila <juha.tonttila@fmi.fi>, Harri Kokkola <harri.kokkola@fmi.fi>; Atmospheric Research Centre of Eastern Finland, Finnish Meteorological Institute, Finland)

SOSAA  – model to Simulate Organic compound, Sulfuric Acid and Aerosols (Michael Boy <michael.boy@helsinki.fi>; University of Helsinki, Department of Physics, Division of Atmospheric Sciences, Finland)

CH4MOD – a process-based model for simulation of CH4 emissions from natural/ managed wetlands (Wen Zhang <zhw@mail.iap.ac.cn> & Tingting Li <litingting@mail.iap.ac.cn>; Institute of Atmospheric Physics, Chinese Academy of Sciences, China)

Agro-C – a process-based model for simulating crop photosynthesis, respiration and other processes involved in crop growth and carbon/ nitrogen dynamics in soils (Yongqiang Yu <yuyq@mail.iap.ac.cn> & Wen Zhang <zhw@mail.iap.ac.cn> & Qing Zhang <zhangqing@mail.iap.ac.cn>; Institute of Atmospheric Physics, Chinese Academy of Sciences, China)

AVIM2 – Atmosphere-Vegetation Interaction Model (version 2) (Mei Huang <huangm@igsnrr.ac.cn>; – Institute of Geographic Sciences and Natural Resources Research, Chinese Academy of Sciences, Chinese Academy of Sciences, China)

GEOS-Chem – Goddard Earth Observing System Chemical Model (Konstantin Moiseenko <konst.dvina@gmail.com>; Obukhov Institute of Atmospheric Physics, Russian Academy of Sciences, Russia & Hang Su <h.su@mpic.de> , Siwen Wang; Max Planck Institute for Chemistry, Germany)

WRF-Chem – Weather Research and Forecasting model coupled to Chemistry (Yafang Cheng <yafang.cheng@mpic.de>, Jiandong Wang; Max Planck Institute for Chemistry, Germany & Igor Esau <igor.ezau@nersc.no>, Tobias Wolf-Grosse; Nansen Environmental and Remote Sensing Center, Norway); more info at: https://ruc.noaa.gov/wrf/wrf-chem

DNDC_HONO – DeNitrification-DeComposition Nitrous Acid Emission model (Hang Su <h.su@mpic.de>, Chuchu Chen; Max Planck Institute for Chemistry, Germany); more info at: http://www.dndc.sr.unh.edu

SILAM – System for Integrated modeLling of Atmospheric coMposition; troposphere and stratosphere multi-scale chemical transport model (Mikhail Sofiev <mikhail.sofiev@fmi.fi>; Finnish Meteorological Institute, Finland); more info at: http://silam.fmi.fi

FLEXPART – FLEXible PARTicle dispersion model (with applications to inverse modeling of GHG emissions) (Andreas Stohl <ast@nilu.no>; Norwegian Institute for Air Research, Norway); more info at: https://www.flexpart.eu

PALM – PArallelized Large-Eddy Simulation Model for Atmospheric and Oceanic Flows (Tobias Wolf-Grosse <tobias.wolf@nersc.no>, Igor Esau <igor.ezau@nersc.no>; Nansen Environmental and Remote Sensing Center, Norway & Leena Järvi <leena.jarvi@helsinki.fi>; University of Helsinki, Finland)

DERMA – Danish Emergency Response Model of the Atmosphere (Jens H. Sorensen <jhs@dmi.dk>; Danish Meteorological Institute, Denmark)

SWAN – Simulating WAves Nearshore (Stanislav Myslenkov <stasocean@gmail.com>; Lomonosov Moscow State University, Russia)

SUEWS – Surface Urban Energy and Water balance Scheme (Leena Järvi <leena.jarvi@helsinki.fi>; University of Helsinki, Finland)

SIM-BIM – Seasonal Isoprenoid synthase Model – Biochemical Isoprenoid biosynthesis Model (Steffen Noe <steffen.noe@emu.ee>; Estonian University of Life Sciences, Estonia)

JULES – Joint UK Land Environment Simulator (Steve Arnold <s.arnold@leeds.ac.uk>; Dominick Spracklen <d.v.spracklen@leeds.ac.uk>; University of Leeds, UK)

CAM-Chem – Community Atmosphere Model with online tropospheric gas-phase and aerosol chemistry (Steve Arnold <s.arnold@leeds.ac.uk>; Dominick Spracklen <d.v.spracklen@leeds.ac.uk>; University of Leeds, UK)

TOMCAT-GLOMAP  – Toulouse Offline Model of Chemistry and Transport & GLObal Model of Aerosol Processes (Dominick Spracklen <d.v.spracklen@leeds.ac.uk>, Steve Arnold <s.arnold@leeds.ac.uk>; University of Leeds, UK); more info at: https://www.see.leeds.ac.uk/research/icas/research-themes/atmospheric-chemistry-and-aerosols/groups/aerosols-and-climate/the-glomap-model

HadGEM2-ES  – Hadley Centre Global Environment Model Version 2, including detailed extended atmospheric chemistry UKCA-ExtTC model (Steve Arnold <s.arnold@leeds.ac.uk>; Dominick Spracklen <d.v.spracklen@leeds.ac.uk>; University of Leeds, UK)

GLOBO/BOLAM/MOLOCH – models suite for meteorology from global scale to limited area forecasting in support of research on the atmospheric circulation and composition (Oxana Drofa <o.drofa@isac.cnr.it>; Piero Malguzzi <p.malguzzi@isac.cnr.it>; Institute of Atmospheric Sciences and Climate, National Research Council, Italy); forecast results are available at: http://www.isac.cnr.it/dinamica/projects/forecasts

LESNIC – Large Eddy Simulation Nansen centre Improved Code for research of the turbulent stably stratified planetary boundary layer (Igor Esau <igor.ezau@nersc.no>; Nansen Environmental and Remote Sensing Center, Norway)

CTE – CarbonTracker Europe atmospheric inverse model assimilating atmospheric greenhouse gas concentrations and estimating global greenhouse gas emissions (Tuula Aalto <tuula.aalto@fmi.fi>; Finnish Meteorological Institute, Finland)

Enviro-HIRLAM – Environment High Resolution Limited Area Model – on-line integrated coupled meteorology-chemistry-aerosols downscaling modeling system for weather and environmental applications (Alexander Mahura <alexander.mahura@helsinki.fi>; University of Helsinki, Finland)

MPI-ESM – earth system model with component models: ECHAM –atmosphere, MPI-OM – ocean and JSBACH – land surface, incl. YASSO for soils and HIMMELI for wetland methane (Harri Kokkola <harri.kokkola@fmi.fi>, Tuula Aalto <tuula.aalto@fmi.fi>, Jari Liski jari.liski@fmi.fi; Finnish Meteorological Institute, Finland, Maarit Raivonen <maarit.raivonen@helsinki.fi>; University of Helsinki, Finland)

EC-EARTH – earth system model with component models: IFS – atmosphere, NEMO – ocean, and LIM – sea-ice, coupled through OASIS (Risto Makkonen <risto.makkonen@fmi.fi>, Harri Kokkola <harri.kokkola@fmi.fi>; Finnish Meteorological Institute, Finland)

NEMO-LIM3 – ocean-sea-ice model coupled through OASIS (Petteri Uotila <petteri.uotila@helsinki.fi>; University of Helsinki, Finland)

CESM – Community Earth System Model (Markus Jochum <mjochum@nbi.ku.dk>, Roman Nuterman <nuterman@nbi.ku.dk>; Niels Bohr Institute, University of Copenhagen, Denmark)

CNMM-DNDC  – a process-oriented hydro-biogeochemical model enabling simulation of the gaseous carbon and nitrogen emissions and hydrologic nitrogen losses from a catchment (process model for simulation of biosphere–atmosphere–hydrosphere exchange processes at site and regional scale) (Wei Zhang <zhangwei87@mail.iap.ac.cn>, Xunhua Zheng <xunhua.zheng@post.iap.ac.cn>; Institute of Atmospheric Physics, Chinese Academy of Sciences, China)

HYCOM-CICE  – HYbrid Coordinate Ocean Model – Community Ice CodE; Coupled ocean and sea ice system (Till Soya Rasmussen <tar@dmi.dk>; Danish Meteorological Institute, Denmark)

HBM – High Resolution Model for the Baltic Sea – Baltic Operational Oceanography System (HIROMB-BOOS Model); coupled ocean and sea ice model at regional scale (Jun She <js@dmi.dk>; Danish Meteorological Institute, Denmark)

ATMES – Atmospheric Transport and dispersion Models of global and regional scales for climatic Environmental Studies (Vladimir Penenko <penenko@sscc.ru> & Elena Tsvetova <e.tsvetova@ommgp.sscc.ru>; Institute of Computational Mathematics and Mathematical Geophysics, Siberian Branch, Russian Academy of Sciences, Russia)

IMDAF – Inverse Modeling and Data Assimilation Framework (Alexey Penenko <a.penenko@yandex.ru>; Institute of Computational Mathematics and Mathematical Geophysics, Siberian Brunch, Russian Academy of Sciences, Russia)

MMAD&IT – Mesoscale Model of Atmospheric Dynamics and Impurity Transport (Elza Pyanova <pyanova@ommgp.sscc.ru> & Vladimir Penenko <penenko@sscc.ru>; Institute of Computational Mathematics and Mathematical Geophysics, Siberian Brunch, Russian Academy of Sciences, Russia)

EurCTM – Chemistry transport model of the gas composition for Eurasia: off-line numerical model for Eurasia’s tropospheric and stratospheric chemical gases (Maria Cherepova <mariacherepova@yandex.ru> and Sergei Smyshlyaev <smyshl@rshu.ru>; Russian State Hydrometeorological University, Russia)

EmpBVOC – Empirical model of BVOC emissions for some typical ecosystems in China (Jianhui Bai <bjh@mail.iap.ac.cn>; LAGEO, Institute of Atmospheric Physics, Chinese Academy of Sciences, Beijing, China)

WAVEWATCH-III – 3rd generation wave model developed at NOAA/ NCEP (Stanislav Myslenkov <stasocean@gmail.com>; Lomonosov Moscow State University, Russia)